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)

When transferred to suspension culture on agarose-coated dishes, dedifferentiated chick embryo chondrocytes resume the chondrocyte phenotype and continue their maturation to hypertrophic chondrocytes (Castagnola, P., G. Moro, F. Descalzi Cancedda, and R. Cancedda. 1986. J. Cell Biol. 102:2310-2317). In this paper we report the identification, purification, and characterization of a low molecular weight protein, named Ch 21, expressed and secreted by in vitro differentiating chondrocytes at a late stage of development. This protein is detectable in the cells after a short pulse labeling and is directly secreted in the culture medium. The Ch 21 protein has a peculiar resistance to limited pepsin digestion; nevertheless it is not collagenous in nature as revealed by its unaltered mobility when isolated from cells grown in the presence of alpha-alpha' dipyridyl, its resistance to bacterial collagenase, and its amino acid composition. By metabolic labeling of tissue slices and by immunohistochemistry, we show that in the chick embryo tibia the Ch 21 protein first appears at the boundary of the cone of hypertrophic cartilage and in the newly formed bone between the 6 and 10 d of embryo development and localizes in calcifying hypertrophic cartilage thereafter. The Ch 21 protein synthesized by the cultured chondrocytes is closely related and possibly identical to a 21K transformation-sensitive protein associated to the cell substratum of chick embryo fibroblasts.
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PMID:Developmentally regulated synthesis of a low molecular weight protein (Ch 21) by differentiating chondrocytes. 314 37

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

Implantation of rat demineralized bone matrix into intramuscular pouches has been shown to cause a complex cellular transition of mesenchymal-type cells into well developed mature bone. Demineralized bone matrix was surgically implanted into rat muscle pouches and removed at various intervals between 7 and 28 days. Histological sections of the implants revealed bone formation by endochondral ossification and appositional bone growth. Biochemical analysis of collagen synthesis demonstrated the following: (1) synthesis of type X collagen, a collagen produced by hypertrophic chondrocytes in the growth plate and in fracture callus. (2) Synthesis of a collagenase-sensitive 17k protein which seems to increase in the early stages of bone induction. Pulse chase analysis indicates that 17k is not a degradation product of another protein and appears to be synthesized without a large Mr precursor. The 17k component contains one or more collagenous domains that are partially resistant to proteolysis with pepsin. Our results confirm the appearance of a cartilage intermediate during demineralized bone matrix induced ossification and implicate the existence of proteins which may be useful markers in future studies on matrix mineralization and ossification.
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PMID:Bone induction in intramuscular implants by demineralized bone matrix: sequential changes of collagen synthesis. 322 99

A mouse monoclonal antibody (IgG1 isotype) against human C1q (MAb 130) is presented that activates C1 in serum through its antigen-binding sites at an optimal molar ratio of 3 MAbs:1 C1q. The antibody does not inhibit binding of C1q to IgG. Experiments with pepsin- and collagenase-digested C1q showed that MAb 130 binds to the fibril-like strands (arms) of C1q, close to the globular heads. Bivalency of MAb 130 was a requirement for C1-activation, but not for binding to C1q. Increasing the segmental flexibility of the intact antibody by reduction and alkylation destroyed its capacity to activate C1. A MAb against the globular heads of C1q completely inhibited C1-activation by aggregated IgG (AHG), but did not prevent activation by MAb 130. C1, reconstituted by adding C1q-stalks that lack the globular heads to C1q-depleted serum was not activated by AHG, whereas activation by MAb 130 was not affected. Activation of serum-C1 by AHG and MAb 130 was inhibited by addition of excess purified C1-inhibitor in a comparable and dose-dependent manner. Sucrose-gradient analysis indicated a predominance of stable complexes of a single C1q-molecule with three MAbs at the optimal activating ratio. When isolated and added to C1q-depleted serum, these complexes activated C1 efficiently. A mechanism for activation by MAb 130 is proposed that supports the "distortive" model of C1-activation.
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PMID:The distortive mechanism for the activation of complement component C1 supported by studies with a monoclonal antibody against the "arms" of C1q. 326 34

The process of collagenolysis and the source of collagenase liberated from different cell types in the colonic mucosa has been investigated by the lysis of collagen gels in vitro. The reconstituted collagen gel strongly reacted to periodic acid Schiff (PAS) when stained with combined alcian blue-PAS, indicating the presence of glycoprotein with neutral sugars in the collagen gel. Colonic explants of rabbits produced visible collagenolysis. An area of alcian blue stained gel was seen replacing the usual PAS staining around the area of the lysis. Several histochemical methods revealed that the columnar cells had multiplied with high enzymatic activity and penetrated the collagen gel where collagenolysis took place. The action of several proteolytic enzymes on collagen gel showed that ficin caused lytic activity, even though collagen is resistant to most proteolytic enzymes. Papain, pepsin and trypsin altered composition of collagen gel from neutral mucopolysaccharide to acid mucopolysaccharide. Collagenase and pronase at low concentration were found to cause extensive collagenolysis. The synthesis and breakdown of collagen is a desirable balanced process in the remodelling of connective tissue. This dynamic equilibrium may be achieved through the subtle interplay of cells liberating and inhibiting collagenase.
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PMID:An investigation into the mechanism of collagenolytic activity in colonic mucosa by a tissue culture method. 329 25

The proline analog cis-4-hydroxy-L-proline (CHP) was previously shown to inhibit both Schwann cell (SC) differentiation and extracellular matrix (ECM) formation in cultures of rat SCs and dorsal root ganglion neurons. We confirmed that CHP inhibits basal lamina formation by immunofluorescence with antibodies to laminin, type IV collagen, and heparan sulfate proteoglycan. In order to test the hypothesis that CHP inhibits SC differentiation by specifically inhibiting the secretion of collagen, cultures grown in the presence or absence of CHP were metabolically labeled with [3H]leucine and the media were analyzed for relative amounts of (a) collagenous and noncollagenous proteins by assay with bacterial collagenase and by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), or (b) triple-helical collagen by pepsin digestion followed by SDS-PAGE. The results indicate that although CHP inhibited the accumulation of secreted collagen in the culture medium and disrupted collagen triple-helix formation, it also significantly inhibited the accumulation of secreted noncollagenous proteins in the medium. CHP had no significant effect on either total protein synthesis (medium plus cell layer) or cell number. We conclude that CHP does not act as a specific inhibitor of collagen secretion in this system, and thus data from these experiments cannot be used to relate SC collagen production to other aspects of SC differentiation. We discuss the evidence for and against specificity of CHP action in other systems.
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PMID:Effects of cis-4-hydroxy-L-proline, and inhibitor of Schwann cell differentiation, on the secretion of collagenous and noncollagenous proteins by Schwann cells. 333 98

Bovine corneal Descemet's membrane (DM) was subjected to limited pepsin digestion. Soluble native collagens were fractionated by differential salt precipitation, and a mixture of type V collagen and collagenous fragments with a chain Mr of 50,000 (50K) was obtained at a concentration of 1.5 M NaCl. Further purification of the 50K collagen by molecular sieve and high-performance liquid chromatography resulted in the isolation of two-non-disulfide-bonded polypeptides, 50K-A and 50K-B, which were susceptible to several neutral proteases, including bacterial collagenase. By the criteria of peptide mapping, amino acid composition, and N-terminal sequence analysis, 50K-A and 50K-B were structurally dissimilar, although both chains contained Gly-X-Y repeats. 50K-A and 50K-B were immunologically and structurally distinct from collagen type I, III, IV, V, and VI. Immunohistochemical studies of bovine ocular tissue showed preferential distribution of the collagen containing the 50K fragment in the DM, with a more disperse arrangement of apparently interconnecting fibrils in the corneal stroma. Type VIII collagen isolated from the culture medium of metabolically radiolabeled bovine corneal endothelial (BCE) cells and its pepsin-resistant Mr 50 000 domain(s) both cross-reacted with antisera to 50K polypeptides from the corneal DM. Additionally, the CNBr peptide maps of pepsin-resistant Mr 50 000 polypeptides of type VIII collagen isolated from BCE cells and bovine corneal DM were highly similar.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Type VIII collagen from bovine Descemet's membrane: structural characterization of a triple-helical domain. 352 59

The effects of the enzymes collagenase, pepsin, chondroitinase ABC and keratanase on the polypeptide composition of the mammalian tectorial membrane have been analysed using one dimensional SDS-polyacrylamide gel electrophoresis (SDS-PAGE). After reduction at least ten polypeptides can be consistently and clearly recognized in SDS gels with molecular weights relative to globular protein standards of 245, 235, 190, 165, 155, 145, 100, 93, 60-73 and 35-49 kDa. With the exception of the 60-73 and 35-49 kDa bands all these polypeptides are sensitive to digestion with bacterial collagenase. The 235, 165, 155, 145 and 93 kDa bands also resist degradation by cold, acidic pepsin. Amino acid analysis of whole tectorial membranes demonstrates that glycine accounts for nearly 25% of the total amino acid content, that proline, hydroxyproline and hydroxylysine are present and that amine sugars can be detected in fairly high concentrations. Estimates based on hydroxyproline content suggest that collagens account for 25-50% of the total tectorial membrane protein. Immunoblotting techniques demonstrate the presence of polypeptides cross reacting with antisera to Type II collagen, Type IX collagen and Type V collagen. Results from immunohistochemical studies confirm that these polypeptides are present in the tectorial membrane and are not contaminants of the isolation procedure. Collagenase treatment of tectorial membranes reveals the presence of an additional non-collagenous polypeptide with an apparent molecular weight of 173 kDa on 7.5% polyacrylamide gels, and polydisperse high molecular weight material spreading over a broad range at the top of the gels. This high molecular weight material and the 173, 60-73 and 35-49 kDa non-collagenous polypeptides are pepsin sensitive and all bind wheat germ agglutinin (WGA) suggesting that they contain N-acetyl glucosamine. The 173 kDa band also binds soybean agglutinin (SBA) suggesting the presence of N-acetyl galactosamine. In the absence of reducing agent the 173 and 60-73 kDa bands are no longer observed and high molecular weight material forming a broad band at the top of the separating gel is seen. The electrophoretic behaviour of this non-collagenous, glycosylated, disulphide bonded, high molecular weight material is altered by treatment with keratanase but not by chondroitinase ABC. The results of this study indicate the tectorial membrane contains at least three different collagen types and, in addition to these collagenous proteins, several non-collagenous, glycosylated polypeptides that may account for as much as 50% of the total tectorial membrane protein.
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PMID:Polypeptide composition of the mammalian tectorial membrane. 354 19

Sera from two patients with primary anti-tubular-basement-membrane-mediated tubulointerstitial nephritis, one a renal allograft recipient and the other with spontaneous anti-tubular-basement-membrane disease, were analyzed for the specificity of their autoantibodies. Both sera had circulating antibodies that reacted by ELISA with extracts of tubular basement membrane from several species, but failed to react significantly with extracts of glomerular basement membrane. Reactive antigen was solubilized with 6 M guanidine-HCl, 6 M urea, with reduction and alkylation, and with sodium dodecylsulfate. Digestion of the basement membrane with collagenase released relatively small quantities of antigen from the membrane, and trypsin and pepsin destroyed its antigenicity. The antigenic activity was characterized with respect to its size distribution by gel filtration and by immuno-overlay analysis of protein blots. Collectively, the results indicate that the major reactivity of both sera is directed towards a Mr 58,000 component that is unique to the tubular basement membrane. Minor reactivities toward high molecular weight components common to both glomerular and tubular basement membranes were detected by immuno-overlay analysis. This study identifies an antigen that is involved in human anti-tubular-basement-membrane-mediated tubulointerstitial nephritis, and demonstrates an advantage of the use of denaturing extraction over proteolytic methods to prepare the antigen.
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PMID:Identification of a target antigen in human anti-tubular basement membrane nephritis. 355 4

Leukocyte-derived proteases may contribute to the destruction of basement membranes during inflammation. We have, therefore, examined the degradation of human type IV procollagen (PC) by purified human neutrophil elastase (HLE). Native [14C]proline-labeled type IV PC was isolated from cultures of human HT-1080 cells and incubated with HLE for various times at 25 or 37 degrees C. Cleavage products were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and identified by CNBr peptide mapping. Incubation of type IV PC with HLE (less than 1:10 HLE:type IV weight ratio) resulted in cleavage of the pro alpha 1 (IV) and pro alpha 2 chains (Mr 180,000 and 175,000) to discrete components of Mr greater than 140,000. Peptide mapping indicated that the carboxy-terminal collagenase-resistant domains of both chains were rapidly and preferentially degraded. Longer incubations or incubations at higher enzyme:substrate ratios resulted in extensive and asymmetric internal cleavage with the generation of fragments similar in size distribution to the major pepsin-resistant fragments of type IV collagen. Our findings indicate that soluble, native human type IV PC is a substrate for HLE and is preferentially cleaved within the globular carboxy-terminal domains of the pro alpha 1 and pro alpha 2 chains. We suggest that even limited cleavage of type IV PC by HLE may disrupt intermolecular carboxy-terminal interactions believed to be important for basement membrane assembly and for maintaining basement membrane structure in vivo.
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PMID:Degradation of native type IV procollagen by human neutrophil elastase. Implications for leukocyte-mediated degradation of basement membranes. 367 85


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