SMART MODE:

NORMAL GENOMIC

• Frigerio L et al.
• The internal propeptide of the ricin precursor carries a sequence-specific determinant for vacuolar sorting.
• Plant Physiol. 2001; 126: 167-75
• Display abstract

• Ricin is a heterodimeric toxin that accumulates in the storage vacuoles of castor bean (Ricinus communis) endosperm. Proricin is synthesized as a single polypeptide precursor comprising the catalytic A chain and the Gal-binding B chain joined by a 12-amino acid linker propeptide. Upon arrival in the vacuole, the linker is removed. Here, we replicate these events in transfected tobacco (Nicotiana tabacum) leaf protoplasts. We show that the internal linker propeptide is responsible for vacuolar sorting and is sufficient to redirect the ricin heterodimer to the vacuole when fused to the A or the B chain. This internal peptide can also target two different secretory protein reporters to the vacuole. Moreover, mutation of the isoleucine residue within an NPIR-like motif of the propeptide affects vacuolar sorting in proricin and in the reconstituted A-B heterodimer. This is the first reported example of a sequence-specific vacuolar sorting signal located within an internal propeptide.

• Saxena IM, Brown RM Jr, Dandekar T
• Structure--function characterization of cellulose synthase: relationship to other glycosyltransferases.
• Phytochemistry. 2001; 57: 1135-48
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• A combined structural and functional model of the catalytic region of cellulose synthase is presented as a prototype for the action of processive beta-glycosyltransferases and other glycosyltransferases. A 285 amino acid segment of the Acetobacter xylinum cellulose synthase containing all the conserved residues in the globular region was subjected to protein modeling using the genetic algorithm. This region folds into a single large domain with a topology exhibiting a mixed alpha/beta structure. The predicted structure serves as a topological outline for the structure of this processive beta-glycosyltransferase. By incorporating new site-directed mutagenesis data and comparative analysis of the conserved aspartic acid residues and the QXXRW motif we deduce a number of functional implications based on the structure. This includes location of the UDP--glucose substrate-binding cavity, suggestions for the catalytic processing including positions of conserved and catalytic residues, secondary structure arrangement and domain organization. Comparisons to cellulose synthases from higher plants (genetic algorithm based model for cotton CelA1), data from neural network predictions (PHD), and to the recently experimentally determined structures of the non-processive SpsA and beta 4-galactosyltransferase retest and further validate our structure-function description of this glycosyltransferase.

• Kuno A et al.
• Novel sugar-binding specificity of the type XIII xylan-binding domain of a family F/10 xylanase from Streptomyces olivaceoviridis E-86.
• FEBS Lett. 2000; 482: 231-6
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• The type XIII xylan-binding domain (XBD) of a family F/10 xylanase (FXYN) from Streptomyces olivaceoviridis E-86 was found to be structurally similar to the ricin B chain which recognizes the non-reducing end of galactose and specifically binds to galactose containing sugars. The crystal structure of XBD [Fujimoto, Z. et al. (2000) J. Mol. Biol. 300, 575-585] indicated that the whole structure of XBD is very similar to the ricin B chain and the amino acids which form the galactose-binding sites are highly conserved between the XBD and the ricin B chain. However, our investigation of the binding abilities of wt FXYN and its truncated mutants towards xylan demonstrated that the XBD bound xylose-based polysaccharides. Moreover, it was found that the sugar-binding unit of the XBD was a trimer, which was demonstrated in a releasing assay using sugar ranging in size from xylose to xyloheptaose. These results indicated that the binding specificity of the XBD was different from those of the same family lectins such as the ricin B chain. Somewhat surprisingly, it was found that lactose could release the XBD from insoluble xylan to a level half of that observed for xylobiose, indicating that the XBD also possessed the same galactose recognition site as the ricin B chain. It appears that the sugar-binding pocket of the XBD has evolved from the ancient ricin super family lectins to bind additional sugar targets, resulting in the differences observed in the sugar-binding specificities between the lectin group (containing the ricin B chain) and the enzyme group.

• Sehnke PC, Ferl RJ
• Processing of preproricin in transgenic tobacco.
• Protein Expr Purif. 1999; 15: 188-95
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• The plant protein toxin ricin has found widespread application as a potential therapeutic agent for many human diseases and in disease-model systems such as those involving apoptosis. Genetic engineering and expression of the complete two-polypeptide chain toxin have only been possible in plants, specifically in transgenic tobacco carrying the preproricin gene under the control the cauliflower mosaic virus 35S promoter. Production of modified ricin for altered controllable activity and/or fusion therapeutics to target delivery requires knowledge of the heterologous processing that occurs when preproricin is expressed in tobacco. Here, recombinant ricin from transgenic tobacco was purified using lectin affinity chromatography and characterized using various biochemical and biophysical techniques. Coomassie blue staining of an SDS-PAGE gel of lactose-agarose purified material identified predominant proteins of 30 and 35 kDa molecular weight. Western analysis using anti-ricin a- and b-chain antibodies confirmed the expression and purification of recombinant ricin, with identical protein banding profiles to that of authentic castor-bean-derived ricin. High-resolution gel filtration chromatography characterized the lactose binding complex as a 66-kDa native molecular weight protein which could be separated into 30- and 35-kDa proteins upon incubation with the reducing agent dithiothreitol. N-terminal sequencing of the recombinant ricin a-chain revealed that an equimolar ratio of two alternately processed peptides was present, which varied by an additional amino acid derived from the signal peptide. Similar analysis of ricin b-chain again identified two forms of this polypeptide as well; however, full-length ricin b-chain and b-chain missing the first alanine residue were present at 11:1 molar ratios. Transgenic tobacco plants expressing ricin were used to develop a stable cell suspension culture system from callus induced with the growth regulators 2,4-dichlorophenoxyacetic acid and 6-benzylaminopurine. Double sandwich enzyme-linked immunosorbent assay using anti-ricin b-chain antibodies and Western analysis identified soluble ricin in the media of the cultures, indicating that cell cultures provide a safe and simple means to produce properly processed recombinant ricin.

• Steeves RM, Denton ME, Barnard FC, Henry A, Lambert JM
• Identification of three oligosaccharide binding sites in ricin.
• Biochemistry. 1999; 38: 11677-85
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• The galactoside-binding sites of ricin B chain can be blocked by affinity-directed chemical modification using a reactive ligand derived from asialoglycopeptides containing triantennary N-linked oligosaccharides. The terminal galactosyl residue of one branch of the triantennary oligosaccharide is modified to contain a reactive dichlorotriazine moiety. Two separate galactoside-binding sites have been clearly established in the ricin B chain by X-ray crystallography [Rutenber, E., and Robertus, J. D. (1991) Proteins 10, 260-269], and it is necessary to covalently attach two such reactive ligands to the B chain to block its binding to galactoside affinity matrixes. A method was developed using thiol-specific labeling of the ligand combined with subsequent immunoaffinity chromatography which allowed the isolation of ricin B chain peptides covalently linked to the ligand from proteolytic digests of purified blocked ricin. The sites of covalent attachment of the two ligands in blocked ricin were inferred from sequence analysis to be Lys 62 in domain 1 of the B chain and Tyr 148 in domain 2. A minor species of blocked ricin contains a third covalently attached ligand. From the analysis of peptides derived from blocked ricin enriched in this species, it is inferred that Tyr 67 in domain 1 is the specific site on the ricin B chain where a third reactive ligand becomes covalently linked to the protein. These results are interpreted as providing support for the notion that the ricin B chain has three oligosaccharide binding sites.

• Eschenburg S, Krauspenhaar R, Mikhailov A, Stoeva S, Betzel C, Voelter W
• Primary structure and molecular modeling of mistletoe lectin I from Viscum album.
• Biochem Biophys Res Commun. 1998; 247: 367-72
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• The first three-dimensional structure of the ribosome inactivating protein mistletoe lectin I (ML-I) from Viscum album has been modeled on the basis of the X-ray structure of castor bean ricin from Ricinus communis. The relative high sequence homology and conserved secondary structure enabled accurate modeling. The 196 sequence changes between ML-I and ricin could be accomodated with only little pertubation in the main chain folding. A close comparison of the primary structures of ML-I and ricin is given and the effects of the sequence changes are elucidated on the basis of the modeled three-dimensional structure. Differences have been identified in the vicinity of the active site, in the high affinity galactose binding site and in the interface between the A and B chains, which might account for the reduced cytotoxicity of ML-I.

• Akutsu T
• [Protein threading approach for prediction of protein structure]
• Tanpakushitsu Kakusan Koso. 1997; 42: 3014-9

• Venkatesh YP, Lambert JM
• Galactose-induced dimerization of blocked ricin at acidic pH: evidence for a third galactose-binding site in ricin B-chain.
• Glycobiology. 1997; 7: 329-35
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• Blocked ricin is a glycoconjugate formed by covalent modification of each of the two galactose-binding sites of ricin with affinity ligands derived by modification of glycopeptides containing galactose-terminated, triantennary, N-linked oligosaccharides. Blocked ricin undergoes a pH-dependent reversible self-association, being predominantly dimeric at neutral pH and monomeric at acidic pH. The shift in the monomer-dimer equilibrium towards the monomeric form at acidic pH (pH 4) is inhibited by lactose, as shown by size-exclusion chromatography. This behavior of blocked ricin can be reproduced in studies with isolated blocked B-chain. The effect, which is dependent on the concentration of the sugar, is specific for sugars having terminal galactose moieties, or sugars having the same orientation of hydroxyl groups at C2 and C4 as galactose. These results are interpreted as providing further support for the notion that ricin B-chain has a third galactose-binding site, which may be important for the intracellular trafficking of ricin during intoxication of cells.

• Fu T, Burbage C, Tagge E, Chandler J, Willingham M, Frankel A
• Double-lectin site ricin B chain mutants expressed in insect cells have residual galactose binding: evidence for more than two lectin sites on the ricin toxin B chain.
• Bioconjug Chem. 1996; 7: 651-8
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• Ricin toxin, the heterodimeric 65 kDa glycoprotein synthesized in castor bean seeds, contains a cell binding lectin subunit (RTB) disulfide linked to an RNA N-glycosidase protein synthesis-inactivating subunit (RTA). Investigations of the molecular nature of the lectin sites in RTB by X-ray crystallography, equilibrium dialysis, chemical modification, and mutational analysis have yielded conflicting results as to the number, location, and affinity of sugar-combining sites. An accurate assessment of the amino acid residues of RTB involved in galactose binding is needed both for correlating structure-function of a number of plant lectins and for the design and synthesis of targeted toxins for cancer and autoimmune disease therapy. We have performed oligonucleotide-directed mutagenesis on cDNA encoding RTB and expressed the mutant RTBs in insect cells. Partially purified recombinant proteins obtained from infected cell supernatants and cell extracts were characterized as to yields, immunoreactivities, asialofetuin binding, cell binding, ability to reassociate with RTA, and recombinant heterodimer cell cytotoxicity. Two single-site mutants (subdomain 1 alpha or 2 gamma) and two double-site mutants (subdomains 1 alpha 2 gamma) were produced and studied. Yields varied by two logs with lower recoveries of double-site mutants. All the mutants showed immunoreactivity with a panel of anti-RTB monoclonal and polyclonal antibodies. Single-lectin site mutants displayed up to a 1 log decrease in asialofetuin binding avidity, while the double-site mutants showed close to a 2 log decrease in sugar binding. However, for each of the double-site mutants, residual sugar binding was demonstrated to both immobilized asialofetuin and cells, and this binding was specifically inhibitable with alpha-lactose. All mutants reassociated with RTA, and the mutant heterodimers were cytotoxic to mammalian cells with potencies 1000-fold or more times that of unreassociated wild-type RTA or RTB. These data support a model for three or more lectin binding subdomains in RTB.

• Frankel A, Tagge E, Chandler J, Burbage C, Willingham M
• Double-site ricin B chain mutants retain galactose binding.
• Protein Eng. 1996; 9: 371-9
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• Three distinct double-site and two single-site ricin B chain (RTB) mutants were expressed in Spodoptera frugiperda insect cells and purified from infected cell supernatants. The yields of recombinant proteins were 0.01-0.2 mg/l. The purity after monoclonal antibody affinity chromatography was 1-20%. The mutant proteins were soluble, immunoreactive with monoclonal antibodies and polyclonal antibodies to RTB and demonstrated molecular weights of 32 kDa, similar to plant RTB. All three double-site and both single-site mutants bound asialofetuin and mammalian cell surfaces based on an asialofetuin ELISA and cell binding immunofluorescence assay. While one double-site mutant, W37S/Y248S, had a 1 log drop in sugar binding, the other two double-site mutants W37S/Y248H and D22E/D234E had 2 log reductions in sugar binding. Each mutant reassociated efficiently (25-75%) with plant ricin A chain (RTA) to form cytotoxic heterodimers. The concentration of protein required to reduce protein synthesis 50% (ID50) was 1 log higher than plant ricin for W37S/Y248S-RTA and the single-site mutant heterodimers, Q35N-RTA and D22E-RTA and 2 logs higher than plant ricin for the other two double-site mutant heterodimers. The results suggest amino acid residues in both the 1 alpha and 2 gamma subdomains of RTB participate in sugar binding. However, other subdomains must contribute to the avidity of ricin for cell surface oligosaccharides.

• Robertus JD et al.
• Structural analysis of ricin and implications for inhibitor design.
• Toxicon. 1996; 34: 1325-34
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• Ricin is a potent cytotoxin with experimental and clinical uses; it has also been used as a poison. There is considerable interest in identifying or designing inhibitors of the toxin that could be administered as antidotes. The X-ray structure of ricin A-chain is known and a plausible mechanism of action has been proposed. This provides a structural and chemical framework around which inhibitors could be designed; such a structure-based project is underway. Computer programs such as DOCK, GRID, SYBYL, and CHEMX have been used to map the ricin A-chain binding site and to search for potential inhibitors. Inhibitor candidates can be assayed kinetically in a protein synthesis assay and binding can be observed crystallographically. Taken together, a workable search algorithm has been developed and initial tests indicate that at least one ricin A-chain inhibitor, pteroic acid, has been identified.

• Bode W et al.
• The metzincin-superfamily of zinc-peptidases.
• Adv Exp Med Biol. 1996; 389: 1-11

• Bullesbach EE, Schwabe C
• Introduction of relaxin properties into other hormones of insulin-like structure.
• SAAS Bull Biochem Biotechnol. 1996; 9: 63-8
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• Sequence comparison of natural relaxins and the investigation of the structure function relationship of chemically synthesized relaxin analogs have been used to identify two arginine residues on the surface of the main helix of the B chain as hormone-receptor interaction site. This site is sensitive to structural changes, in particular the conformation of the A chain loop. Introducing the active site of relaxin into noncrossreacting structural analogs such as insulin and bombyxin required a four amino acid exchange. Both hybrid hormones bound to the anti-porcine relaxin antibody R6 with high affinity, and the insulin analog, with an additional C-terminal truncation of the B chain, crossreacted with rat relaxin-receptors.

• Tonevitskii AG et al.
• [Production of biologically active recombinant ricin B-chain]
• Mol Biol (Mosk). 1995; 29: 398-406
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• Escherichia coli cells transformed with plasmids containing ricin B-chain coding sequences are shown to express this heterologous protein in inclusion bodies. After denaturation and renaturation of the product in the presence of glutathione and lactose, the recombinant ricin B-chain is soluble, biologically active and stable. Cytotoxicity of heterodimer containing this protein and ricin A-chain is found to be only ten times lower, than that of native ricin. Recombinant B-chain alone was nontoxic to cells (ID50 > 10(-6) M). Our data suggest that ricin B-chain oligosaccharides are essential for stability preserving protein from proteolytic degradation in cells.

• James M, Moore S, Sielecki A, Chernaia M, Tarasova N
• The molecular structure of human progastricsin and its comparison with that of porcine pepsinogen.
• Adv Exp Med Biol. 1995; 362: 11-8

• Reardon D, Farber GK
• The structure and evolution of alpha/beta barrel proteins.
• FASEB J. 1995; 9: 497-503
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• Roughly 10% of all known enzyme structures have an alpha/beta barrel domain. The members of this large family of proteins catalyze very different types of reactions. Such diversity of function has made this family a target for protein engineering. The evolutionary history of this family has been the subject of vigorous debate. In this paper, arguments are made to support the divergence of all members of this family from a common ancestor. Because of the lack of strong sequence homology, the ancestral molecule must be very old. A hypothesis concerning the relationship between chemical mechanism and evolutionary history is discussed. Evidence is presented to suggest that convergent molecular evolution occurs when there is only one energetically reasonable pathway for a chemical reaction.

• Argent RH, Roberts LM, Lord JM
• Purification of recombinant ricin A chain after reassociation with ricin B chain.
• Anal Biochem. 1995; 224: 459-60

• Casari G, Sander C, Valencia A
• A method to predict functional residues in proteins.
• Nat Struct Biol. 1995; 2: 171-8
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• The biological activity of a protein typically depends on the presence of a small number of functional residues. Identifying these residues from the amino acid sequences alone would be useful. Classically, strictly conserved residues are predicted to be functional but often conservation patterns are more complicated. Here, we present a novel method that exploits such patterns for the prediction of functional residues. The method uses a simple but powerful representation of entire proteins, as well as sequence residues as vectors in a generalised 'sequence space'. Projection of these vectors onto a lower-dimensional space reveals groups of residues specific for particular subfamilies that are predicted to be directly involved in protein function. Based on the method we present testable predictions for sets of functional residues in SH2 domains and in the conserved box of cyclins.

• Simpson JC, Lord JM, Roberts LM
• Point mutations in the hydrophobic C-terminal region of ricin A chain indicate that Pro250 plays a key role in membrane translocation.
• Eur J Biochem. 1995; 232: 458-63
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• A series of mutations have been made in the carboxyl terminus of ricin A chain, centred on the hydrophobic region between amino acid residues Val245 and Val256. The mutant ricin A chains were expressed to a high level in an Escherichia coli system and the proteins purified to homogeneity. The enzymic activity of each of these A chain molecules was tested on rabbit reticulocyte ribosomes; in all cases, the activities were found to be comparable to wild-type recombinant ricin A chain. Following reassociation of these A chains to ricin B chain, Vero cells were challenged with these holotoxins and the cytotoxicities determined. Mutant ricin A chain with Ile247-->Ala was unable to reassociate and form holotoxin, indicating the importance of this residue in the interaction with ricin B chain. Mutant ricin A chain with Pro250-->Ala readily reassociated with ricin B chain, forming holotoxin with a 170-fold reduction in cytotoxicity to Vero cells. Other mutations in this region also produced A chain proteins which gave marked reductions in holotoxin cytotoxicity. We propose therefore that the C-terminal hydrophobic region of ricin A chain may be involved in membrane interactions prior to the translocation of this subunit into the cytosol, and that Pro250 plays a key role in one or both of these steps.

• Fryxell D, Li BY, Mohanraj D, Johnson B, Ramakrishnan S
• Genetic construction of a phosphorylation site in ricin A chain: specific radiolabeling of recombinant proteins for localization and degradation studies.
• Biochem Biophys Res Commun. 1995; 210: 253-9
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• Ricin A chain was modified by the addition of the heptapeptide LRRASLG (Kemptide) and a histidine tag for bacterial expression. The mutagenized toxin was purified by nickel column and could be phosphorylated in vitro by protein kinase A as demonstrated by labeling with [gamma-32P] ATP. Kemptide-A chain could be labeled even after reassociation with ricin B chain or disulfide linkage to antibody to form an immunotoxin. The 32P label in all cases was associated only with the A chain; ricin B chain and antibody were not kinase substrates alone or after conjugation. Kemptide-immunotoxin was tested in cytotoxicity assays and used to monitor internalization of the toxin moiety after [32P] phosphorylation.

• Ferrini JB, Martin M, Taupiac MP, Beaumelle B
• Expression of functional ricin B chain using the baculovirus system.
• Eur J Biochem. 1995; 233: 772-7
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• The ricin B chain (RTB) was expressed using a baculovirus expression system. The RTB coding sequence downstream of the preproricin signal sequence was inserted in the baculovirus transfer vector pM34T. After cotransfection of Spodoptera frugiperda Sf9 cells with linearized baculovirus DNA, recombinant viruses were selected, cloned and amplified. Upon infection of Sf9 cells with these recombinant baculoviruses, RTB production was revealed by immunoblotting. RTB expression using this system was optimum 72 h after infection of the cells at a multiplicity of infection of 3. RTB produced was glycosylated and had an apparent molecular mass of 34 kDa. Most of the signal sequence was removed, but the resulting recombinant RTB had a 13-residue N-terminus extension. Immunofluorescence analysis showed that this protein was located in the endoplasmic reticulum/Golgi region of the cell. RTB was not present at the plasma membrane. Secretion was enhanced by the addition of lactose to the cell-culture medium up to 50 mM. Purification was achieved from both cells and media using immobilized lactose and the lectin activity of RTB. Results obtained with the purified recombinant protein (more than 2 mg/l culture) were identical to those obtained with native RTB in all assays for biological activity; binding, internalization and reassociation with the ricin A chain to produce toxic ricin. Moreover, the RTB translocation capacity was not altered by the N-terminal peptide, showing that recombinant RTB could be used to deliver antigenic peptides to the cytosol for the induction of cell-mediated immunity.

• Sphyris N, Lord JM, Wales R, Roberts LM
• Mutational analysis of the Ricinus lectin B-chains. Galactose-binding ability of the 2 gamma subdomain of Ricinus communis agglutinin B-chain.
• J Biol Chem. 1995; 270: 20292-7
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• Ricin B-chain (RTB) is a galactose-specific lectin that folds into two globular domains, each of which binds a single galactoside. The two binding sites are structurally similar and both contain a conserved tripeptide kink and an aromatic residue that comprises a sugar-binding platform. Whereas the critical RTB residues implicated in lectin activity are conserved in domain 1 of Ricinus communis agglutinin (RCA) B-chain, the sugar platform aromatic residue Tyr-248 present in domain 2 of RTB is replaced by His in RCA B-chain. In this study, key residues in the vicinity of the binding sites of the Ricinus lectin B-chains were altered by site-directed mutagenesis. The recombinant B-chains were produced in Xenopus oocytes in soluble, stable, and core-glycosylated forms. Both sites of RCA B-chain must be simultaneously modified in order to abolish lectin activity, indicating the presence of two independent, functional binding sites/molecule. Activity associated with the domain 2 site of RCA B-chain is abrogated by the conversion of Trp-258 to Ser. Moreover, the domain 2 site appears responsible for a weak binding interaction recombinant RCA B-chain with GalNAc, not observed with native tetrameric RCA. Finally, the introduction of His at position 248 of RTB severely disrupts but does not abolish GalNAc binding.

• Tonevitsky A, Toptygin A, Agapov I, Pfueller U, Frankel A
• Renaturated ricin toxin B chain made in Escherichia coli is soluble, stable, and biologically active.
• Biochem Mol Biol Int. 1994; 32: 1139-46
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• Escherichia coli cells transformed with plasmids containing ricin B-chain coding sequences are shown to express this heterologous protein in inclusion bodies. After denaturation and renaturation of the product in the presence of glutathione and lactose, the recombinant ricin B-chain is soluble, biologically active and stable. Cytotoxicity of heterodimer with this protein and ricin A-chain is bound to be only ten times less than of native ricin. Recombinant B-chain alone was nontoxic to cells (ID50 > 10(-6)M). Our data suggest that N-glycosylation of ricin B-chain is not required for its biological activity.

• Morris KN, Wool IG
• Analysis of the contribution of an amphiphilic alpha-helix to the structure and to the function of ricin A chain.
• Proc Natl Acad Sci U S A. 1994; 91: 7530-3
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• The A chain of ricin is a cytotoxic RNA N-glycosidase that inactivates eukaryotic ribosomes. The contribution of the amphiphilic helix D, which is distant from the active site, to the catalysis of the depurination of the adenosine at position 4324 in 28S rRNA has been examined by systematic deletion of amino acids. Two sets of consecutive two- or three-amino acid deletions of the 12 residues in helix D, a total of 20 mutants, were constructed. All 12 of the amino acids could be deleted in one mutant or another without loss of activity; however, mutations that disrupted the amphiphilicity of the helix led to inactivation of the enzyme. Thus, the minimum contribution of helix D to the structure of the ricin A chain is to provide hydrophobic and hydrophilic surfaces to shield helix E, which has the active-site residues; moreover, no amino acid side chain in helix D makes a specific contribution to the recognition of the RNA substrate or to catalysis; and, finally, phasing of the amino acid deletions can be important to the phenotype of mutants.

• Neher E
• How frequent are correlated changes in families of protein sequences?
• Proc Natl Acad Sci U S A. 1994; 91: 98-102
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• A loss-of-function point mutation in a protein is often rescued by an additional mutation that compensates for the original physical change. According to one hypothesis, such compensation would be most effective in maintaining a structural motif if the two mutated residues were spatial neighbors. If this hypothesis were correct, one would expect that many such compensatory mutations have occurred during evolution and that present-day protein families show some degree of correlation in the occurrence of amino acid residues at positions whose side chains are in contact. Here, a statistical theory is presented which allows evaluation of correlations in a family of aligned protein sequences by assigning a scalar metric (such as charge or side-chain volume) to each type of amino acid and calculating correlation coefficients of these quantities at different positions. For the family of myoglobins it is found that there is a high correlation between fluctuations in neighboring charges. The correlation is close to what would be expected for total conservation of local charge. For the metric side-chain volume, on the other hand, no correlation could be found.

• Lehar SM et al.
• Mutational and structural analysis of the lectin activity in binding domain 2 of ricin B chain.
• Protein Eng. 1994; 7: 1261-6
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• The study of the lectin binding sites of ricin B chain and of other homologous members of the small gene family that make up ricin-like molecules has revealed a number of key contact residues involved in sugar binding. In particular, on the basis of data generated by the X-ray crystallographic structure of ricin, comparisons of sequence homologies to other ricin-like molecules and substrate binding studies with these molecules, it has been proposed that His248 of Ricinus communis agglutinin (RCA) B chain may interfere with galactose binding in the second binding domain of that lectin. To test that hypothesis, single binding domain 2 (SBD2) of ricin B chain was expressed as a gene 3 fusion protein on the surface of fd phage to measure directly the effect of mutational changes on this binding site. Replacement of tyrosine with histidine at amino acid position 248 of SBD2 of ricin B chain was shown to reduce lectin activity. The sequences of RCA and ricin B chains were aligned and compared with the tertiary structure of ricin B chain to select various mutations that were introduced as controls in the study. One of these controls, Leu247 to Val247, displayed increased affinity for galactosides. The role of sequence changes is discussed in relation to the structural and functional divergence in these molecules.

• Wales R, Gorham HC, Hussain K, Roberts LM, Lord JM
• Ricin B chain fragments expressed in Escherichia coli are able to bind free galactose in contrast to the full length polypeptide.
• Glycoconj J. 1994; 11: 274-81
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• Deleted forms of ricin B chain (RTB) containing only one of the two galactose binding sites were produced in E. coli and targeted to the periplasm by fusion to the ompA or ompF signal sequences. The proteins were then isolated from the periplasm and their sugar binding properties assessed. Previous studies investigating the properties of such proteins produced in Xenopus laevis oocytes suggested that deleted forms of RTB, when not glycosylated, retain their ability to bind simple sugars, unlike the full-length unglycosylated proteins. When produced in E. coli however we found that only one, EB733, of a number of deleted forms of RTB closely related to those previously produced in Xenopus laevis oocytes, bound to simple sugars. All of the deletion forms of RTB were found to bind in the asialofetuin binding assay; an assay which has been previously utilized to measure binding of lectins to the terminal galactose residues of glycoprotein oligosaccharides. However, in contrast to glycosylated RTB, binding of the deletion mutants could be competed to only a small degree or not at all with galactose. The only deletion mutant observed to bind to free galactose when produced in E. coli corresponded closely to the complete domain 2 of RTB. It is assumed that this mutant forms a stable structure similar to that of the C-terminal domain in the full-length protein. The structural integrity of EB733 was not only suggested by its sugar binding properties and solubility but also by its consistently higher level of expression and the absence of any apparent susceptibility to E. coli proteases.

• Lee RT, Gabius HJ, Lee YC
• The sugar-combining area of the galactose-specific toxic lectin of mistletoe extends beyond the terminal sugar residue: comparison with a homologous toxic lectin, ricin.
• Carbohydr Res. 1994; 254: 269-76
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• Viscumin (the major lectin of mistletoe extract), also known as ML-1, and ricin (RCA II) belong to a group of heterodimeric toxic lectins composed of an A chain, which inhibits protein synthesis, and a B chain, which mediates entry into the cell in a galactose-specific manner. Although most of the binding force for the association of viscumin with galactose-containing ligands is generated by the nonreducing terminal galactose residue, a particular hydroxyl group on the penultimate sugar also appears to participate in the binding, suggesting that viscumin has an extended combining site. In this paper, we give further examples of affinity enhancement by the hydroxyl group situated on the penultimate sugar next to the glycosidic linkage of the terminal galactose. The structure with highest affinity for viscumin thus far discovered is beta-D-Gal-(1-->2)-beta-D-Gal. In contrast to viscumin, ricin does not have this extended binding area, as none of the disaccharides tested exhibited significant affinity enhancement.

• Mlsna D, Monzingo AF, Katzin BJ, Ernst S, Robertus JD
• Structure of recombinant ricin A chain at 2.3 A.
• Protein Sci. 1993; 2: 429-35
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• The plant cytotoxin ricin is a heterodimer with a cell surface binding (B) chain and an enzymatically active A chain (RTA) known to act as a specific N-glycosidase. RTA must be separated from B chain to attack rRNA. The X-ray structure of ricin has been solved recently; here we report the structure of the isolated A chain expressed from a clone in Escherichia coli. This structure of wild-type rRTA has and will continue to serve as the parent compound for difference Fouriers used to assess the structure of site-directed mutants designed to analyze the mechanism of this medically and commercially important toxin. The structure of the recombinant protein, rRTA, is virtually identical to that seen previously for A chain in the heterodimeric toxin. Some minor conformational changes due to interactions with B chain and to crystal packing differences are described. Perhaps the most significant difference is the presence in rRTA of an additional active site water. This molecule is positioned to act as the ultimate nucleophile in the depurination reaction mechanism proposed by Monzingo and Robertus (1992, J. Mol. Biol. 227, 1136-1145).

• Efimov AV
• Standard structures in proteins.
• Prog Biophys Mol Biol. 1993; 60: 201-39

• Monzingo AF, Robertus JD
• X-ray analysis of substrate analogs in the ricin A-chain active site.
• J Mol Biol. 1992; 227: 1136-45
• Display abstract

• Ricin A-chain is an N-glycosidase that hydrolyzes the adenine ring from a specific adenosine of rRNA. Formycin monophosphate (FMP) and adenyl(3'-->5')guanosine (ApG) were bound to ricin A-chain and their structures elucidated by X-ray crystallography. The formycin ring stacks between tyrosines 80 and 123 and at least four hydrogen bonds are made to the adenine moiety. A residue invariant in this enzyme class, Arg180, appears to hydrogen bond to N-3 of the susceptible adenine. Three hypothetical models for binding a true hexanucleotide substrate, CGAGAG, are proposed. They incorporate adenine binding, shown by crystallography, but also include geometry likely to favor catalysis. For example, efforts have been made to orient the ribose ring in a way that allows solvent attack and oxycarbonium stabilization by the enzyme. The favored model is a simple perturbation of the tetraloop structure determined by nuclear magnetic resonance for similar polynucleotides. The model is attractive in that specific roles are defined for conserved protein residues. A mechanism of action is proposed. It invokes oxycarbonium ion stabilization on ribose by Glu177 in the transition state. Arg180 stabilizes anion development on the leaving adenine by protonation at N-3 and may activate a trapped water molecule that is the ultimate nucleophile in the depurination.

• Bevilacqua VL, Kim Y, Prestegard JH
• Conformation of beta-methylmelibiose bound to the ricin B-chain as determined from transferred nuclear Overhauser effects.
• Biochemistry. 1992; 31: 9339-49
• Display abstract

• Transferred nuclear Overhauser effect (TRNOE) experiments have revealed a change in the torsion angles about the alpha-1-6 glycosidic bond of methyl beta-melibioside upon binding of the melibioside to the ricin B-chain (Rb). A full relaxation rate matrix simulation of experimental buildup curves aided in quantitative interpretation of 1D selective inversion recovery TRNOE experiments. The data are consistent with a model in which both major (omega approximately 170 degrees) and minor (omega approximately -60 degrees) conformers for methyl beta-melibioside are significantly populated in solution while the Rb/methyl beta-melibioside complex has little of the minor conformer populated. The results indicate that the ricin B-chain excludes binding of certain ligand conformations on the basis of unfavorable interactions between the protein surface and remote portions of the disaccharide system.

• Goldmacher VS, Lambert JM, Blattler WA
• The specific cytotoxicity of immunoconjugates containing blocked ricin is dependent on the residual binding capacity of blocked ricin: evidence that the membrane binding and A-chain translocation activities of ricin cannot be separated.
• Biochem Biophys Res Commun. 1992; 183: 758-66
• Display abstract

• Recently we have developed blocked ricin, a derivative of native ricin in which the galactose-binding sites of the B-chain are blocked by covalent modification with affinity ligands. This modification impedes the binding function of the B-chain, while sparing its ability to facilitate the entry of the toxic subunit of ricin, the A-chain, into the cytoplasm. Immunotoxins prepared with blocked ricin approach the cytotoxic potency of native ricin with antibody-dependent specificity. Here we report that the high cytotoxic potency of these immunoconjugates, which is attributed to the preserved translocation function of the ricin B-chain, is dependent on the minimal residual lectin activity of blocked ricin. Our findings support the notion that two functions of ricin, membrane binding and translocation, cannot be separated.

• Wales R, Richardson PT, Roberts LM, Lord JM
• Recombinant ricin B chain fragments containing a single galactose binding site retain lectin activity.
• Arch Biochem Biophys. 1992; 294: 291-6
• Display abstract

• Ricin B chain is an N-glycosylated galactose-specific lectin. Examination of the amino acid sequence of the protein has shown it to be the product of a series of gene duplication events based on an original galactose binding peptide. The X-ray crystallographic structure of the protein reveals that it consists of two globular domains, each composed of three smaller subdomains. In each globular domain only one of the three subdomains has retained its ability to bind galactose. Through DNA manipulation we have created a series of fusions of portions of ricin B chain, each carrying only one galactose binding site, to the ricin signal sequence. Transcripts synthesized in vitro using SP6 RNA polymerase were injected into Xenopus oocytes where the recombinant proteins were produced in a mature form. The products were shown to be N-glycosylated and produced in a soluble stable form. Also, they retained the ability to bind galactose. Preliminary experiments on the reassociation of these ricin B chain fragments with ricin A chain to create a modified holotoxin were also carried out.

• Swimmer C, Lehar SM, McCafferty J, Chiswell DJ, Blattler WA, Guild BC
• Phage display of ricin B chain and its single binding domains: system for screening galactose-binding mutants.
• Proc Natl Acad Sci U S A. 1992; 89: 3756-60
• Display abstract

• We demonstrate that the B chain of ricin toxin preserves its lectin activity when expressed as a fusion protein on the surface of fd phage. Moreover, B chain, which folds into two topologically similar globular domains, can be dissected into amino-terminal and carboxyl-terminal domains to form single binding domains (SBDs) of B chain, each of which displays specificity for complex galactosides. The specific binding exhibited by the fusion protein of these SBDs was eliminated when amino acid substitutions Gly-46 in SBD1 or Gly-255 in SBD2 for native asparagine were introduced to alter key residues implicated in hydrogen bonding with substrate. These data demonstrate that it is possible to use a prokaryotic expression system to stably express and screen ricin B chain and its SBDs for sugar-binding mutants. Expression of ricin B chain on the surface of fd phage provides a method that can be used to efficiently select mutants with altered binding activities from a randomly generated library.

• Morris KN, Wool IG
• Determination by systematic deletion of the amino acids essential for catalysis by ricin A chain.
• Proc Natl Acad Sci U S A. 1992; 89: 4869-73
• Display abstract

• The A chain of ricin is a RNA N-glycosidase that inactivates ribosomes by depurination of a single adenosine in 28S rRNA. Of the 267 amino acids in the protein, 222 (83%) could be deleted from one or another of 74 mutants without loss of the capacity of the protein to recognize a single nucleotide from among the 7000 in ribosomes or to catalyze hydrolysis.

• Roberts LM, Tregear JW, Lord JM
• Molecular cloning of ricin.
• Targeted Diagn Ther. 1992; 7: 81-97
• Display abstract

• A variety of strategies have been used to obtain cDNA and genomic clones encoding ricin. Since their isolation these sequences have been manipulated to allow expression of A chain (19) and A chain mutants (15,20,34), B chain (14,21-23) and proricin (24). Utilizing structural information (35), precise changes have been introduced into both A and B chains with the aim of probing catalytic and sugar-binding residues, respectively. In the longer term, such manipulations, coupled with successful expression and purification schemes, will allow the delineation of functional residues and domains, ensuring that ricin remains the prototype plant toxin with which to study cellular intoxication and ribosome inactivation and to utilize in pharmaceutical product development.

• Robertus JD
• The structure of plant toxins as a guide to rational design.
• Targeted Diagn Ther. 1992; 7: 133-49

• Greenfield L
• Chemical and genetic characterization of the enzymatic activity associated with ricin A chain.
• Targeted Diagn Ther. 1992; 7: 151-82

• Newton DL et al.
• Cell surface and intracellular functions for ricin galactose binding.
• J Biol Chem. 1992; 267: 11917-22
• Display abstract

• The role of the two galactose binding sites of ricin B chain in ricin toxicity was evaluated by studying a series of ricin point mutants. Wild-type (WT) ricin and three ricin B chain point mutants having mutations in either 1) the first galactose binding domain (site 1 mutant, Met in place of Lys-40 and Gly in place of Asn-46), 2) the second galactose binding domain (site 2 mutant, Gly in place of Asn-255), or 3) both galactose binding domains (double site mutant containing all three amino acid replacements formerly stated) were expressed in Xenopus oocytes and then reassociated with recombinant ricin A chain. The different ricin B chains were mannosylated to the same extent. Cytotoxicity of these toxins was evaluated when cell entry was mediated either by galactose-containing receptors or through an alternate receptor, the mannose receptor of macrophages. WT ricin and each of the single domain mutants was able to kill Vero cells following uptake by galactose containing receptors. Lactose blocked the toxicity of each of these ricins. Site 1 and 2 mutants were 20-40 times less potent than WT ricin, and the double site mutant had no detectable cytotoxicity. WT ricin, the site 1 mutant, and the site 2 mutant also inhibited protein synthesis of mannose receptor-containing cells. Ricin can enter these cells through either a cell-surface galactose-containing receptor or through the mannose receptor. By including lactose in the cell medium, galactose-containing receptor-mediated uptake is blocked and cytotoxicity occurs solely via the mannose receptor. WT ricin, site 1, and site 2 mutants were cytotoxic to macrophages in the presence of lactose with the relative potency, WT greater than site 2 mutant greater than site 1 mutant. The double site mutant lacked cytotoxicity either in the absence or presence of lactose. Thus, even for mannose receptor-mediated toxicity of ricin, at least one galactose binding site remains necessary for cytotoxicity and two galactose binding sites further increases potency. These results are consistent with the model that the ricin B chain galactose binding activity plays a role not only in cell surface binding but also intracellularly for ricin cytotoxicity.

• Li BY, Frankel AE, Ramakrishnan S
• High-level expression and simplified purification of recombinant ricin A chain.
• Protein Expr Purif. 1992; 3: 386-94
• Display abstract

• Ricin toxin is a glycoprotein which catalytically inactivates eukaryotic ribosomes by depurination of a single adenosine residue from the 28S ribosomal RNA. The enzymatic activity is present in the A chain of the toxin molecule, whereas the B chain contains two binding sites for galactose. Since it is highly potent in inhibiting protein synthesis, the A chain is used to prepare cytotoxic conjugates effective against tumor cells. Such chimeric proteins are highly selective and have a wide range of clinical applications. Extensive preclinical studies on these conjugates require large amounts of purified A chain. Native ricin A chain is heterogeneous, since plants produce a number of isoforms of ricin toxin. Purified, native preparations often contain two types of ricin A chain which differ in the extent of glycosylation. By cloning and expressing the gene of A chain, one could obtain homogeneous toxin molecules devoid of carbohydrates. In addition, structural changes in the toxin polypeptide could be introduced by in vitro mutagenesis, which can improve the pharmacological properties and antitumor activity. Earlier methods of expression strategies using Escherichia coli have yielded only moderate levels of expression. In the present study, the coding region of ricin A chain was cloned into pET3b, a high-level expression vector under the control of the T7 promoter. Recombinant ricin A chain produced by this construct has an additional 14 amino acid residues at the NH2 terminus. Subsequently, a NdeI site was created at the 5' end of the gene by oligonucleotide-directed mutagenesis. The modified fragment was then introduced into pET3b vector to produce toxin polypeptide identical to the native sequence.(ABSTRACT TRUNCATED AT 250 WORDS)

• Richardson PT, Hussain K, Woodland HR, Lord JM, Roberts LM
• The effects of N-glycosylation on the lectin activity of recombinant ricin B chain.
• Carbohydr Res. 1991; 213: 19-25
• Display abstract

• Soluble, biologically-active recombinant ricin B chain has been produced by expressing B chain-encoding DNA in heterologous eukaryotic or prokaryotic hosts. N-Glycosylated recombinant ricin B chain expressed in Xenopus oocytes bound to both immobilized asialofetuin and immobilized lactose. Non-glycosylated ricin B chain expressed in either E. coli or in tunicamycin-treated oocytes did not bind to immobilized lactose. However, it did bind to asialofetuin, and increasing concentrations of free lactose did not reduce this asialofetuin binding dramatically, in contrast to the effect of free lactose on the binding of either glycosylated recombinant B chain or native ricin B chain.

• Rutenber E, Robertus JD
• Structure of ricin B-chain at 2.5 A resolution.
• Proteins. 1991; 10: 260-9
• Display abstract

• The heterodimeric plant toxin ricin has been refined to 2.5 A resolution. The B-chain lectin (RTB) is described in detail. The protein has two major domains, each of which has a galactose binding site. RTB has no regular secondary structure but displays several omega loops. Each RTB domain is made of three copies of a primitive 40 residue folding unit, which pack around a pseudo threefold axis. In each domain, galactose binds in a shallow cleft formed by a three residue peptide kink on the bottom and an aromatic ring on the top. At the back of the cleft, an aspartate forms hydrogen bonds to the C3 and C4 hydroxyls of galactose, whereas a glutamine bonds to the C4 alcohol, helping to define specific epimer binding. In addition to analyzing the sugar binding mechanism, the assembly of subdomain units around the pseudo threefold axis of each domain is described. The subdomains contribute conserved Trp, Leu, and Ile residues to a compact central hydrophobic core. This tight threefold binding probably drives the peptide folding and stabilizes the protein structure.

• Wales R, Richardson PT, Roberts LM, Woodland HR, Lord JM
• Mutational analysis of the galactose binding ability of recombinant ricin B chain.
• J Biol Chem. 1991; 266: 19172-9
• Display abstract

• Ricin B chain (RTB) is an N-glycosylated galactose-specific lectin which folds into two globular domains. Each domain binds one galactoside. The x-ray crystallographic structure has shown that the two binding sites are structurally similar and contain key binding residues which hydrogen bond to the sugar, and a conserved tripeptide, Asp-Val-Arg. We have used oligonucleotide site-directed mutagenesis to change either the binding residues or the homologous tripeptide in one or other or in both of the sites. The 5' signal sequence and RTB coding region were excised from preproricin cDNA and fused in frame to generate preRTB cDNA. Transcripts synthesized in vitro from wild-type or mutant preRTB cloned into the Xenopus transcription vector pSP64T using SP6 RNA polymerase, were microinjected into Xenopus oocytes. The recombinant products were segregated into the oocyte rough endoplasmic reticulum and core-glycosylated, and the N-terminal signal peptide was removed. Mutating sugar binding sites individually did not abrogate the lectin activity of RTB. When both sites were changed simultaneously, RTB was produced which was soluble and stable but no longer able to bind galactose. Changing the Asn residues of the two RTB N-glycosylation sites to Gln showed that oligosaccharide side chains were essential for both the stability and biological activity of recombinant RTB.

• Lambert JM et al.
• The galactose-binding sites of the cytotoxic lectin ricin can be chemically blocked in high yield with reactive ligands prepared by chemical modification of glycopeptides containing triantennary N-linked oligosaccharides.
• Biochemistry. 1991; 30: 3234-47
• Display abstract

• A glycopeptide containing a triantennary N-linked oligosaccharide from fetuin was modified by a series of chemical and enzymic reactions to afford a reagent that contained a terminal residue of 6-(N-methylamino)-6-deoxy-D-galactose on one branch of the triantennary structure and terminal galactose residues on the other two branches. Binding assays and gel filtration experiments showed that this modified glycopeptide could bind to the sugar-binding sites of ricin. The ligand was activated at the 6-(N-methylamino)-6-deoxy-D-galactose residue by reaction with cyanuric chloride. The resulting dichlorotriazine derivative of the ligand reacts with ricin, forming a stable covalent linkage. The reaction was confined to the B-chain and was inhibited by lactose. Bovine serum albumin and ovalbumin were not modified by the activated ligand under similar conditions, and we conclude, therefore, that the reaction of the ligand with ricin B-chain was dependent upon specific binding to sugar-binding sites. Ricin that had its galactose-binding sites blocked by the covalent reaction with the activated ligand was purified by affinity chromatography. The major species in this fraction was found to contain 2 covalently linked ligands per ricin B-chain, while a minor species contained 3 ligands per B-chain. The cytotoxicity of blocked ricin was at least 1000-fold less than that of native ricin for cultured cells in vitro, even though the activity of the A-chain in a cell-free system was equal to that from native ricin. Modified ricin that contained only 1 covalently linked ligand was also purified. This fraction retained an ability to bind to galactose affinity columns, although with a lower affinity than ricin, and was only 5- to 20-fold less cytotoxic than native ricin.

• Rutenber E et al.
• Crystallographic refinement of ricin to 2.5 A.
• Proteins. 1991; 10: 240-50
• Display abstract

• The plant cytotoxin ricin consists of two disulfide-linked chains, each of about 30,000 daltons. An initial model based on a 2.8 A MIR electron density map has been refined against 2.5 A data using rounds of hand rebuilding coupled with either a restrained least squares algorithm or molecular dynamics (XPLOR). The last model (9) has an R factor of 21.6% and RMS deviations from standard bond lengths and angles of 0.021 A and 4.67 degrees, respectively. Refinement required several peptide segments in the original model to be adjusted translationally along the electron density. A wide range of lesser changes were also made. The RMS deviation of backbone atoms between the original and model 9 was 1.89 A. Molecular dynamics proved to be a very powerful refinement tool. However, tests showed that it could not replace human intervention in making adjustments such as local translations of the peptide chain. The R factor is not a completely satisfactory indicator of refinement progress; difference Fouriers, when observed carefully, may be a better monitor.

• Bevilacqua VL, Thomson DS, Prestegard JH
• Conformation of methyl beta-lactoside bound to the ricin B-chain: interpretation of transferred nuclear Overhauser effects facilitated by spin simulation and selective deuteration.
• Biochemistry. 1990; 29: 5529-37
• Display abstract

• Spin simulation and selective deuteration have been used to aid in the interpretation of 1D transferred nuclear Overhauser effect (TRNOE) NMR experiments on ricin B-chain/ligand systems. Application of these methods has revealed a change in the conformation of deuterated methyl beta-lactoside upon binding to the ricin B-chain which results in a slight change in glycosidic torsional angels which appear to dominate in the solution conformation. The combination of simulation and experiment also shows an important sensitivity of TRNOE magnitudes to dissociation rate constants and available spin-diffusion pathways for the ricin B-chain/ligand systems under study. The sensitivity to dissociation rates allows determination of rate constants for methyl beta-lactoside and methyl beta-galactoside of 50 and 300 s-1, respectively.

• Vitetta ES, Yen N
• Expression and functional properties of genetically engineered ricin B chain lacking galactose-binding activity.
• Biochim Biophys Acta. 1990; 1049: 151-7
• Display abstract

• Ricin is a potent plant toxin consisting of two disulfide-bonded subunits. The A chain of ricin is an N-glycosidase which inactivates 28 S RNA and inhibits protein synthesis. The B chain is a galactose-specific lectin with two galactose-binding sites. The genes encoding preproricin and its A and B chains have been cloned and expressed. In addition, X-ray crystallographic studies have identified the galactose-contact residues in both the high- and low-affinity galactose-binding sites of the B chain. In this study, the high-affinity galactose-contact residue of the B chain was changed from Asn-255 to Ala-255 by oligonucleotide-directed mutagenesis. The resulting mutant was sequenced to confirm the presence of a single mutation and was expressed in Cos-M6 cells. Both wild-type and mutant recombinant B chain could be immunoprecipitated with a heterologous anti-B chain antibody and both could form A-B heterodimers. However, as compared to the wild-type, the mutant B chain lacked more than 99% of its lectin activity and cytotoxicity as an A-B dimer. In conclusion, altering the contact residue of the high-affinity galactose-binding site of ricin B chain from Asn-255 to Ala-255 abrogates more than 99% of its lectin activity and the cytotoxicity of the A-B heterodimer to ricin-sensitive cells.

• May MJ, Hartley MR, Roberts LM, Krieg PA, Osborn RW, Lord JM
• Ribosome inactivation by ricin A chain: a sensitive method to assess the activity of wild-type and mutant polypeptides.
• EMBO J. 1989; 8: 301-8
• Display abstract

• When recombinant ricin A chain transcripts are translated in a rabbit reticulocyte lysate the ribosomes are rapidly inactivated as shown by their inability to support translation of yeast preproalpha factor or chicken lysozyme transcripts added subsequently. In contrast, ribosomes which have translated transcripts encoding non-toxic polypeptides such as ricin B chain, readily translate the second transcript under identical conditions. Ribosome inactivation is accompanied by a highly specific modification of 28S rRNA which occurs at the same position as the N-glycosidic cleavage of an adenine residue and which is thought to cause inactivation of the ribosomes. Protein synthesis by wheat germ ribosomes was not inhibited under the conditions which inhibit reticulocyte ribosomes confirming earlier observations that plant cytoplasmic ribosomes are much less sensitive to inhibition by ricin A chain than are mammalian ribosomes. Using the same assay we have shown that deleting an internal hexapeptide, which shares homology with hamster elongation factor-2, completely abolishes catalytic activity. Deleting a second pentapeptide conserved between ricin A chain and the ribosome-inactivating plant toxin trichosanthin, had no effect. Deleting the first nine residues from the N-terminus of A chain did not affect toxicity whereas deleting a further three residues inactivated the polypeptide. Point mutations which individually converted arginine 48 and arginine 56 of ricin A chain to alanine residues or which deleted arginine 56 were also without effect on the catalytic activity of the toxin.

• Hussain K, Bowler C, Roberts LM, Lord JM
• Expression of ricin B chain in Escherichia coli.
• FEBS Lett. 1989; 244: 383-7
• Display abstract

• DNA encoding ricin B chain was fused to that encoding the E. coli OmpA signal peptide using the expression secretion vector pIN-111-ompA. When induced, E. coli cells transformed with the recombinant plasmid express ricin B chain. The recombinant product accumulates in the periplasmic space in a soluble, biologically active form.

• Wawrzynczak EJ, Drake AF, Watson GJ, Thorpe PE, Vitetta ES
• Ricin B chain-containing immunotoxins prepared with heat-denatured B chain lacking galactose-binding ability potentiate the cytotoxicity of a cell-reactive ricin A chain immunotoxin.
• Biochim Biophys Acta. 1988; 971: 55-62
• Display abstract

• Ricin B chain incubated at 37 degrees C in the absence of lactose loses its ability to bind the galactose-containing protein, asialofetuin. Circular dichroism analysis of the B chain during thermal denaturation indicates that the loss of galactose-binding ability by the B chain correlates with limited unfolding of the molecule. As a result of this conformational change, disulfide bonds that are shielded from the solvent by the compact folded structure of the B chain become exposed and the chitobiosyl cores of both N-linked oligomannose chains become susceptible to cleavage by endoglycosidases. The heat-denatured B chain does not enhance the toxicity of a ricin A chain-containing rabbit anti-human immunoglobulin (RAHIg-A) to Daudi cells. However, when heat-denatured B chain is coupled to goat anti-rabbit immunoglobulin (GARIg), the resulting immunotoxin, GARIg-hdB, potentiates the killing of RAHIg-A-treated Daudi cells to an extent similar to that of an immunotoxin prepared with GARIg and native B chain. These results indicate that the native, galactose-binding structure of the B chain is not necessary to enhance the cytotoxicity of the cell-reactive A chain immunotoxin (IT-A) and suggests that regions of the B chain exposed by unfolding the molecule may mediate potentiation of cytotoxicity.

• Richardson PT, Roberts LM, Gould JH, Lord JM
• The expression of functional ricin B-chain in Saccharomyces cerevisiae.
• Biochim Biophys Acta. 1988; 950: 385-94
• Display abstract

• Yeast cells transformed with plasmids containing ricin B-chain coding sequences expressed this heterologous protein. When ricin B-chain was expressed in a form which resulted in its deposition in the yeast cytosol it formed insoluble aggregates which were devoid of galactose-binding activity. In contrast, when DNA fusions were constructed, in which the B-chain coding sequence was preceded by either the preproalpha-factor leader sequence or the native preproricin signal sequence, the recombinant B-chain products were soluble and biologically active. Both the homologous yeast signal peptide and the heterologous plant signal peptide directed the expressed product into the lumen of the yeast endoplasmic reticulum. As a result, the recombinant B-chain products were processed at the N-terminus, glycosylated and folded into an active conformation, presumably stabilized by correct intrachain disulphide bond formation.

• Bushueva TL, Tonevitskii AG
• [Effect of pH on the conformation and stability of the plant toxin ricin]
• Mol Biol (Mosk). 1987; 21: 414-21
• Display abstract

• Intrinsic protein fluorescence of native plant toxin and its isolated subunits were studied. The effect of pH was studied on: conformation of ricin and its A- and R-chains; affinity to galactose of ricin and its binding B-subunit. At two pH 5.0 and 7.0, the structural stability of toxin and subunits was estimated according to denaturational action of guanidine chloride. It was demonstrated that position of maximum and the spectrum shape of fluorescence of native toxin and catalytical A-subunit insignificantly depends on pH in the range of 3-8, whereas sufficient changes of the separameters for the ricin B-chain reveal structural transition at pH 4-5. The affinity of galactose of ricin and its isolated B-chain depends on pH, the maximal binding is observed at pH 7. The structural stability of ricin and isolated chains significantly differs at pH 7.5 and 5.0, thus the structure stability of ricin and A-chain increases, and that of B-chain decreases at pH 5.0.

• Bushueva TL, Tonevitsky AG
• The effect of pH on the conformation and stability of the structure of plant toxin-ricin.
• FEBS Lett. 1987; 215: 155-9
• Display abstract

• The effect of pH on the conformation of ricin and its A- and B-chains has been studied by measuring their intrinsic fluorescence. At pH 5.0 and 7.5, the structural stability of toxin and subunits was estimated according to the denaturing action of guanidine hydrochloride. It was demonstrated that the fluorescence of native toxin and catalytic A-subunit does not depend significantly on pH in the range pH 3-8, whereas ricin B-chain undergoes a structural transition at pH less than 5.0. The structural stability of ricin and isolated chains differs significantly at pH 7.5 and 5.0; the structural stability of ricin and the A-chain increases, whereas that of the B-chain decreases.

• Araki T, Funatsu G
• The complete amino acid sequence of the B-chain of ricin E isolated from small-grain castor bean seeds. Ricin E is a gene recombination product of ricin D and Ricinus communis agglutinin.
• Biochim Biophys Acta. 1987; 911: 191-200
• Display abstract

• The complete amino acid sequence of the B-chain of ricin E has been determined. The reduced and carboxymethylated B-chain was digested with trypsin, followed by separation and purification of the resulting peptides using reverse-phase HPLC. The amino acid sequence of each tryptic peptide was determined employing the DABITC/PITC double-coupling method. The B-chain of ricin E proved to consist of 262 amino acid residues. By comparing the amino acid sequence of the B-chain of ricin E with those of ricin D and of Ricinus communis agglutinin, it was found that the B-chain of ricin E was composed of the N-terminal half of ricin D and C-terminal half R. communis agglutinin. This result suggested that the gene recombination probably occurred at the center region of two B-chain genes of ricin D and R. communis agglutinin.

• Robertus JD, Piatak M, Ferris R, Houston LL
• Crystallization of ricin A chain obtained from a cloned gene expressed in Escherichia coli.
• J Biol Chem. 1987; 262: 19-20
• Display abstract

• Ricin is a heterodimeric toxin of the form AB, where B is a lectin which binds cell surfaces, triggering endocytosis. The B chain then aids the A chain in escaping from the endosome. The A chain enzymatically attacks and inactivates ribosomes, thereby killing the intoxicated cell. We have recently solved the three-dimensional structure of whole ricin. Here we report that the A chain, expressed from a gene cloned into Escherichia coli has been crystallized in a suitable form for high resolution x-ray analysis. The crystals are monoclinic space group P2(1) with a = 42.6, b = 68.1, c = 50.2 A and beta = 112.9 degrees. There is evidence that the A chain undergoes a conformational change, resulting in activation, when it is released from the B chain. Comparison of the two structures should facilitate an analysis of this process.

• Chang MS, Russell DW, Uhr JW, Vitetta ES
• Cloning and expression of recombinant, functional ricin B chain.
• Proc Natl Acad Sci U S A. 1987; 84: 5640-4
• Display abstract

• The cDNA encoding the B chain of the plant toxin ricin has been cloned and expressed in monkey kidney COS-M6 cells. The recombinant B chain was detected by labeling the transfected cells with [35S]methionine and [35S]-cysteine and demonstrating the secretion of a protein with a Mr of 30,000-32,000 that was not present in the medium of mock-transfected COS-M6 cells. This protein was specifically immunoprecipitated by an anti-ricin or anti-B-chain antibody and the amount of recombinant B chain secreted by the COS-M6 cells was determined by a radioimmunoassay. Virtually all of the recombinant B chain formed active ricin when mixed with native A chain; it could also bind to the galactose-containing glycoprotein asialofetuin as effectively as native B chain. These results indicate that the vast majority of recombinant B chains secreted into the medium of the COS-M6 cells retain biological function.

• Eccles SA et al.
• An ineffective monoclonal antibody-ricin A chain conjugate is converted to a tumouricidal agent in vivo by subsequent systemic administration of ricin B chain.
• Cancer Immunol Immunother. 1987; 24: 37-41
• Display abstract

• An immunotoxin comprising a tumour-specific monoclonal antibody (11/160) coupled to ricin A chain, although inactive in in vitro cytotoxicity assays against HSNtc sarcoma target cells, was found to be capable of significant tumouricidal activity in syngeneic rats if potentiated by ricin B chain. The 11/160-ricin A, when bound to tumour cells prior to their inoculation, led to a slight inhibition of tumour growth s.c. compared with untreated sarcoma cells or those coated with antibody alone. However, all tumours in these groups developed progressively (69/69), whereas in those rats receiving 15 micrograms or 150 micrograms ricin B chain i.v. 5 min after tumour cell inoculation, the 'take rate' was reduced to 75% and 30% respectively, and significantly longer latent periods were evident for those tumours which did develop. Ricin B chain similarly inhibited, in a dose-dependent manner, the lung colonisation potential of 11/160-ricin A coated HSNtc cells. No effects were obtained if the B chain treatment followed inoculation of untreated or antibody-coated cells, suggesting that systemically administered B chain is capable of gaining access to and activating antibody-ricin A chain conjugates bound to the surface of syngeneic sarcoma cells in lung or subcutaneous sites. Tumour inhibition was obtained in some instances with intervals of up to 24 h between inoculation of conjugate-coated tumour cells and B chain. Experiments are in progress to determine if such potentiation may be feasible in a therapeutic rather than a prophylactic setting using this syngeneic solid tumour system.

• Montfort W et al.
• The three-dimensional structure of ricin at 2.8 A.
• J Biol Chem. 1987; 262: 5398-403
• Display abstract

• The x-ray crystallographic structure of the heterodimeric plant toxin ricin has been determined at 2.8-A resolution. The A chain enzyme is a globular protein with extensive secondary structure and a reasonably prominent cleft assumed to be the active site. The B chain lectin folds into two topologically similar domains, each binding lactose in a shallow cleft. In each site a glutamine residue forms a hydrogen bond to the OH-4 of galactose, accounting for the epimerimic specificity of binding. The interface between the A and B chains shows some hydrophobic contacts in which proline and phenylalanine side chains play a prominent role.

• Wawrzynczak EJ, Thorpe PE
• Enzymic removal of two oligosaccharide chains from ricin B-chain.
• FEBS Lett. 1986; 207: 213-6
• Display abstract

• Peptide:N-glycosidase F removed both the asparagine-linked oligosaccharide chains of ricin B-chain in the absence of lactose. In the presence of lactose, which binds specifically to the B-chain, only one oligosaccharide chain was removed. Lactose also protected Ricinus communis agglutinin B-chain against the removal of one of the two susceptible oligosaccharides present in each B-chain subunit.

• Zhang XJ, Wang JH
• Homology of trichosanthin and ricin A chain.
• Nature. 1986; 321: 477-8

• Seidah NG, Donohue-Rolfe A, Lazure C, Auclair F, Keusch GT, Chretien M
• Complete amino acid sequence of Shigella toxin B-chain. A novel polypeptide containing 69 amino acids and one disulfide bridge.
• J Biol Chem. 1986; 261: 13928-31
• Display abstract

• The complete amino acid sequence of the B-chain of Shigella toxin has been determined using both liquid- and gas-phase sequenators. It reveals a 69-amino acid peptide with a single disulfide bridge, predicting a subunit molecular weight of 7691. No Asn-X-Ser(Thr) sequence was found, confirming the absence of potential N-glycosylation sites. A computer data bank search using a mutation data matrix did not detect any similarity greater than 30% with known sequences to date, indicating a novel primary structure. However, some distant homology with the 103-residue B-chain of cholera and Escherichia coli enterotoxins was revealed. Hydropathy, fractional exposure, and Chou and Fasman calculations all point to an ordered structure with a hydrophobic core spanning residues 36-52 and a hydrophilic domain between residues 10 and 20, the latter probably representing the most antigenic domain.

• Vitetta ES
• Synergy between immunotoxins prepared with native ricin A chains and chemically-modified ricin B chains.
• J Immunol. 1986; 136: 1880-7
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• Ricin B chains treated with chloramine-T in the presence or absence of NaI show a 100-fold to 200-fold reduction in their ability to bind to the galactose-containing protein asialofetuin. Such treated B chains do not form covalently associated homodimers with treated B chains or heterodimers with native ricin A chains. Furthermore, they cannot enhance the toxicity of a ricin A chain-containing rabbit anti-human immunoglobulin (RAHIg-A) for Daudi cells. However, when such B chains are coupled to goat anti-rabbit Ig (GARIg), they potentiate the killing of RAHIg-A-treated Daudi cells only slightly less effectively than GARIg coupled to native B chains. Furthermore, if GARIg-B chain conjugates are treated with chloramine-T after coupling, they fail to bind to asialofetuin but enhance the killing of Daudi cells treated with RAHIg-A. These results demonstrate that the ability of ricin B chains to bind to galactose and to enhance the toxicity of ricin A chains (in the form of an antibody-A chain) can be operationally separated. Thus, the two functions of the B chain may reside on separate domains of the molecule.

• Haigler HT, Woodbury DJ, Kempner ES
• Radiation inactivation of ricin occurs with transfer of destructive energy across a disulfide bridge.
• Proc Natl Acad Sci U S A. 1985; 82: 5357-9
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• The ionizing radiation sensitivity of ricin, a disulfide-linked heterodimeric protein, was studied as a model to determine the ability of disulfide bonds to transmit destructive energy. The radiation-dependent loss of A chain enzymatic activity after irradiation of either intact ricin or ricin in which the interchain disulfide bond was disrupted gave target sizes corresponding to the molecular size of dimeric ricin or monomeric A chain, respectively. These results clearly show that a disulfide bond can transmit destructive energy between protein subunits.

• Roberts LM, Lamb FI, Pappin DJ, Lord JM
• The primary sequence of Ricinus communis agglutinin. Comparison with ricin.
• J Biol Chem. 1985; 260: 15682-6
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• A mixture of synthetic oligonucleotides representing all possible sequences of a peptide present in the ricin B chain has been used to screen a cDNA library constructed using ripening castor bean seed poly(A+) RNA. The eight largest recombinant plasmids selected, by hybridization, a single mRNA species whose translational product was identified as preprolectin by immunoprecipitation. Restriction enzyme analysis of these clones demonstrated that two classes were present representing sequences complementary to two distinct but closely related preprolectin mRNA species. The nucleotide sequence of the cloned cDNA from one of these classes encodes preproricin and has been presented elsewhere (Lamb, F. I., Roberts, L. M., and Lord, J. M., (1985) Eur. J. Biochem. 148, 265-270). The nucleotide sequence of the second class is presented here and shown to represent prepro-Ricinus communis agglutinin. The entire coding sequence was deduced from two overlapping cDNA clones having inserts of 1668 and 1151 base pairs. The coding region defines a preproprotein with a 24-amino acid N-terminal signal sequence preceding the A chain (266 amino acids) which is joined to the B chain (262 amino acids) by a 12-amino acid linking peptide. The protein was confirmed as R. communis agglutinin since the deduced B chain N-terminal sequence corresponds exactly with that determined for purified R. communis agglutinin B chain over a region where several residue differences occur in the ricin B chain. The nucleotide and deduced amino acid sequences of the R. communis agglutinin precursor are compared with those of the ricin precursor.

• Robertus JD, Ready MP
• Ricin B chain and discoidin I share a common primitive protein fold.
• J Biol Chem. 1984; 259: 13953-6
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• The galactoside-binding B chain of the cytotoxic protein ricin is apparently derived from a conservative exon-sized 40-residue peptide which is repeated four times in the molecule. A very similar peptide can also be seen in the amino acid sequence of the slime mold lectin discoidin I, which itself appears to be the product of a gene duplication. There is presently no chemical or structural evidence concerning the function of this peptide region. Nevertheless, the size of this unit, its prominence in the structure of ricin B chain, and its apparent conservation in carbohydrate-binding proteins from widely divergent organisms suggest that it may represent an extremely ancient galactoside-binding exon unit.

• Ready M, Wilson K, Piatak M, Robertus JD
• Ricin-like plant toxins are evolutionarily related to single-chain ribosome-inhibiting proteins from Phytolacca.
• J Biol Chem. 1984; 259: 15252-6
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• A comparison has been made of the amino-terminal sequences of a number of ribosome-inhibiting proteins (RIPs) and cytotoxins. These include the monomeric enzymes PAP, PAP-S, PAP-II, and dodecandrin and the enzymatic A chains from the heterodimeric toxins ricin and modeccin. We show that these proteins have all evolved from a single ancestor. A statistical analysis is used to show the likely evolutionary relationship among the proteins. A similar analysis was performed on the amino-terminal sequences of ricin, Ricinus agglutinin, and modeccin B chains. These are galactoside-binding proteins associated with the A-chain enzymes. From the two comparisons we propose a scheme for the development of two major classes of proteins. The RIP and sugar-binding genes probably evolved independently. In some plant lines the genes never fused, although the RIP gene replicated and developed into several proteins expressed at various stages of plant maturation. In another line the RIP gene fused with a sugar binding (B-chain) gene to form the class of heterodimeric toxins. In some species this fused gene appears to have multiplied, one or more of the toxin genes mutating to code for a self-dimerizing agglutinin molecule.

• Gejyo F et al.
• Characterization of the B-chain of human plasma alpha 2HS-glycoprotein. The complete amino acid sequence and primary structure of its heteroglycan.
• J Biol Chem. 1983; 258: 4966-71
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• alpha 2HS-Glycoprotein, a normal human plasma protein, was recently shown to consist of two polypeptide chains. In the present study, we have separated these two chains from one another and have elucidated the complete primary structure of the B-chain. Employing automated Edman degradation, the polypeptide moiety of this chain was shown to consist of 27 amino acid residues with an unequal distribution of the neutral and charged amino acid residues. The first 20 residues are uncharged, whereas the carboxyl-terminal heptapeptide contains all charged residues. Utilizing 500-MHz 1H-NMR spectroscopy, the carbohydrate unit proved to be a trisaccharide consisting of sialic acid, galactose, and N-acetylgalactosamine O-glycosidically linked to serine (residue 6). The structure of the B-chain was found to be as follows. (formula; see text) Thus, the molecular weight of the B-chain is 3386. Evaluation of the polypeptide chain by the procedure of Chou and Fasman (Chou, P.Y., and Fasman, G.D. (1979) Adv. Enzymol. 47, 45-148) predicts that the B-chain has two beta-turns. Thereby, the carbohydrate unit which is linked to the Ser residue located in the first beta-turn appears to be directed away from the protein. The second beta-turn probably includes the Cys residue which links the B- to the A-chain. In agreement with the CD analysis, the B-chain lacks beta-conformation but possesses a short alpha-helical region.

• McIntosh DP et al.
• Ricin B chain converts a non-cytotoxic antibody-ricin A chain conjugate into a potent and specific cytotoxic agent.
• FEBS Lett. 1983; 164: 17-20
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• We report the conversion of a non-cytotoxic antibody-ricin A chain conjugate to one displaying specific cytotoxic effects comparable with that of native ricin, by the addition of ricin B chain as a second stage reagent. The results suggest that this conversion is achieved by the association of the added B chain with the A chain of the conjugate, and not through a primary binding of B chain at the cell surface.

• Houston LL, Ramakrishnan S, Hermodson MA
• Seasonal variations in different forms of pokeweed antiviral protein, a potent inactivator of ribosomes.
• J Biol Chem. 1983; 258: 9601-4
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• Pokeweed antiviral proteins enzymatically inactivate the 60 S subunit of eucaryotic ribosomes in cell-free preparations. Three different species of the enzyme can be isolated from spring leaves, summer leaves, and seeds of pokeweed. Sequence analyses of the NH2-terminal residues show that pokeweed antiviral protein, isolated from spring leaves and seeds, are homologous and differ in 11 of the 28 residues compared. Ricin contains a polypeptide (ricin A chain) that has functional similarities to pokeweed antiviral protein, yet the sequences of the pokeweed proteins show little similarity with ricin A chain. Ricin B chain is responsible for helping ricin A chain across the plasma membrane; since pokeweed antiviral has no counterpart to ricin B chain, it is not nearly as cytotoxic as ricin. However, when pokeweed antiviral protein was covalently coupled to ricin B chain, a cytotoxic species was formed. Pokeweed antiviral protein fails to interact noncovalently with the ricin B chain to produce a cytotoxic species equivalent in function to ricin.

• Anderson P, Vilcek J
• Synthesis and biological characterization of a covalent conjugate between interferon and ricin toxin B chain.
• Virology. 1982; 123: 457-60

• Houston LL, Dooley TP
• Binding of two molecules of 4-methylumbelliferyl galactose or 4-methylumbelliferyl N-acetylgalactosamine to the B chains of ricin and Ricinus communis agglutinin and to purified ricin B chain.
• J Biol Chem. 1982; 257: 4147-51
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• The binding of 4-methylumbelliferyl galactose and 4-methylumbelliferyl N-acetylgalactosamine to ricin, Ricinus communis agglutinin, and ricin B chain was studied by fluorescence polarization and equilibrium dialysis. The binding of [3H]galactose to ricin was also studied by equilibrium dialysis. The results were consistent with binding of 2 mol of ligand to ricin (which contains 1 A chain and 1 B chain) and ricin B chain and 4 mol of ligand to the agglutinin (which contains 2 A chains and 2 B chains). There was no evidence for interaction between the 2 sites on any of the B chains.

• Funatsu G
• [Structure and function of toxic protein ricin (author's transl)]
• Tanpakushitsu Kakusan Koso. 1982; 27: 948-61

• Houston LL
• Transport of ricin A chain after prior treatment of mouse leukemia cells with ricin B chain.
• J Biol Chem. 1982; 257: 1532-9
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• Ricin A chain acts to inhibit protein synthesis only if it penetrates the plasma membrane, and this requires the participation of the B chain. The two chains are held together in ricin by a single disulfide bond. In this paper, it is shown that the addition of A chain to mouse leukemia cells (AKR SL3) after the cells were first reacted with purified ricin B chain also results in efficient inhibition of protein synthesis. The data indicated that B chain bound to the cell surface was capable of causing the transport of A chain. The quantities of ricin and of B chain (in the presence of a saturating amount of A chain) required to inhibit protein synthesis by 50% are nearly identical, indicating that there is little difference in the toxicity to cultured cells between ricin and the A chain-B chain heterodimer formed from purified subunits. However, if the addition of A chain to B chain-treated cells was delayed sufficiently long (90 to 120 min), B chain was no longer able to cause A chain transport and the consequent inhibition of protein synthesis. Direct binding studies indicated that only a fraction of the bound 125I-B chain was internalized during this time. No proteolytic degradation of 125I-B chain could be detected after 3 h incubation with the cells.

• Bull H, Li SS, Fowler E, Lin TT
• Isolation and characterization of cyanogen bromide fragments of the A and B chains of the antitumor toxin ricin D.
• Int J Pept Protein Res. 1980; 16: 208-18
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• Both the A and B chains of ricin D consist of four CNBr fragments. These fragments have been isolated from the separated chains of S-carboxymethylated ricin D obtained from the small bean variety of Ricinus communis. The peptides have been characterized by molecular weight, amino acid composition and amino terminal sequence. A unique order of the peptides is evident for each chain. These sequence data are compared with those obtained for ricin D isolated from the large bean variety.

• Lappi DA, Kapmeyer W, Beglau JM, Kaplan NO
• The disulfide bond connecting the chains of ricin.
• Proc Natl Acad Sci U S A. 1978; 75: 1096-100
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• Studies on the disulfide bond connecting the two polypeptide chains of ricin are reported. Reduction of this bond in the native protein requires approximately 50-fold more mercaptoethanol than the reduction of the bond in the protein denatured by sodium dodecyl sulfate. An improved procedure for the formation of this disulfide bond from recombined chains is reported. A and B chains spontaneously and rapidly reassociate into a stable complex with a sedimentation velocity similar to that of native oxidized ricin before the disulfide bond reforms. The mixture of both chains also behaves on Bio-Gel P-100 like native oxidized ricin. However, the complex formed by the two chains, assayed before the disulfide bond can reform, and reduced ricin, carboxymethylated to prevent reoxidation, shows a significant decrease in toxicity to mice and a decrease in ability to inhibit protein synthesis in HeLa cells in culture.

• Wei CH, Koh C
• Crystalline ricin D, a toxic anti-tumor lectin from seeds of Ricinus communis.
• J Biol Chem. 1978; 253: 2061-6
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• A toxic lectin, ricin D, present in the seeds of Ricinus communis has been purified and crystallized in a form suitable for high resolution crystallographic structure studies. This protein is different from a previously found form of ricin (also present in the same seeds), the only ricin for which a preliminary x-ray investigation has been reported so far. Ricin D crystallizes from an aqueous solution in an orthorhombic unit cell of symmetry P2(1)2(1)2(1) and a = 79.0, b = 114.7, and c = 72.8 A. The asymmetric unit contains one molecule with an average molecular weight of 62,400. The crystal is fairly stable to x-radiation and has a water content of approximately 54% by volume. It appears to comprise two closely related species of proteins, the major species corresponding to recin D and the other presumably corresponding to a deamidation product of ricin D. The two species have nearly identical molecular size and amino acid compositions, but different charges.

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