Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some patients with hereditary nephritis (HN) who have received a renal transplant have been shown to form antibody with specificity for the NC1 domain of collagen type IV, a major constituent of glomerular basement membranes (GBM). We attempted to duplicate this phenomenon in a family of dogs with X-linked HN, a model for human X-linked HN, by immunizing affected male dogs with normal dog NC1 domain. A collagenase digest was prepared from normal dog GBM, the NC1 domain was separated into dimer (approximately 50 kDa) and monomer (24 kDa and 26 kDa) components by SDS-PAGE, and injected into two affected male dogs. Antisera obtained from both dogs contained antibody which reacted with the NC1 domain of dog and human GBM by a plate-binding radioimmunoassay, bound to the dimer and 26 kDa monomer bands by Western blotting, and staining dog and human GBM by immunofluorescence (IF). The affected male dog antiserum reacted equally by radioimmunoassay with the NC1 domain isolated from GBM of unaffected, affected male, and carrier female dogs in the family with X-linked HN, and bound by Western blotting to dimers and the 26 kDa monomer band of the NC1 domain of GBM in each group of dogs. However, the affected male dog antiserum differentiated these dogs by IF; it produced global staining of GBM of unaffected dogs, failed to stain GBM of affected male dogs, and produced segmental staining of GBM of carrier female dogs. Absorption of the affected male dog antiserum with normal dog NC1 domain eliminated the staining of dog GBM by IF, whereas staining persisted after absorption with affected male dog NC1 domain. The abnormal staining patterns of GBM seen by IF in the affected male and carrier female dogs and the results of the absorption studies imply an abnormality of one or more determinants in the 26 kDa monomer band of the NC1 domain of their GBM. Amino acid sequencing of this band identified the alpha 1(IV) chain of collagen type IV, a finding that has implications for the pathogenesis of canine X-linked HN. Absent and segmental staining respectively were also seen by IF in GBM of a male and female patient with HN, using the affected male dog antiserum. Thus, the results obtained in affected male and carrier female dogs with X-linked HN may also be relevant to patients with this disease.
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PMID:Production of anti-NC1 antibody by affected male dogs with X-linked hereditary nephritis: a probe for assessing the NC1 domain of collagen type IV in dogs and humans with hereditary nephritis. 146 51

The Alport antigen, a component of normal glomerular basement membranes (GBM) which is absent in Alport familial nephritis, is characterized as a 26 kD non-collagenous (NC1) peptide identified by a monoclonal antibody (Mab A7) and an Alport alloantibody. Both antibodies discriminate X-linkage of the Alport defect using indirect immunofluorescence of hemizygous and heterozygous Alport GBM and epidermal basement membrane (EBM). Immunoblotting of SDS-PAGE gels of collagenase-digested Alport renal BM shows absence of monomeric and dimeric components of the Alport antigen, alpha 3(IV) NC1, and alpha 4(IV) NC1. By immunoprecipitation experiments with specific antibodies, the Alport antigen is distinct from the 26 kD NC1 peptide derived from alpha 1(IV). The monoclonal antibody to the Alport antigen and rabbit antiserum to a non-consensus sequence of alpha 5(IV) NC1 react similarly by immunofluorescence with normal kidney and both fail to bind to Alport renal BM. Two dimension Western blots of collagenase-digested BM show that the anti-Alport antigen and the ant-alpha 5(IV) NC1 react similarly with monomeric and dimeric components of BM collagen. These studies are consistent with the likelihood that the Alport antigen and alpha 5(IV) NC1 are the same or are highly homologous molecules. The precise relationship will require characterization of alpha 5(IV) NC1 protein and determination of the nucleotide sequence of the Alport antigen. The associated absence of alpha 3(IV) NC1 and alpha 4(IV) (NC1) from Alport BM is consistent with other observations for a molecular association of these chains in a novel collagen network.
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PMID:Immunochemical studies of the Alport antigen. 150 19

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

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

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

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

Urinary excretion of glomerular basement membrane (GBM)-related peptides was analysed in 72 patients with a variety of renal diseases by immunoblotting using polyclonal antibodies against either collagenase or pepsin digests of human GBM. The specificity of the antibodies was verified by elution of antibodies bound to urinary GBM-related peptides on nitrocellulose blots and demonstration of reactivity of the eluted antibodies with the respective GBM digests. Furthermore, six mice immunized with urinary GBM-related peptides all developed focal linear deposits of mouse IgG along their GBM, linear and mesangial deposits of C3 in the glomeruli and serum antibodies reactive with human GBM. Monoclonal antibodies against urinary GBM-related peptides of one of the mice reacted with different peptides of the non-collagenous and collagenous domains of type IV collagen, the major structural protein of GBM. In the majority of the 75 patients' urines tested, excretion of GBM-related peptides with molecular weights of 33, 50, 80 and 150 kilodaltons (kD) was detectable. Patients with a diminished glomerular filtration rate (GFR) demonstrated excretion of the 33 kD peptide more frequently (91%) and never of the 80 kD peptide as compared with patients with normal GFR (33 kD [42%] 80 kD [87%]). The pattern of urinary GBM-related peptides was not specific for the underlying renal disease as in Alport's syndrome.
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PMID:Urinary excretion of glomerular basement membrane-related peptides in children with renal disorders. 315 13


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