EC:3.4.24.3 - FACTA Search

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two antibody probes were used to characterize the putative renal antigens of HgCl2-induced antiglomerular basement membrane renal disease in Brown Norway (BN) rat. The first probe was the linear immunofluorescence imparting, in vivo bound, nephritogenic antiglomerular-basement-membrane autoantibody (anti-GBM-Ab). The second probe was a rat monoclonal antibody to the B subunit of laminin that was obtained from fusion of spleen cells of HgCl2 injected BN rat. By enzyme-linked immunosorbent assay (ELISA) the anti-GBM-Ab reacted with laminin, type IV collagen, collagenase-resistant noncollagenous portion of glomerular basement membrane (GBM), saline soluble proteins of kidney cortex homogenate and fibronectin. Western blot analysis of laminin indicated that the reactive epitopes detected by both probes were on the B chain subunit but not the A subunit. In nonreduced collagenase-digested GBM the epitopes were present on 27 kD and 42 to 48 kD polypeptides. A similar pattern was seen on collagenase-digested human GBM. On rat and human GBM the patterns obtained with rat autoantibody and autoantibody from a patient with Goodpasture syndrome were similar, suggesting that some of the in vivo bound anti-GBM autoantibodies in HgCl2-induced disease in rat are directed against epitopes which are similar to the Goodpasture antigen of human. Reactive epitopes were also detected on saline soluble proteins of kidney cortex homogenate with the predominant antigen being a 31 kD polypeptide. In the saline soluble proteins the reactive polypeptides including the major 31 kD polypeptide did not originate from laminin, type IV collagen, or the collagenase-resistant noncollagenous part of GBM. The precise structural origin of soluble proteins was not defined.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal antigens in mercuric chloride induced, anti-GBM autoantibody glomerular disease. 168 61

Monoclonal antibodies were produced against NC1, the globular noncollagenous domain of collagen IV, isolated from bovine glomerular basement membrane. Cells from eight positive wells were cloned and the resulting monoclonal antibodies were studied in detail by immunofluorescence on human kidney sections, by Western blot and by ELISA against denatured subunits from NC1 hexamers and against native NC1 hexamers from different tissues. The monoclonal antibodies could be divided into two groups. Firstly, those monoclonal antibodies that, in ELISA and Western blot, reacted with peptides related to the alpha 1 chain of collagen IV and stained all basement membranes in the kidney. Secondly, a monoclonal antibody that, in ELISA and Western blot, reacted with peptides related to the Goodpasture antigen, the alpha 3 chain of collagen IV. When this antibody was applied to human kidney sections it stained the glomerular basement membrane very intensively. Bowman's capsule and some tubular basement membrane were also stained, although to a lesser extent. This staining pattern is the same as that observed with sera from patients with Goodpasture's syndrome. An attempt was made to separate different subtypes of the NC1 hexamer. A monoclonal antibody from the first group was used to make an affinity chromatography column. Glomerular basement membrane digested with collagenase was separated on this column and the collected fractions were analyzed by ELISA and SDS-PAGE. The result from this study support the idea that glomerular basement membrane is composed of at least two different subtypes of type IV collagen.
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PMID:Characterization of monoclonal antibodies to the globular domain of collagen IV. 171 47

The nephritogenic antigen that induces antiglomerular basement membrane antibody-induced glomerulonephritis (anti-GBM nephritis) in rats was isolated from collagenase-solubilized bovine renal basement membranes. Purification was achieved using antibody-coupled affinity columns which were originally used for the purification of trypsin-solubilized nephritogenic antigen (Sado et al. 1984a). The nephritogenic antigen was a heteropolymer composed of P2 (Mr 28 kDa) and P3 (Mr 30 kDa) polypeptides as monomers and their dimers in sodium-dodecyl-sulfate (SDS) polyacrylamide gel electrophoresis. The P3 polypeptide was considered to be the nephritogenic epitope, since a fraction composed of the P2 polypeptide alone was not nephritogenic. The properties of the nephritogenic epitope were the same as those of the Goodpasture epitope (M2*), which is a noncollagenous domain of the alpha 3 chain of type IV collagen (Butkowski et al. 1985; Saus et al. 1988), indicating that the nephritogenic antigen is the same as the Goodpasture antigen.
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PMID:Properties of bovine nephritogenic antigen that induces anti-GBM nephritis in rats and its similarity to the Goodpasture antigen. 172 95

To characterize the autoantigen of Goodpasture's (anti-glomerular basement membrane) disease, a molecule of 26-kD reactive with autoantibodies from patients' sera was purified from collagenase digests of sheep glomerular basement membrane. Short internal amino acid sequences were obtained after tryptic or cyanogen bromide cleavage, and used to deduce redundant oligonucleotides for use in the polymerase chain reaction on cDNA derived from sheep renal cortex. Molecules of 175 bp were amplified and found to come from two cDNA sequences. One was identical to that of a type IV collagen chain (alpha 5) cloned from human placenta and shown to be expressed in human kidney. The other was from a type IV collagen chain with close similarities to alpha 1 and alpha 5 chains, and was used to obtain human cDNA sequences by cDNA library screening and by further polymerase chain reaction amplifications. The correspondence of the derived amino acid sequence of the new chain with published protein and cDNA sequences shows it to be the alpha 3 chain of type IV collagen. Its gene, COL4A3, maps to 2q36-2q37. The primary sequence and other characteristics of this chain confirm that it carries the Goodpasture antigen.
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PMID:Molecular cloning of the human Goodpasture antigen demonstrates it to be the alpha 3 chain of type IV collagen. 173 49

The autoantigen in Goodpasture's syndrome is known to be contained within the non-collagenous (NC1) domain of type IV collagen. We have examined the specificity of autoantibodies to glomerular basement membrane (GBM) using the technique of 2-D electrophoresis followed by Western blotting. Protein stains of 2-D gels of collagenase-digested human GBM revealed extensive charge and size heterogeneity. Major components were of mol. wt 24-30 kD and 43-56 kD, corresponding to monomeric and dimeric subunits of NCl. Western blotting of 2-D gels with IgG from patients with anti-GBM disease demonstrated that the most antigenic components migrated as cationic 28-kD monomers (pI 10) and similarly charged dimers, although other components were recognized less strongly. The mobility of the strongly antigenic polypeptides was different to that of the known alpha 1 and alpha 2 chains of type IV collagen. Autoantibodies from all 20 patients studied showed the same pattern of reactivity, regardless of their clinical features (in particular, the presence or absence of pulmonary haemorrhage) or HLA type. A monoclonal antibody (P1) to human GBM bound in a similar pattern, particularly recognizing the cationic components. 2-D gels of affinity-purified GBM from a P1 column showed enrichment of the 28-kD monomers, which were recognized by human autoantibodies on Western blotting. These results demonstrate that the autoimmune response in Goodpasture's syndrome is of restricted specificity, and support the suggestion that the major autoantigenic determinant is present on the novel alpha 3 chain of type IV collagen.
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PMID:Restricted specificity of the autoantibody response in Goodpasture's syndrome demonstrated by two-dimensional western blotting. 174 53

The noncollagenous domain hexamer of collagen IV from bovine alveolar basement membrane was excised with bacterial collagenase, purified under nondenaturing conditions, and characterized. The hexamer is comprised of four distinct subunits [alpha 1(IV)NC1, alpha 2(IV)NC1, alpha 3(IV)NC1, and alpha 4(IV)NC1]. Each subunit exists in both monomeric and dimeric (disulfide-crosslinked) form, and both monomers and dimers have charge isoforms. Certain dimers also contain nonreducible crosslinks. The alpha 3(IV)NC1 subunit, in both the monomeric and dimeric form, reacts with Goodpasture (GP) antibodies. The GP epitope is sequestered within the hexamer and becomes reactive with antibody upon exposure with protein denaturants. These results reveal that the alveolar basement membrane hexamer is identical to the hexamer from glomerular basement membrane with respect to subunit composition, identity of subunits reacting with GP antibodies, and sequestration of the GP epitope but differs greatly in the relative amount of the GP-reactive subunit and the degree of disulfide and nondisulfide crosslinking of subunits. This study leads to the conclusion that pulmonary hemorrhage associated with GP syndrome is mediated by the same autoantibody that mediates the glomerulonephritis, namely anti-collagen [alpha 3(IV)] antibody.
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PMID:Alveolar basement membrane: molecular properties of the noncollagenous domain (hexamer) of collagen IV and its reactivity with Goodpasture autoantibodies. 171 46

A novel type IV collagen, alpha 3(IV), has previously been isolated from a collagenase digest of bovine and human glomerular and lens basement membranes. The cloning and sequencing of a cDNA encoding the alpha 3(IV) chain is described here. Using the polymerase chain reaction, with primers derived from the known 27-residue bovine alpha 3(IV) amino acid sequence, a 68-base pair bovine genomic fragment (KEM68) which encodes the known peptide sequence, was synthesized. KEM68 was then used to screen a bovine lens cDNA library and a 1.5-kilobase partial cDNA clone obtained, encoding 471 residues of the bovine alpha 3(IV) chain: 238 residues from the triple helical collagenous domain and all 233 residues of the noncollagenous domain. The collagenous repeat sequence has three interruptions, coinciding with those in the alpha 1(IV) chain. The noncollagenous domain has 12 cysteine residues in identical positions to those of other type IV collagens and 71, 61, and 70% overall similarity with the human alpha 1(IV), alpha 2(IV), and alpha 5(IV) chains. The noncollagenous domain of alpha 3(IV) is of particular interest as it appears to be the component of glomerular basement membrane that reacts maximally with the Goodpasture antibody. Furthermore, such antigenicity is absent from collagenase digests of the glomerular basement membrane of some patients with Alport syndrome. The alpha 3(IV) cDNA clone described here now permits study of the molecular pathology of COL4A3 in Alport syndrome.
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PMID:Use of the polymerase chain reaction to clone and sequence a cDNA encoding the bovine alpha 3 chain of type IV collagen. 198 5

The Goodpasture antigen is the target recognized by anti-glomerular basement membrane (GBM) antibodies in anti-GBM disease or Goodpasture's syndrome. This structure is present in all normal GBM, but when serum containing anti-GBM antibodies is used to examine renal tissue from most males with classical Alport's syndrome, the Goodpasture antigen appears to be missing. The nature of the Goodpasture antigen is uncertain although it has been putatively and controversially localized to the non-collagenous domain of a novel type IV collagen chain (alpha 3) by one group, and a short peptide sequence has been published (M2). We have performed several experiments to determine whether M2 represents the Goodpasture antigen and we have also studied the corresponding sequence of the alpha 4 chain of type IV collagen (M3). Firstly, we demonstrated by polymerase chain reaction (PCR) amplification using specific priming oligonucleotides that mRNAs corresponding to M2 and M3 were found within the kidney and that the published sequences were correct. When heterologous antibodies were raised against M2 and M3 these bound specifically to GBM in an ELISA based on collagenase-digested basement membrane and this binding could be inhibited by incubation with collagenase-digested GBM but not with ovalbumin. On further examination of the target molecules using Western blots, the anti-M2 antibody bound to a single high molecular weight band of collagen-digested GBM in contrast to the anti-M3 antibody that bound to the same bands as Goodpasture serum. We then established ELISAs for anti-M2 and anti-M3 activity using the peptides M2 and M3. While rabbit anti-M2 and M3 antibodies bound specifically to their respective peptides in these ELISAs, there was no binding of three high titre Goodpasture's syndrome sera or two sera from Alport's syndrome patients with inhibitable anti-GBM antibody post-renal transplant. We have shown that the sequences of M2 and M3 correspond to proteins present within the collagenase-resistant part of the GBM, suggesting that these do represent parts of novel type IV collagen chains. However, sera containing anti-GBM antibodies did not bind to either peptide in solid-phase ELISAs, and these antibodies may recognize a different peptide sequence, features of the tertiary structure of these peptides or interactions between collagen chains.
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PMID:The non-collagenous domains of the alpha 3 and 4 chains of type IV collagen and their relationship to the Goodpasture antigen. 204 25

Collagenase-digested basement-membrane preparations from human kidney glomeruli, kidney tubules, lung, choroid plexus, aorta, intestine, and placenta were analysed according to their reactivity to anti-glomerular basement membrane (anti-GBM) antibody-positive Goodpasture sera. Sodium dodecylsulphate polyacryl gel electrophoresis (SDS-PAGE), and immunoblotting were performed after antigen enrichment by passage of the collagenase digests through an anion-exchange column. Reactivity of anti-GBM antibodies with one to three monomers (24, 26 and 28 kD) and two dimers (44 and 50 kD) were demonstrated in basement membrane preparations of kidney glomeruli, kidney tubules, lung, placenta, and aorta. In basement membranes of choroid plexus reactivity with only the 28 kD monomer and the 50 kD dimer were identified. In intestinal basement membrane, reactivity was restricted to the 50 kD dimer. Analysis of the amounts of Goodpasture antigen by inhibition ELISA demonstrated that the highest concentration were in glomerular basement membrane, while the lowest were found in aortic basement membrane. The results indicate that Goodpasture antigens are common to all the basement membranes investigated. The differences in antigen concentration and in reactivity on immunoblotting may indicate different antigen amounts, a heterogeneity of collagen IV within the various basement membranes, or differences in antigen accessibility within the membranes. We conclude that the primary clinical restriction of the anti-GBM disease to lungs and kidneys is not explained by a preservation of the antigen to this basement membrane. Rather, the clinical pattern may be influenced by differences in the molecular composition of the basement membranes as well as by non-immunological mechanisms.
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PMID:Distribution of Goodpasture antigens within various human basement membranes. 211 18

A procedure was developed for purifying the globular domain NC1 of basement membrane collagen from collagenase digests of a variety of tissues. The globule (Mr = 170,000) is a hexameric structure originating from two collagen IV molecules that are cross-linked at their COOH-terminal ends. Dissociation into subunits derived from alpha 1(IV) and alpha 2(IV) chains occurs at a pH below 4 and after denaturation (8 M urea). The subunits obtained include monomers (Mr = 28,000) and two different dimers (Da,Db) which are connected by disulfide bonds (Db) and/or nonreducible bonds (Da). Almost perfect reconstitution to hexamers is obtained in neutral buffer with mixtures of the subunits or purified dimers but not with purified monomers. Stabilization by dimer formation and other physical data suggest conformationally distinct segments within the subunits, which is also supported by a repeating subdomain structure deduced from cDNA sequences. Monocline crystals of NC1 give a sufficiently detailed X-ray diffraction pattern that should permit elucidation of the three-dimensional structure of the hexamer. Antibodies raised against the globular domain react with all subunits and mainly recognize epitopes stabilized by internal disulfide bridges and/or the hexameric assembly. Immunoprecipitation tests with these antibodies demonstrated a slightly larger subunit size of NC1 in PYS-2 cell culture and the rapid release of precursor-specific segments prior to secretion from the cells. Autoantibodies against mouse tumor NC1 were produced in mice and were detected both in the blood and as tissue-bound forms (kidney, lung). The autoantibody response is accompanied by certain pathological alterations mimicking Goodpasture's syndrome. The possible relationship between the two diseases is substantiated by reaction of Goodpasture antisera with the globular domain obtained from various tissue sources.
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PMID:Structure and biology of the globular domain of basement membrane type IV collagen. 242 28

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