Secondary literature sources for G2F
The following references were automatically generated.
- Hopf M, Gohring W, Ries A, Timpl R, Hohenester E
- Crystal structure and mutational analysis of a perlecan-binding fragment of nidogen-1.
- Nat Struct Biol. 2001; 8: 634-40
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Nidogen, an invariant component of basement membranes, is a multifunctional protein that interacts with most other major basement membrane proteins. Here, we report the crystal structure of the mouse nidogen-1 G2 fragment, which contains binding sites for collagen IV and perlecan. The structure is composed of an EGF-like domain and an 11-stranded beta-barrel with a central helix. The beta-barrel domain has unexpected similarity to green fluorescent protein. A large surface patch on the beta-barrel is strikingly conserved in all metazoan nidogens. Site-directed mutagenesis demonstrates that the conserved residues are involved in perlecan binding.
- Ries A, Gohring W, Fox JW, Timpl R, Sasaki T
- Recombinant domains of mouse nidogen-1 and their binding to basement membrane proteins and monoclonal antibodies.
- Eur J Biochem. 2001; 268: 5119-28
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The basement membrane protein, nidogen-1, was previously shown to consist of three globular domains, G1 to G3, and two connecting segments. Nidogen-1 is a major mediator in the formation of ternary complexes with laminins, collagen IV, perlecan and fibulins. In the present study, we have produced recombinant proteins of these predicted domains in mammalian cells and used these proteins for crystallographic and binding epitope analyses. These fragments included G1, G2, the rod domain and a slightly larger G3 structure; all were obtained in good yields and were shown to be properly folded using electron microscopy. Surface plasmon resonance assays demonstrated high affinity binding (Kd = 3-9 nM) of domain G2 for collagen IV, perlecan domain IV-1 and fibulin-2, and a more moderate Kd for fibulin-1C. Domain G3 contained high affinity binding sites for the laminin gamma1 chain and collagen IV (Kd = 1 nM) and weaker binding sites for fibulin-1C and fibulin-2. A moderate binding affinity was also observed between domain G1 and fibulin-2, while no activity could be detected for the nidogen rod domain. Together, these data indicate the potential of nidogen-1 for multiple interactions within basement membranes. A similar binding repertoire was also identified for seven rat monoclonal antibodies that bound with Kd = 2-30 nM to either G1, G1-G2, G2, the rod domain or G3. Three of the antibodies showed strongly reduced binding to G2 and G3 after complex formation with either a perlecan domain or laminin-1.
- Kang SH, Kramer JM
- Nidogen is nonessential and not required for normal type IV collagen localization in Caenorhabditis elegans.
- Mol Biol Cell. 2000; 11: 3911-23
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Nidogen (entactin) can form a ternary complex with type IV collagen and laminin and is thought to play a critical role in basement membrane assembly. We show that the Caenorhabditis elegans nidogen homologue nid-1 generates three isoforms that differ in numbers of rod domain endothelial growth factor repeats and are differentially expressed during development. NID-1 appears at the start of embryonic morphogenesis associated with muscle cells and subsequently accumulates on pharyngeal, intestinal, and gonad primordia. In larvae and adults NID-1 is detected in most basement membranes but accumulates most strongly around the nerve ring and developing gonad. NID-1 is concentrated under dense bodies, at the edges of muscle quadrants, and on the sublateral nerves that run under muscles. Two deletions in nid-1 were isolated: cg119 is a molecular null, whereas cg118 produces truncated NID-1 missing the G2 collagen IV binding domain. Neither deletion causes overt abnormal phenotypes, except for mildly reduced fecundity. Truncated cg118 NID-1 shows wild-type localization, demonstrating that the G2 domain is not necessary for nidogen assembly. Both nid-1 mutants assemble type IV collagen in a completely wild-type pattern, demonstrating that nidogen is not essential for type IV collagen assembly into basement membranes.
- Miosge N, Quondamatteo F, Klenczar C, Herken R
- Nidogen-1. Expression and ultrastructural localization during the onset of mesoderm formation in the early mouse embryo.
- J Histochem Cytochem. 2000; 48: 229-38
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Nidogen-1, a key component of basement membranes, is considered to function as a link between laminin and collagen Type IV networks and is expressed by mesenchymal cells during embryonic and fetal development. It is not clear which cells produce nidogen-1 in early developmental stages when no mesenchyme is present. We therefore localized nidogen-1 and its corresponding mRNA at the light and electron microscopic level in Day 7 mouse embryos during the onset of mesoderm formation by in situ hybridization, light microscopic immunostaining, and immunogold histochemistry. Nidogen-1 mRNA was found not only in the cells of the ectoderm-derived mesoderm but also in the cytoplasm of the endoderm and ectoderm, indicating that all three germ layers express it. Nidogen-1 was localized only in fully developed basement membranes of the ectoderm and was not seen in the developing endodermal basement membrane or in membranes disrupted during mesoderm formation. In contrast, laminin-1 and collagen Type IV were present in all basement membrane types at this developmental stage. The results indicate that, in the early embryo, nidogen-1 may be expressed by epithelial and mesenchymal cells, that both cell types contribute to embryonic basement membrane formation, and that nidogen-1 might serve to stabilize basement membranes in vivo. (J Histochem Cytochem 48:229-237, 2000)
- Miosge N, Kother F, Heinemann S, Kohfeldt E, Herken R, Timpl R
- Ultrastructural colocalization of nidogen-1 and nidogen-2 with laminin-1 in murine kidney basement membranes.
- Histochem Cell Biol. 2000; 113: 115-24
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Nidogen-1, a key component of basement membranes, is considered to function as a link between laminin and collagen type IV networks. Recently a new member of the nidogen family, nidogen-2, has been characterized. Preliminary immunohistochemical data indicated that nidogen-1 and nidogen-2 show a similar tissue distribution at the light microscopic level. We have now localized nidogen-1 and nidogen-2, as well as their corresponding mRNAs, at the light and electron microscopic levels in adult mouse kidney, by in situ hybridization and immunogold histochemistry, as well as carrying out double labeling with laminin-1. Both nidogen-1 and nidogen-2 mRNAs are found not only in mesenchymal cells of embryonic tissues, but also in all epithelial and endothelial cells in adult mouse kidney. Both nidogens are ubiquitous basement membrane components in the mouse kidney, being found in glomerular, tubular, and capillary compartments and Bowman's capsule. Furthermore, a substantial fraction of nidogen-1 and nidogen-2 colocalizes with laminin-1. The results indicate that nidogen-1 and nidogen-2 could well substitute for one another in some of their biological activities in kidney, for example, stabilizing basement membrane networks in vivo.
- Murshed M et al.
- The absence of nidogen 1 does not affect murine basement membrane formation.
- Mol Cell Biol. 2000; 20: 7007-12
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Nidogen 1 is a highly conserved protein in mammals, Drosophila melanogaster, Caenorhabditis elegans, and ascidians and is found in all basement membranes. It has been proposed that nidogen 1 connects the laminin and collagen IV networks, so stabilizing the basement membrane, and integrates other proteins, including perlecan, into the basement membrane. To define the role of nidogen 1 in basement membranes in vivo, we produced a null mutation of the NID-1 gene in embryonic stem cells and used these to derive mouse lines. Homozygous animals produce neither nidogen 1 mRNA nor protein. Surprisingly, they show no overt abnormalities and are fertile, their basement membrane structures appearing normal. Nidogen 2 staining is increased in certain basement membranes, where it is normally only found in scant amounts. This occurs by either redistribution from other extracellular matrices or unmasking of nidogen 2 epitopes, as its production does not appear to be upregulated. The results show that nidogen 1 is not required for basement membrane formation or maintenance.
- Pujuguet P, Simian M, Liaw J, Timpl R, Werb Z, Bissell MJ
- Nidogen-1 regulates laminin-1-dependent mammary-specific gene expression.
- J Cell Sci. 2000; 113: 849-58
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Nidogen-1 (entactin) acts as a bridge between the extracellular matrix molecules laminin-1 and type IV collagen, and thus participates in the assembly of basement membranes. To investigate the role of nidogen-1 in regulating cell-type-specific gene expression in mammary epithelium, we designed a culture microecosystem in which each component, including epithelial cells, mesenchymal cells, lactogenic hormones and extracellular matrix, could be controlled. We found that primary and established mesenchymal and myoepithelial cells synthesized and secreted nidogen-1, whereas expression was absent in primary and established epithelial cells. In an epithelial cell line containing mesenchymal cells, nidogen-1 was produced by the mesenchymal cells but deposited between the epithelial cells. In this mixed culture, mammary epithelial cells express (beta)-casein in the presence of lactogenic hormones. Addition of either laminin-1 plus nidogen-1, or laminin-1 alone, to mammary epithelial cells induced (beta)-casein production. We asked whether recombinant nidogen-1 alone could signal directly for (beta)-casein. Nidogen-1 did not induce (beta)-casein synthesis in epithelial cells, but it augmented the inductive capacity of laminin-1. These data suggest that nidogen-1 can cooperate with laminin-1 to regulate (beta)-casein expression. Addition of full-length nidogen-1 to the mixed cultures had no effect on (beta)-casein gene expression; however, a nidogen-1 fragment containing the laminin-1 binding domain, but lacking the type IV collagen-binding domain, had a dominant negative effect on (beta)-casein expression. These data point to a physiological role for nidogen-1 in the basement membrane-induced gene expression by epithelial cells.
- Miosge N, Heinemann S, Leissling A, Klenczar C, Herken R
- Ultrastructural triple localization of laminin-1, nidogen-1, and collagen type IV helps elucidate basement membrane structure in vivo.
- Anat Rec. 1999; 254: 382-8
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The basement membrane models which have been proposed to date are generally based on biochemical data, mainly binding studies and artificially synthesized polymers in vitro. Basically these have led to models proposing two three-dimensional laminin-1 and collagen type IV networks interconnected by nidogen-1. Whether they reflect the in vivo basement membrane structure is still not clear. We localized laminin-1, nidogen-1, and collagen type IV ultrastructurally in adult and fetal mouse kidney basement membranes with the help of immunogold-histochemistry performing double and triple localization to try to elucidate the molecular organization of basement membranes in vivo. We found laminin-1, nidogen-1, and collagen type IV distributed over the entire basement membranes in adult and fetal kidneys. This contradicts earlier studies ascribing laminin-1 to the lamina lucida and collagen type IV to the lamina densa. In addition, various basement membrane segments exhibited an organized labeling pattern for the BM components. Double-labeling revealed co-localization of laminin-1 and nidogen-1. We conclude that the combination of laminin-1 with collagen type IV as double-network basement membrane partially interconnected by nidogen-1 is found already in the early fetal kidney in vivo. However, our data cannot exclude the possibility of other variants of basement membrane assemblages. This is also indicated by a changing structure even in individual segments of one basement membrane type which renders a more flexible basement membrane architecture plausible.
- Hopf M, Gohring W, Kohfeldt E, Yamada Y, Timpl R
- Recombinant domain IV of perlecan binds to nidogens, laminin-nidogen complex, fibronectin, fibulin-2 and heparin.
- Eur J Biochem. 1999; 259: 917-25
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Domain IV of mouse perlecan, which consists of 14 immunoglobulin superfamily (IG) modules, was prepared from recombinant human cell culture medium in the form of two fragments, IV-1 (IG2-9, 100 kDa) and IV-2 (IG10-15, 66 kDa). Both fragments bound to a heparin column, being eluted at ionic strengths either below (IV-2) or above (IV-1) physiological level, and could thus be readily purified. Electron microscopy demonstrated an elongated shape (20-25 nm), and folding into a native structure was indicated by immunological assay and CD spectroscopy. Solid-phase and surface plasmon resonance assays demonstrated strong binding of fragment IV-1 to fibronectin, nidogen-1, nidogen-2 and the laminin-1-nidogen-1 complex, with Kd values in the range 4-17 nM. The latter binding apparently occurs through nidogen-1, as shown by the formation of ternary complexes. Only moderate binding was observed for fibulin-2 and collagen IV and none for fibulin-1 and BM-40. Fragment IV-2 showed a more restricted pattern of binding, with only weaker binding to fibronectin and fibulin-2. None of these activities could be demonstrated for recombinant fragments corresponding to the N-terminal perlecan domains I to III. This indicates a special role for domain IV in the integration of perlecan into basement membranes and other extracellular structures via protein-protein interactions.
- Kohfeldt E, Sasaki T, Gohring W, Timpl R
- Nidogen-2: a new basement membrane protein with diverse binding properties.
- J Mol Biol. 1998; 282: 99-109
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Human nidogen-2 was cloned and sequenced (1375 residues) and found to share 46% sequence identity and a similar domain arrangement with the previously characterized basement membrane protein nidogen-1. Recombinant nidogen-2 was purified as a 200 kDa protein from transfected mammalian cell medium, showed a high level of N and O-glycosylation, and could be clearly distinguished from nidogen-1 (150 kDa) by specific antibodies. Electron microscopy demonstrated that the two isoforms have a similar shape, consisting of three globular domains connected by two threads, but differ somewhat in length. Northern blots and immunological assays demonstrated co-expression of the nidogens in various tissues and cultured cells. Immunofluoresence revealed colocalization in vessel walls and other basement membrane zones but some differences in heart and skeletal muscle. Nidogen-2 interacted with collagens I and IV, and perlecan at a comparable level to nidogen-1 but failed to bind to fibulins. Nidogen-2 bound to laminin-1, but only moderately to the epitope on the laminin gamma1 chain, which promotes high-affinity binding of nidogen-1. Both nidogens were cell-adhesive for a restricted number of cell lines, with nidogen-2 having a higher activity. Together, these data suggest that nidogen-2 can compensate for some but not all functional activities ascribed to nidogen-1.
- Mayer U, Kohfeldt E, Timpl R
- Structural and genetic analysis of laminin-nidogen interaction.
- Ann N Y Acad Sci. 1998; 857: 130-42
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High-affinity binding of nidogen to laminins involves a single binding site on the laminin gamma 1 chain and is thus a property shared by almost all laminin isoforms. This binding mediates the connection of laminins to the collagen IV network, perlecan and other proteins and is considered to be an essential step in the stabilization of basement membranes. Nidogen binding has been located to a single LE module (gamma 1III4) by recombinant analysis. Site-directed mutagenesis and X-ray crystallography demonstrated that three amino acids (Asp, Asn, Val) in loop a of gamma 1III4 are crucial for binding and are supported by some other residues. A restricted complementary binding region seems to exist on nidogen domain G3. A mutant laminin gamma 1 chain gene that lacks the region encoding gamma 1III4 was prepared in mouse embryonic stem (ES) cells by homologous recombination. ES cells homozygous for this defect were shown to assemble laminin-1 into a cruciform structure and to secrete it properly. Yet the mutant laminin failed to associate with nidogen. The mutant ES cells were still able to form embryoid bodies with a similar differentiated histology as the wild type. Immunofluorescence, however, indicated an impaired deposition of nidogen into basement membrane-like structures.
- Brown JC, Sasaki T, Gohring W, Yamada Y, Timpl R
- The C-terminal domain V of perlecan promotes beta1 integrin-mediated cell adhesion, binds heparin, nidogen and fibulin-2 and can be modified by glycosaminoglycans.
- Eur J Biochem. 1997; 250: 39-46
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Domain V of the major basement-membrane proteoglycan perlecan, a domain which consists of three laminin type G (LG) and four epidermal-growth-factor-like (EG) modules, was obtained in recombinant form by transfecting embryonic kidney cells with an episomal expression vector. A major 90-kDa fragment V was obtained together with fragments Va (74 kDa) and Vb (26 kDa) which were generated by endogenous proteolysis in front of the most C-terminal LG module. All three fragments bound to a heparin affinity column and could be displaced at a moderate (0.2 M) NaCl concentration. Rotary-shadowing electron microscopy demonstrated a three-globule structure for fragment V. Fragment V also showed a strong immunological cross-reaction with tissue-derived perlecan, indicating that it was folded into a native structure. A further, larger fragment, Vc, was apparently substituted with heparan sulphate and/or chondroitin sulphate chains and failed to bind to heparin. Fragment V but not fragment Vc promoted a distinct adhesion of several cell lines and this could be blocked by antibodies against the integrin beta1 chain. This domain may, however, represent only one of several cell-adhesive sites of perlecan. The recombinant perlecan fragment V bound in surface plasmon resonance assays to fibulin-2, laminin-nidogen complex, nidogen and two nidogen fragments. This indicated two different nidogen-binding epitopes on perlecan domain V with about a 10-fold difference in their affinities (Kd = 0.05-0.2 microM and about 2 microM). Perlecan domain V therefore seems to participate in the supramolecular assembly and cell connections of basement membranes.
- Sasaki T, Gohring W, Pan TC, Chu ML, Timpl R
- Binding of mouse and human fibulin-2 to extracellular matrix ligands.
- J Mol Biol. 1995; 254: 892-9
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Recombinant mouse and human fibulin-2 were obtained as disulfide-bonded trimers from transfected kidney cell clones and used in solid phase, biosensor and radioligand binding assays. Strong binding occurred with fibronectin and required calcium. A distinct interaction was also observed with nidogen but this was only partially blocked by EDTA. Distinctly weaker affinities were detected for collagen IV, perlecan and the N-terminal globule of collagen VI alpha 3 chain, while no or only little binding activity could be detected for several other collagen types, laminin-1, BM-40, fibulin-1 and vitronectin. This weaker binding reactions were also dependent on calcium. Surface plasmon resonance assays demonstrated for fibulin-2 binding to nidogen and fibronectin high equilibrium dissociation constants (0.5 to 1 microM) due to a rapid initial dissociation of the complexes. This is apparently followed by a slower stabilizing reaction. The fibulin-2 binding site of nidogen could be localized to its C-terminal globular domain G3, which also possesses a high-affinity binding site for laminin-1. Several tests demonstrated competition between the two ligands, probably due to steric hindrance. Binding of nidogen to immobilized fibulin-2 allowed the formation of ternary complexes with collagen IV, perlecan and fibulin-1, which, as shown previously, bind independently of the G3 domain. This indicated multifunctional binding properties for fibulin-2 and several alternative routes for its integration into basement membranes and other extracellular structures.
- Mayer U, Zimmermann K, Mann K, Reinhardt D, Timpl R, Nischt R
- Binding properties and protease stability of recombinant human nidogen.
- Eur J Biochem. 1995; 227: 681-6
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Recombinant human nidogen was obtained from transfected kidney cell clones as a 150-kDa protein with a three-globule structure. It was modified by sulfation and O-glycosylation and a lower level of N-glycosylation than mouse nidogen. Recombinant nidogens of both species were, however, indistinguishable in their affinities for laminin-1 and a recombinant laminin gamma 1 chain fragment and showed a similar binding to collagen IV and the heparan sulfate proteoglycan perlecan. The two nidogens were also equivalent in the promotion of ternary complex formation between these ligands, indicating that this function has been conserved during mammalian evolution. Fewer zinc-binding sites could be identified in human nidogen and correlated with a lower capacity of zinc to prevent binding to laminin and collagen IV. Most remarkable was the greater sensitivity of human nidogen to endogenous proteolysis in cell culture, yielding fragments of 90-145 kDa. Studies with several exogenous proteases, including thrombin and leucocyte elastase, showed lack of stability of the N-terminal globular domain G1 in contrast to what was found for mouse nidogen. Since such degradation could be important for basement membrane remodelling, this difference between human and mouse may be biologically significant.
- Dziadek M
- Role of laminin-nidogen complexes in basement membrane formation during embryonic development.
- Experientia. 1995; 51: 901-13
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Laminin and nidogen (entactin) are major glycoprotein components of basement membranes. At least seven different isoforms of laminin have been identified. Laminin and nidogen form high affinity complexes in basement membranes by specific binding between the laminin gamma 1 chain and the G3 globule of nidogen. Additional interactions between nidogen and collagen IV, perlecan and other basement membrane components result in the formation of ternary complexes between these matrix components. Nidogen is highly susceptible to proteolytic cleavage, and binding to laminin protects nidogen from degradation. Nidogen is considered to have a crucial role as a link protein in the assembly of basement membranes. Basement membrane components are synthesized at high levels during tissue growth and development, and sites of morphogenesis correlate with localized remodelling of basement membranes. The formation of distinct basement membrane matrices in the developing embryo is influenced by the laminin isoforms produced and by whether laminin and nidogen are co-expressed and secreted as a complex or are produced by cooperation between two cell layers. The potential roles of laminin-nidogen complexes, cell-matrix interactions, and other intermolecular interactions within the matrix in basement membrane assembly and stability are discussed in this review.
- Aumailley M et al.
- Nidogen mediates the formation of ternary complexes of basement membrane components.
- Kidney Int. 1993; 43: 7-12
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Using a recombinant nidogen we have probed the calcium binding potential of various nidogen domains, examined the binding of nidogen to various basement membrane proteins and assessed the ability of nidogen to mediate the formation of ternary complexes between laminin and heparan sulfate proteoglycan and collagen IV and laminin. The results of these experiments indicate that the Ca+2 binding is on the rod-like domain with additional binding observed on the N-terminal G1 domain. With regard to the role of nidogen in mediating complex formation among basement membrane components it was demonstrated that nidogen effectively promotes the formation of a ternary complex between laminin and collagen IV, with both of these components interacting independently with nidogen. Similarly, nidogen mediates a ternary complex formation between laminin and proteoglycan. Interestingly, the interaction between proteoglycan and nidogen is through the protein core of the proteoglycan. We have localized the major interaction sites on nidogen with the proteoglycan core and collagen IV to a region on the globular G2 domain while the C-terminal globe G3 binds to laminin. Ca+2 binding does not appear to be important in either of the binary or ternary complex formations. The data reported allow us to hypothesize that, via the multiple interactions of nidogen with other basement membrane components, nidogen plays a crucial structural role in basement membrane organization and stabilization.
- Stephens RW et al.
- Urokinase binding to laminin-nidogen. Structural requirements and interactions with heparin.
- Eur J Biochem. 1992; 207: 937-42
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Recently we have shown that heparin and related sulfated polyanions are low-affinity ligands of the kringle domain in the amino-terminal region (ATF) of human urokinase (u-PA), and proposed that this may facilitate loading of u-PA onto its receptor at the focal contacts between adherent cells and their matrix. We have now tested other components of the cell matrix (fibronectin, vitronectin, thrombospondin and laminin-nidogen) for u-PA binding, and found that laminin-nidogen is also a ligand of the u-PA ATF. Direct binding assays and competition binding assays with defined fragments of laminin-nidogen showed that there are u-PA binding sites in fragment E4 of laminin as well as in nidogen. The long-arm terminal domain of laminin (fragment E3), which contains a heparin-binding site, competed for binding of u-PA to immobilised heparin. However nidogen, which does not bind to heparin, also inhibited binding of u-PA to heparin, and this effect was also observed with recombinant nidogen and with a fragment of nidogen lacking the carboxy-terminal domain. Direct binding assays confirmed that u-PA binds to nidogen through a site in the u-PA ATF. We conclude that u-PA binds to laminin-nidogen by interactions involving the ATF region of u-PA, the E4 domain of laminin and the rod or amino-terminal regions of nidogen. Since nidogen is suggested to be an important bridging molecule in the maintenance of the supramolecular organization in basement membranes, the presence of a binding site for u-PA in nidogen indicates a role for plasminogen activation in basement membrane remodelling.
- Fox JW et al.
- Recombinant nidogen consists of three globular domains and mediates binding of laminin to collagen type IV.
- EMBO J. 1991; 10: 3137-46
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Recombinant mouse nidogen and two fragments were produced in mammalian cells and purified from culture medium without resorting to denaturing conditions. The truncated products were fragments Nd-I (positions 1-905) comprising the N-terminal globule and rod-like domain and Nd-II corresponding mainly to the C-terminal globule (position 906-1217). Recombinant nidogen was indistinguishable from authentic nidogen obtained by guanidine dissociation from tumor tissue with respect to size, N-terminal sequence, CD spectra and immunochemical properties. They differed in protease stability and shape indicating that the N-terminal domain of the more native, recombinant protein consists of two globules connected by a flexible segment. This established a new model for the shape of nidogen consisting of three globes of variable mass (31-56 kDa) connected by either a rod-like or a thin segment. Recombinant nidogen formed stable complexes (Kd less than or equal to 1 nM) with laminin and collagen IV in binding assays with soluble and immobilized ligands and as shown by electron microscopy. Inhibition assays demonstrated different binding sites on nidogen for both ligands with different specificities. This was confirmed in studies with fragment Nd-I binding to collagen IV and fragment Nd-II binding to laminin fragment P1. In addition, recombinant nidogen but not Nd-I was able to bridge between laminin or P1 and collagen IV. Formation of such ternary complexes implicates a similar role for nidogen in the supramolecular organization of basement membranes.
- Aumailley M, Wiedemann H, Mann K, Timpl R
- Binding of nidogen and the laminin-nidogen complex to basement membrane collagen type IV.
- Eur J Biochem. 1989; 184: 241-8
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The laminin-nidogen complex and purified nidogen both bind collagen IV but not other collagens, as shown by solid-state ligand-binding and inhibition assays. Laminin purified from the dissociated complex and a variety of laminin proteolytic fragments failed to bind collagen IV. Complexes formed in solution between nidogen or laminin-nidogen and collagen IV were visualized by rotary shadowing which identified one major binding site about 80 nm away from the C-terminus of the collagen triple helix. A second, weaker binding site may exist closer to its N-terminus. Binding sites of nidogen were assigned to its C-terminal globular domain which also possesses laminin-binding structures. A more diverse collagen-IV-binding pattern was observed for the laminin nidogen complex, whereby interactions may involve both nidogen and short-arm structures of laminin.
- Dziadek M, Paulsson M, Timpl R
- Identification and interaction repertoire of large forms of the basement membrane protein nidogen.
- EMBO J. 1985; 4: 2513-8
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Nidogen was purified in its genuine form with a mol. wt. of 150 000 (Nd-150) and as fragments with mol. wts. of 100 000 (Nd-100) and 80 000 (Nd-80) from a mouse tumor basement membrane by preventing activity of endogenous proteases with 6 M guanidine and protease inhibitors. The larger forms of nidogen were also identified in stable complexes with laminin in neutral salt extracts of the tumor and in cell culture medium. Purified Nd-150 and Nd-100, but not Nd-80, were shown to interact with laminin in various binding assays, albeit with lower potential than estimated for the genuine complexes formed in situ. Binding of Nd-150 and Nd-100 to fibronectin and to the globular domain of collagen IV was also observed, but not to heparan sulfate proteoglycan.
- Timpl R, Fujiwara S, Dziadek M, Aumailley M, Weber S, Engel J
- Laminin, proteoglycan, nidogen and collagen IV: structural models and molecular interactions.
- Ciba Found Symp. 1984; 108: 25-43
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Major components of basement membranes, including collagen IV, laminin, heparan sulphate proteoglycan and nidogen, were isolated from the matrix of the EHS sarcoma. The purified components were analysed for their domain structure and for the participation of distinct domains in molecular interactions and cell binding. Collagen IV consists of four domains which have triple helical or non-collagenous structures. Self-assembly of the protein into a network-like organization occurs by specific interactions between N-terminal triple helical segments and between the C-terminal globules. Cell binding requires a central triple helical segment. Laminin has the shape of an asymmetrical cross; different globular domains within this structure mediate binding to proteoglycan and to cells. The proteoglycan consists of four heparan sulphate chains attached to a small protein core. These chains have the potential to bind laminin, fibronectin and collagen IV. Nidogen was isolated in several molecular forms which showed either self-aggregation or binding to laminin.