EC:3.4.24.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Goodpasture (GP) antigens, protein components reactive with human autoantibodies against glomerular basement membrane (GBM), were identified in human alveolar basement membrane (ABM) using an enzyme-linked immunoassay (ELISA), Western blotting and immunoprecipitation. All six anti-GBM antisera studied, three obtained from patients with glomerulonephritis and pulmonary haemorrhages (i.e. GP syndrome), and three from patients with glomerulonephritis alone, distinctively reacted with collagenase-digested (CD) ABM. Very cationic 22-28 kD and 40-48 kD components were detected by blot analysis combined with two-dimensional gel electrophoresis. These proteins showed some similarities to GP antigens in human GBM with respect to the monomer-dimer composition and charge distribution. Inhibition ELISA revealed that the binding of anti-GBM antisera to CDGBM decreased when they were pre-incubated with CDABM, suggesting that the anti-GBM antisera recognized the same epitope(s) on the GBM and ABM. Heterogeneity of the GP antigens in human ABM was demonstrated by blotting; monomeric antigens were absent or at low levels in the CDABM of three out of 10 normal individuals. In immunoprecipitation, anti-GBM antisera from patients with and without pulmonary haemorrhage showed different reactivities with CDABM. The former antisera precipitated both monomeric and dimeric components, but the latter did not. The observations of variation in monomer-dimer composition of ABM, and the different binding of anti-GBM antisera to it may explain why only some patients with anti-GBM nephritis have lung involvement.
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PMID:Identification of Goodpasture antigens in human alveolar basement membrane. 246 90

The glomerular basement membrane is a complex extracellular matrix formed of various molecules which build a supramolecular network. The major structural components are collagen IV, laminin, heparan sulfate proteoglycan, and nidogen/entactin. Cross-reacting antibodies against laminin, nidogen, and collagen IV may occur after several infectious diseases. They are however of doubtful pathogenetic significance. The pathogenetic relevant autoantibodies in Goodpasture's syndrome and rapidly progressive glomerulonephritis with linear immunofluorescence pattern are directed against epitopes which are located on the collagenase resistant C-terminal globule NC1 of collagen IV. The human NC1 globule appears as a hexamer which dissociates into monomers and dimers under various experimental conditions. Dissociation is paralleled by a significant increase in available epitopes. Immunisation with the dissociated NC1 globule initiates a pulmo-renal syndrome in rabbits similar to the human Goodpasture's syndrome. In hereditary nephritis one of the alpha-chains which form the triple-helix of collagen IV seems to be altered within the NC1 region. This may possibly explain the typical morphologic findings in this disease as well as the reduced binding of antiglomerular basement membrane antibodies to basement membranes of kidneys in Alport's syndrome.
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PMID:[Structure and antigenicity of the glomerular basement membrane]. 248 35

Alport-type hereditary nephritis is a familial disorder which results in progressive renal insufficiency and sensorineural hearing loss. It is thought to result from a biochemical defect affecting basement membranes. To study this further, non-collagenous components of type IV collagen were prepared from the glomerular basement membrane (GBM) by collagenase digestion from three male patients with hereditary nephritis. The normal Goodpasture antigenicity of the 28 and 26 kD monomers and 54 and 50 kD dimers which may be isolated from the GBM was absent on one-dimensional immunoblots. Two-dimensional electrophoresis and immunoblotting studies showed absence of Goodpasture antigenicity of these molecular weight components as well as all cationic monomeric and dimeric spots. It is concluded that the expression of the Goodpasture antigen is altered in basement membranes of hereditary nephritis patients. The altered antigenicity thus acts as a marker for the underlying abnormality.
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PMID:The glomerular basement membrane defect in Alport-type hereditary nephritis: absence of cationic antigenic components. 248 55

The sera of 206 consecutive patients with biopsy-proven glomerulonephritis were tested by ELISA for the presence of Goodpasture and non-Goodpasture anti-GBM antibodies. Antigens were solubilised from human GBM with purified bacterial collagenase and with 6 mol/l guanidine-HCl respectively. Only 12 sera reacted when collagenase-resistant GBM proteins were used as antigens in ELISA. Sera from two of these patients also reacted with the Goodpasture antigen, that is the globular domain of collagen IV, purified from collagenase extracts of GBM. These two patients had classical Goodpasture syndrome with linear crescentic nephritis. The other ten sera did not react with the Goodpasture antigen and immunofluorescence microscopy showed granular glomerular immune deposits. Antibodies against antigens present in 6 mol/l guanidine-HCl extracts of human GBM were much more frequent, particularly in lupus nephritis and IgA nephropathy, but relatively common also in patients with glomerulonephritis associated with systemic connective tissue and systemic vasculitic disorders. In contrast, these non-Goodpasture antibodies were only sporadic in primary forms of glomerulonephritis such as minimal-change nephropathy, membranous glomerulopathy, or acute post-infectious glomerulonephritis. The presence of circulating IgG, IgA or IgM antibodies against 6 mol/l guanidine-HCl extractable GBM antigens correlated with granular deposits of corresponding immunoglobulins in both mesangial and capillary loop regions of glomeruli, indicating a possible pathogenic role for non-Goodpasture anti-GBM antibodies in several forms of glomerulonephritis.
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PMID:Non-Goodpasture anti-GBM antibodies in patients with glomerulonephritis. 250 32

Two children with Alport's syndrome are described, who developed anti-glomerular basement membrane (GMB) antibody-mediated nephritis after renal transplantation. The reactivity of antibodies in their serum with collagenase-solubilized normal GBM was examined by SDS-PAGE with one- and two-dimensional immunoblotting. The specificity was compared with that of antibodies present in serum from a patient with Goodpasture's syndrome, and a mouse monoclonal antibody (MCA-P1), directed against the Goodpasture antigen. All reacted in a similar way with collagenase-solubilized GBM. Since abnormalities in the composition of the GBM are present in Alport's syndrome, it is proposed that differing antigen composition of GBM in the host compared with the donor kidney, together with transplant rejection, may have provoked the development of post-transplant anti-GBM antibodies.
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PMID:The development of anti-glomerular basement membrane nephritis in two children with Alport's syndrome after renal transplantation: characterization of the antibody target. 264 9

Samoyed hereditary glomerulopathy (SHG) in dogs serves as a model for human X-linked hereditary nephritis (HN). We previously showed that glomerular capillaries of affected males did not stain by immunofluorescence (IF) using serum from a patient with Goodpasture's syndrome. Our goal in the present study was to determine whether the NC1 domain of the collagen type IV molecule, which contains Goodpasture antigen (GPA), could be demonstrated in these dogs, and to assess its immunological reactivity. By SDS-PAGE, NC1 in collagenase digests of glomerular basement membranes (GBM) of unaffected and carrier female dogs in the family with SHG showed 24 kilodalton (kD), 26 kD and 28 kD monomer, and 46 kD and 47 kD dimer components, but the 24 kD monomer was diminished in the affected males. By IF, a rabbit antibody to NCl stained glomerular capillaries of unaffected, affected male, and carrier female dogs. In contrast, a human anti-GBM plasmapheresis fluid (PPF) stained glomerular capillaries of only the unaffected and carrier female dogs. By RIA, both antibodies reacted strongly with NCl in collagenase digests of GBM of the unaffected and carrier female dogs, but showed reduced reactivity with NCl of affected males. By Western blotting, both antibodies bound to dimers and 24 kD and 26 kD monomers of the NCl domain in collagenase digests of GBM of unaffected and carrier female dogs. However, in affected males, the rabbit anti-NCl antibody did not bind to the 24 kD monomer, while the human anti-GBM PPF showed weak binding to the 24 kD and 26 kD monomers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Abnormalities in the NC1 domain of collagen type IV in GBM in canine hereditary nephritis. 265 61

Hereditary nephritis (HN) is associated with antigenically abnormal glomerular basement membrane (GBM) manifest by reduced or absent binding of MCA-P1, a mouse monoclonal antibody which recognizes Goodpasture antigen. In the present studies, immunoblotting has been used to analyze antigenic and biochemical composition of renal tissue from patients with HN in whom binding of MCA-P1 could not be demonstrated by indirect immunofluorescence (IIF). Pooled normal collagenase-solubilized GBM (CS-GBM) and CS-GBM from three patients with either end-stage renal failure (ESK1-3) or HN (HNK1-3), were examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis gel and, after transfer by Western blotting to nitrocellulose, reacted with sera from six patients with anti-GBM disease (GPS1-6) or anti-GBM antibody containing sera from three transplanted HN patients (HNS1-3), different from those patients with HN contributing HNK1-3. We found that GPS1-6 and HNS1-2 recognized the same six major bands in CS-GBM and ESK1-3 (between 54 and 24 kilodalton (kd) but only three bands (48, 42 and 24 kd) in HNK1-3. HNS3 only bound strongly to bands of 54 and 26 kd in CS-GBM or ESK1-3 and not all to HNK1-3. Immunoblotting studies of HNK1-3 have shown a partial rather than absolute loss of Goodpasture antigenicity (54, 28 and 26 kd bands). Studies with HNS1-3 suggest heterogeneity of antibody responses to allografted kidneys between patients with HN; HNS-3 showed restricted antibody specificity with recognition in CS-GBM of some bands antigenically absent from HN kidney. The abnormality in HN kidneys appears closely related to, but distinct from, the Goodpasture determinant and the inherited defect in HN may involve an essential modifying enzyme.
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PMID:Hereditary nephritis: immunoblotting studies of the glomerular basement membrane. 265 72

The glomerular basement membranes (GBM) of Alport familial nephritis (FN) are laminated and split and fail to bind Goodpasture autoantibodies by indirect immunofluorescence. The Goodpasture antigen has been localized to multiple peptides of the noncollagenous C terminal (NC1) domain of type IV collagen. The principal target antigen is a 28-kDa peptide (M28) that coisolates with type IV collagen NC1 and which is derived from a larger collagenous molecule. We have shown that two novel 28-kDa peptides found in normal GBM (M28M28+) are absent from collagenase digests of X-linked dominant Alport FN GBM and that monoclonal antibodies specific for these collagen chains fail to bind to Alport GBM. In normal tissue these chains have a distribution restricted to specific basement membranes of kidney, eye, inner ear, lung, and brain, the former three of which are affected in Alport FN. Epitopes on a 26-kDa NC1 peptide identified by an antibody from a transplanted Alport patient (FN antibody) colocalized with the 28-kDa components in these tissues. The FN antibody did not bind to the GBM of homozygous Alport males. Antibodies to the 28-kDa peptides and the FN antibody colocalized in a segmental pattern in heterozygous Alport GBM by indirect immunofluorescence and were unrelated to the normal distribution of type IV collagen. Three of eight homozygous Alport FN tissues showed the presence of the 28-kDa components in Bowman's capsule in a focal distribution, and in four of eight tissues reactive antigen was present in the cytoplasm of some parietal and visceral epithelial cells. These observations support the hypothesis that the genetic abnormality in Alport FN is a defective parent chain of the 26-kDa peptide, which results in failure of normal 28-kDa collagen chain integration.
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PMID:Distribution of familial nephritis antigen in normal tissue and renal basement membranes of patients with homozygous and heterozygous Alport familial nephritis. Relationship of familial nephritis and Goodpasture antigens to novel collagen chains and type IV collagen. 267 90

The globular domain of type IV collagen from bovine glomerular basement membrane was solubilized by collagenase digestion. Components of this domain include several monomer-size and structurally related dimer-size polypeptides. The monomer-size polypeptides were resolved into three fractions (M1, M2, and M3) with slightly different mobilities upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis (nonreduced Mr = 24,500-28,300). Chemical and immunochemical studies indicate that each is a distinct component. M2 is reactive with antibodies from patients with Goodpasture syndrome. The molecular weight by sedimentation equilibrium was 32,000 for M2 and 28,000 for M1. The dimers were characterized as two classes, D1 and D2. D1 consists of two sets of nonreactive components (D1a-d and D1a,c) whereas D2 contains one set of four components (D2a-d), each of which is reactive with Goodpasture sera. Chemical and immunochemical studies indicate that a monomer-dimer relationship exists between M1 and D1 and between M2 and D2. The origin of M3 remains undetermined. Rabbit antibodies to type IV collagen alpha chains react with M1 and M2, and antibodies to M1 and M2 react with type IV collagen alpha chains, which provides additional evidence for the localization of the Goodpasture antigen to one of the chains of type IV collagen.
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PMID:Properties of the globular domain of type IV collagen and its relationship to the Goodpasture antigen. 298 76

The globular domain NC1 of human basement membrane collagen IV was isolated from glomerular basement membrane after collagenase digestion by chromatographic purification. The human NC1 appears as a hexamer of 160 kD by molecular sieve chromatography which migrates as a single molecule at gel electrophoresis without sodium dodecyl sulphate (SDS). Reversible dissociation of the hexamer into monomers and dimers was achieved by 6 M guanidine-HC1, SDS, or at pH values less than 4.0. All the subunits of 26 kD, 28 kD, 44 kD, and 50 kD showed reactivity with anti-GBM antibodies on immunoblotting. Inhibition-ELISA demonstrated that the intact hexamer also binds to anti-GBM antibodies at higher NC1 concentrations. However, dose-response curves indicated an approximately 20-50-fold increase in reactivity after dissociation of the hexamer in 6 M guanidine-HC1. Analysis of thermostability demonstrated that heating for 24 h at 37 degrees C or 56 degrees C did not alter the reactivity to anti-GBM antibodies, while reactivity was lost after heating for more than 120 min at 95 degrees C. In contrast to bovine NC1 unfolding of the antigen occurs immediately and does not require elevated temperature. Rotary shadowing of human NC1 at neutral pH revealed homogeneous globules. Distinct but incomplete dissociation into monomers and dimers could be observed at pH 2.5. These in vitro data of the human NC1 domain give further evidence that most of the Goodpasture epitopes are sequestered within the NC1 hexamer and support the hypothesis that production of anti-GBM autoantibodies may be initiated after dissociation of the hexamer has been induced, possibly by a toxic or infective episode.
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PMID:Immunological properties of the human Goodpasture target antigen. 322 45

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