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1.
NC1 subunits were purified from gel filtration pools of acid-extracted, collagenase-digested human glomerular basement membranes (hGBM). This methodology, which enriches 28-kDa monomers (M28) in the total digest, allowed purification of these monomers and 24-kDa (M24) and 26-kDa (M26) monomers free from dimers. Reactivity of these subunits with Goodpasture autoantibodies using immunoblotting of sodium dodecyl sulfate-polyacrylamide gel electrophoresis and two-dimensional nonequilibrium pH gradient electrophoresis gels showed strong reactivity with the purified M28 subunits. Inhibition enzyme-linked immunosorbent assay, used to quantitate the reactivity of the purified NC1 subunits, indicated that M28 had a greater than 10-fold increase in ability to inhibit binding to NC1 than NC1 itself. Comparison of hGBM NC1 components were made with those obtained from collagenase digests of salt and acid-extracted bovine and sheep GBM and Englebreth-Holm-Swarm tumor similarly purified by gel filtration and reverse-phase high performance liquid chromatography. Two-dimensional gel analysis of these NC1 isolates revealed absence of the very cationic M28 monomers. Reactivity with antibodies eluted from diseased kidneys of sheep immunized with hGBM (Steblay nephritis) was compared with Goodpasture autoantibody reactivity by immunoblotting two-dimensional gels of hGBM NC1. We conclude that a very cationic M28 monomer (M28 ) found only in hGBM is the probable target in Goodpasture syndrome, that the epitope is present on most NC1 components from extracted and unextracted hGBM, and is exposed by urea denaturation which is enhanced by acid treatment. A weakly cationic M28 monomer (M28+) is present in GBM from other species and is the probable target in Steblay nephritis. Differential recognition of the two M28 components by these antibodies points to different genetic origins or possibly distinct post-translational modifications for these components. This is supported by their presence or absence in different species and tissues, as well as biochemical differences from the M24/26 monomers which presumably are derived from alpha 1(IV) and alpha 2(IV) collagen chains.  相似文献   

2.
Type IV collagen, which is present in all metazoan, exists as a family of six homologous alpha(IV) chains, alpha1-alpha6, in mammals. The six chains assemble into three different triple helical protomers and self-associate as three distinct networks. The network underlies all epithelia as a component of basement membranes, which play important roles in cell adhesion, growth, differentiation, tissue repair and molecular ultrafiltration. The specificity of both protomer and network assembly is governed by amino acid sequences of the C-terminal noncollagenous (NC1) domain of each chain. In this study, the structural basis for protomer and network assembly was investigated by determining the crystal structure of the ubiquitous [(alpha1)(2).alpha2](2) NC1 hexamer of bovine lens capsule basement membrane at 2.0 A resolution. The NC1 monomer folds into a novel tertiary structure. The (alpha1)(2).alpha2 trimer is organized through the unique three-dimensional domain swapping interactions. The differences in the primary sequences of the hypervariable region manifest in different secondary structures, which determine the chain specificity at the monomer-monomer interfaces. The trimer-trimer interface is stabilized by the extensive hydrophobic and hydrophilic interactions without a need for disulfide cross-linking.  相似文献   

3.
Basement membranes are defining features of the cellular microenvironment; however, little is known regarding their assembly outside cells. We report that extracellular Cl ions signal the assembly of collagen IV networks outside cells by triggering a conformational switch within collagen IV noncollagenous 1 (NC1) domains. Depletion of Cl in cell culture perturbed collagen IV networks, disrupted matrix architecture, and repositioned basement membrane proteins. Phylogenetic evidence indicates this conformational switch is a fundamental mechanism of collagen IV network assembly throughout Metazoa. Using recombinant triple helical protomers, we prove that NC1 domains direct both protomer and network assembly and show in Drosophila that NC1 architecture is critical for incorporation into basement membranes. These discoveries provide an atomic-level understanding of the dynamic interactions between extracellular Cl and collagen IV assembly outside cells, a critical step in the assembly and organization of basement membranes that enable tissue architecture and function. Moreover, this provides a mechanistic framework for understanding the molecular pathobiology of NC1 domains.  相似文献   

4.
Type IV collagen, which has long been assumed to contain two alpha 1(IV) and one alpha 2(IV) chains, also contains alpha 3(IV), alpha 4(IV), and alpha 5(IV) chains. Stoichiometry of collagenous alpha(IV) chains differs among tissues, suggesting the existence of subclasses of type IV collagen, each with a unique chain composition. This study seeks to define, by characterization of subunit compositions of NC1 domain populations, the structural organization of type IV collagen from bovine glomerular basement membrane. NC1 hexamers from type IV collagen were separated on two affinity chromatography columns, one containing monoclonal antibodies to the alpha 3 chain, and another, to the alpha 1 chain. SDS-polyacrylamide gel electrophoresis, immunoblotting, reversed phase high-performance liquid chromatography, and enzyme-linked immunosorbent assay identified three NC1 hexamer populations: 1) a hexamer composed of (alpha 1)2 and (alpha 2)2 homodimers; 2) a hexamer composed of (alpha 3)2 and (alpha 4)2 homodimers; 3) a hexamer containing all four alpha chains connected in heterodimers, alpha 1-alpha 3 and alpha 2-alpha 4. Results suggest that there are two distinct type IV collagen molecules, one composed of alpha 1(IV) and alpha 2(IV) chains and another composed of alpha 3(IV) and alpha 4(IV) chains. Furthermore, polymerization occurs between molecules with the same chain composition and between molecules with different chain composition. Moreover, crosslinking between different alpha chains is restricted, thus limiting the number of possible macromolecular structures.  相似文献   

5.
The noncollagenous domain of collagen from three different basement membranes of bovine origin (glomerular, lens capsule, and placental) was excised with bacterial collagenase, purified under nondenaturing conditions, and characterized. In each case the domain existed as a hexamer comprised of four distinct subunits (alpha 1 (IV) NC1, alpha 2 (IV) NC1, M2*, and M3). Each subunit exists in both monomeric and dimeric (disulfide-cross-linked) forms. Certain dimers also exist which contain nonreducible cross-links. The hexamers from the three membranes differ with respect to stoichiometry of subunits and subunit isoforms and to the degree of cross-linking of monomers into dimers. The minor subunits, M2* and M3, vary in quantity over a 20-fold range relative to the major ones among the three hexamers. The results indicate that: 1) at least two populations of triple-helical collagen molecules, differing in chain composition, exist in each membrane and that their relative proportions are tissue-specific; and 2) the chemical nature of the noncollagenous domain of these populations is tissue-specific with regard to subunit isoforms and relative proportion of reducible and nonreducible cross-links in dimers. A novel structural feature of the noncollagenous domain of basement membrane collagen was also evinced from these studies. Namely, that each of the four monomeric subunits exists in charge isoforms.  相似文献   

6.
Glomerulonephritis is believed to result commonly from Ab-mediated glomerular injury. However, Ab-associated mechanisms alone cannot explain many cases of human glomerulonephritis. We developed a rat model of human anti-glomerular basement membrane (GBM) disease to investigate T cell and Ab response, and their associations with the disease. A single immunization of highly denatured recombinant mouse collagen IV alpha3 chain noncollagen domain 1 (rCol4alpha3NC1) induced severe glomerulonephritis in 100% of Wistar Kyoto rats, 33% of which died of this disease around day 35 postimmunization. The renal pathology demonstrated widespread glomerular damage and a mononuclear cell infiltration within the interstitial tissue. T cells from immunized rats responded not only to rCol4alpha3NC1, but also to isolated rat GBM. Sera Abs to rCol4alpha3NC1 were detectable in 100% of the rats, but only 20% of the rats had low levels of Ab to isolated rat GBM by Western blot, and none by immunofluorescence. Furthermore, IgG/M binding to or C3 deposition on endogenous GBM in immunized rats were not detected in most of the experimental rats, and showed no statistical correlation with disease severity. Additionally, no electronic dense deposition in the glomeruli was detected in all rats. Those data revealed a disassociation between the disease and anti-GBM Ab. T cell-mediated mechanisms, which are currently under our investigation, may be responsible for the glomerular disease.  相似文献   

7.
Effective repair of a vascular injury depends on establishment of a stable fibrin patch at the injury site. Data presented in this study demonstrate that structural modification of fibrin occurs as a result of fibrin interaction with naturally occurring components of the vascular basement membrane and subendothelial structures. Of the basement membrane components, type IV collagen produces the greatest structural modification, generating thick fibrin fibers; a 3-fold increase in the fiber mass/length ratio occurs when type IV collagen is increased from 0 to 100 ng/ml. Laminin and dermatan sulfate decrease the fibrin fiber mass/length ratio resulting in thinner fibers. However, the overall effect of the basement membrane on fibrin is to increase the fibrin fiber diameter. Electrophoretic light scattering and the binding of type IV collagen by fibrinogen-Sepharose further establish the interaction between type IV collagen and fibrinogen. Incorporation of laminin with type IV collagen onto coated surfaces decreases the ability of type IV collagen to bind fibrinogen. These studies emphasize that the final fibrin structure is influenced by the milieu in which the clot is assembled.  相似文献   

8.
《The Journal of cell biology》1986,103(6):2467-2473
Type IV collagen incubated at elevated temperatures in physiologic buffers self-associates (a) via its carboxy-terminal (NC1) domain, (b) via its amino-terminal (7S) domain, and (c) laterally; and it forms a network. When examined with the technique of rotary shadowing, isolated domain NC1 was found to bind along the length of type IV collagen to four distinct sites located at intervals of approximately 100 nm each. The same 100-nm distance was observed in domain NC1 of intact type IV collagen bound along the length of the collagen molecules during initial steps of network formation and in complete networks. The presence of anti-NC1 Fab fragments in type IV collagen solutions inhibited lateral association and network formation in rotary shadow images. During the process of self-association type IV collagen develops turbidity; addition of isolated domain NC1 inhibited the development of turbidity in a concentration-dependent manner. These findings indicate that domain NC1 of type IV collagen plays an important role in the process of self-association and suggest that alterations in the structure of NC1 may be partially responsible for impaired functions of basement membranes in certain pathological conditions.  相似文献   

9.
The formation of collagen IV dimers in the extracellular space requires the association of two C-terminal globular domains giving rise to a large hexameric structure NC1 (Mr = 170,000). NC1 hexamer was purified from collagenase digests of a mouse tumor and several human tissues. It was shown by electrophoresis to consist of two kinds of cross-linked, dimeric segments, Da and Db (Mr about 50,000), and monomeric segments in a molar ratio of about 3:1. In the native hexamers free SH groups were detectable by N-[14C]ethylmaleimide and other sulfhydryl reagents. They account for 4-11% of the total number of cysteine residues with some variations between preparations from different sources and in the distribution between monomers and dimers. Reduction with 10 mM dithioerythritol under non-denaturing condition completely converted dimers into monomers and allowed the alkylation of all twelve cysteine residues present in each monomeric NC1 segment. A monomeric intermediate with four to six free SH groups and a higher electrophoretic mobility than the final product was observed. Generation of this intermediate from dimers Da and Db follows apparently different routes proceeding either directly or through a dimeric intermediate respectively. The time course of conversion is best described by a mechanism consisting of two (Db) or three (Da) consecutive steps with pseudo-first-order rate constants ranging from 0.14 ms-1 to 0.5 ms-1. Glutathione-catalyzed reoxidation of completely reduced NC1 in the presence of 2 M urea results in a product indistinguishable from native material by ultracentrifugation and electrophoresis pattern. The data suggest that in situ formation of NC1 structures is catalyzed by a small fraction (5-10%) of intrinsic SH groups leading to the formation and stabilization of dimers by rearrangement of disulfide bonds.  相似文献   

10.
The noncollagenous (NC1) domain hexamer of glomerular basement membrane (GBM) collagen is composed of a multiplicity of monomeric and dimeric subunits, and specific subunits are the targets for anti-GBM autoantibodies of patients with Goodpasture (GP) syndrome. The identity of GBM monomers has been established and the alpha 3(IV)NC1 monomer identified as the one that binds GP antibodies (Gunwar, S., Saus, J., Noelken, M. E., and Hudson, B. G. (1990) J. Biol. Chem. 265, 5466-5469). In the present study, the chain origin of 25 dimeric components and the identity of those that bound the anti-GBM antibodies from two GP patients were determined. This was accomplished by NH2-terminal sequence analysis and immunoblotting analysis of dimeric components that were resolved by two-dimensional electrophoresis in combination with high pressure liquid chromatography. The results revealed that (a) the components are mainly homodimers of the NC1 domains of alpha 1, alpha 2, alpha 3, alpha 4, and probably alpha 5 chains of collagen IV, reflecting a specificity of promoter-promoter association and (b) each homodimer had several size and charge isoforms. The GP antibodies bound exclusively to both alpha 3(IV)NC1 monomers and dimers and not to other basement membrane constituents. These findings provided new insights about the structure of GBM collagen and together with our previous findings firmly established the alpha 3(IV) chain as the target for the anti-GBM antibodies that mediate glomerulonephritis and pulmonary hemorrhage in patients with Goodpasture syndrome.  相似文献   

11.
12.
Type IV collagen alpha1-alpha6 chains have important roles in the assembly of basement membranes and are implicated in the pathogenesis of Goodpasture syndrome, an autoimmune disorder, and Alport syndrome, a hereditary renal disease. We report comparative sequence analyses and structural predictions of the noncollagenous C-terminal globular NC1 domain (28 sequences). The inferred tree verified that type IV collagen sequences fall into two groups, alpha1-like and alpha2-like, and suggested that vertebrate alpha3/alpha4 sequences evolved before alpha1/alpha2 and alpha5/alpha6. About one fifth of NC1 residues were identified to confer either the alpha1 or alpha2 group-specificity. These residues accumulate opposite charge in subdomain B of alpha1 (positive) and alpha2 (negative) sequences and may play a role in the stoichiometric chain selection upon type IV collagen assembly. Neural network secondary structure prediction on multiple aligned sequences revealed a subdomain core structure consisting of six hydrophobic beta-strands and one short alpha-helix with a significant hydrophobic moment. The existence of opposite charges in the alpha-helices may carry implications for intersubdomain interactions. The results provide a rationale for defining the epitope that binds Goodpasture autoantibodies and a framework for understanding how certain NC1 mutations may lead to Alport syndrome. A search algorithm, based entirely on amino acid properties, yielded a possible similarity of NC1 to tissue inhibitor of metalloproteinases (TIMP) and prompted an investigation of a possible functional relationship. The results indicate that NC1 preparations decrease the activity of matrix metalloproteinases 2 and 3 (MMP-2, MMP-3) toward a peptide substrate, though not to [14C]-gelatin. We suggest that an ancestral NC1 may have been incorporated into type IV collagen as an evolutionarily mobile domain carrying proteinase inhibitor function.  相似文献   

13.
We have shown that basement membrane (BM) collagen (type IV), and specifically the peptide CNYYSNSYSFWLASLNPER (a.a. 185-203), from the non-collagenous domain of the alpha3 chain inhibits PMN. We examined the role of this peptide on PMN damage to BM in a vessel wall model. The presence of the endothelial monolayer as well as treatment of PMN with the alpha3(IV) 185-203 peptide reduced damage to BM by non-activated but not by activated PMN. The damage inhibition is unique to the alpha3(IV) peptide and not exhibited by comparable alpha1(IV) and alpha2(IV) chain peptides. A shorter peptide alpha3(IV) 185-191, containing the -SNS- triplet, reduced damage, whereas the one lacking the triplet, residues 194-203, was not effective. The CD47-alphavbeta3 integrin complex is the receptor for the alpha3(IV) peptide. Incubation of PMN with CD47 reactive mAb followed by the alpha3(IV) peptide abolished its protective effect on BM damage.  相似文献   

14.
N A Kefalides 《Biochemistry》1968,7(9):3103-3112
  相似文献   

15.
A monoclonal antibody, IV-IA8, generated against chicken type IV collagen has been characterized and shown to bind specifically to a conformational-dependent site within a major, triple helical domain of the type IV molecule. Immunohistochemical localization of the antigenic determinant with IV-IA8 revealed that the basement membranes of a variety of chick tissues were stained but that the basement membrane of the corneal epithelium showed little, if any, staining. Thus, basement membranes may differ in their content of type IV collagen, or in the way in which it is assembled. The specificity of the antibody was determined by inhibition ELISA using purified collagen types I-V and three purified molecular domains of chick type IV collagen ([F1]2F2, F3, and 7S) as inhibitors. Only unfractionated type IV collagen and the (F1)2F2 domain bound the antibody. Antibody binding was destroyed by thermal denaturation of the collagen, the loss occurring at a temperature similar to that at which previous optical rotatory dispersion studies had shown melting of the triple helical structure of (F1)2F2. Such domain-specific monoclonal antibodies should prove to be useful probes in studies involving immunological dissection of the type IV collagen molecule, its assembly within basement membranes, and changes in its distribution during normal development and in disease.  相似文献   

16.
17.
Analysis of the Sephacryl S-200 fractionated type IV collagen domains from bovine and human glomerular basement membranes (GBM) and calf anterior lens capsule (ALC) indicated that Asn-linked oligosaccharides are primarily or exclusively localized in the 7 S region, whereas the hydroxylysine-linked Glc alpha 1----2Gal disaccharides (Glc-Gal-Hyl) are present in all the major segments of the molecule (7 S, NC1, and helical domain); no Ser/Thr-linked saccharide were detected. The Asn-linked carbohydrate units observed in the 7 S domain (Mr approximately 300,000) occurred in a number equal to the 12 polypeptide chains constituting this cross-linked region, and this was consistent with lectin blots of the reduced electrophoretically resolved 7 S components. Fractionation of the N-glycanase and endo-beta-N-acetylglucosaminidase-released oligosaccharides by concanavalin A affinity and high performance liquid chromatography indicated that the Asn-linked carbohydrate occurred predominantly in the form of complex tri- and biantennary units, although submolar amounts of polymannose variants (Man5-7GlcNAc2) were also present in calf ALC and bovine GBM. Structural studies of the complex N-linked oligosaccharides employing hydrazine/nitrous acid fragmentation and glycosidase digestions indicated a pattern in which there was complete fucosylation of the innermost GlcNAc residue of the Man3GlcNAc2 core but only sparse substitution with capping groups of the nonrepeating N-acetyllactosamine branches. Whether tri- or biantennary, the oligosaccharides from bovine GBM contained only one capping residue, in the form of either NeuAc or alpha-D-Gal, whereas those from ALC had only a single alpha-D-Gal and no NeuAc; human GBM oligosaccharides were devoid of both NeuAc and alpha-D-Gal. The absence of terminal alpha-D-Gal in the human 7 S domain was reflected in its lack of reactivity with Bandeiraea simplicifolia I and from its failure to yield Gal alpha 1----3Gal beta 1----4 [3H]anhydromannitol after hydrazine/nitrous acid/NaB3H4 treatment. Application of the latter procedure to the collagen domains yielded, in addition to fragments from the N-linked oligosaccharides, a disaccharide (Glc alpha 1----2[3H]galactitol) derived from the Glc-Gal-Hyl units. The localization of Asn-linked carbohydrate units in the evolutionarily conserved 7S domain of type IV collagens suggests that these oligosaccharides may play a role in the assembly of the collagen network of basement membranes.  相似文献   

18.
Collagen IV contains an amino-terminal tetramerization domain (7 S) that is involved in aggregation and cross-linking as part of the process of self-assembly of the collagen IV matrix of basement membranes. We determined the structure and location of the Asn-linked oligosaccharides of the 7 S tetramer. Two glycopeptides, GP-1 and GP-2, were isolated from tryptic digests of the 7 S tetramer and were characterized. GP-1 and GP-2 are derived from the alpha 1(IV) chain and the alpha 2(IV) chain, respectively. Each glycopeptide contained one sequence, -Asn-Xaa-Thr-, which was shown to be N-glycosylated at Asn, corresponding to position 126 of the alpha 1 chains and 138 of the alpha 2 chain. 1H NMR spectroscopic analysis of the oligosaccharide is a biantennary N-acetyllactosamine type of N-linked oligosaccharide with a broad heterogeneity in the presence of the sugar residues at their nonreducing termini as indicated. [formula: see text] The location of the Asn-linked oligosaccharide units and Hyl-linked disaccharide units and their orientation with respect to the surface of the triple helix were calculated using two models. We conclude that both units are important determinants in the assembly of the 7 S tetramer.  相似文献   

19.
Type IV procollagen-like constituents of glomerular basement membrane were solubilized by reduction and alkylation of disulfide bonds under denaturing conditions. Four polypeptides were observed with apparent Mr = 185,000, 175,000, 164,000, and 152,000. The two largest chains correspond to pro-alpha 1(IV) and pro-alpha 2(IV), described in model systems which secrete a basement membrane-like matrix, while the smaller chains appear to be shortened forms of these polypeptides. Fractionation of the four polypeptides into two groups was achieved by ion exchange chromatography. Pro-alpha 1(IV) and 164,000 polypeptide are relatively acidic with respect to pro-alpha 2(IV) and 152,000 polypeptide, which is due in part to a relatively high content of arginine in the latter. Based on amino acid analysis of the collagenase-sensitive regions of these polypeptides, pro-alpha 1(IV) is the parent molecule from which alpha 1(IV) is derived on pepsin digestion of basement membranes and pro-alpha 2(IV) is the parent molecule of alpha 2(IV). Pro-alpha 1(IV) was isolated by gel filtration and ion exchange chromatography and characterized. It has a molecular weight of 194,000 as determined by sedimentation equilibrium. The polypeptide contains 14% carbohydrate in the form of both disaccharide, glucosylgalactosylhydroxylysine, and heteropolysaccharide units. The polypeptide backbone mass is calculated to be 167,000 daltons. Digestion of pro-alpha 1(IV) with bacterial collagenase resulted in two resistant segments of mass = 31,000 and 33,000 dalton, which make up approximately 30% of the polypeptide.  相似文献   

20.
NC1, the C-terminal non-collagenous globular domain of collagen IV, represents one of the two end regions responsible for the assembly and cross-linking of the extracellular network of basement membrane collagen. Several cDNA clones for the NC1 domain of the alpha 1(IV) collagen chain of mouse have been isolated by using synthetic oligonucleotides as screening probes for mouse libraries. The oligonucleotides were synthesized according to known stretches of the corresponding protein sequence. Sequencing of the overlapping cDNA clones allowed the complete amino acid sequence of the NC1 domain to be deduced as well as the C-terminal 165 amino acid residues of the triple helix. It consists of 229 amino acid residues which comprise two homologous regions with a high content of cysteine. These DNA and protein sequences are compared to the corresponding sequences of other collagens and discussed with respect to their structural and biological significance.  相似文献   

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