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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)

The position of 3-hydroxyproline was investigated in the triplet sequences of peptides released by collagenase digestion of a collagen preparation from kidney cortex. Composition of the collagen preparation indicated that it was largely or wholly of basement membrane origin. 3-Hydroxyproline was detected in only one sequence, the tripeptide, glycyl-3-hydroxyprolyl-4-hydroxyproline, which accounted for a major fraction of the total 3-hydroxyproline obtained in the peptides released by collagenase. Preliminary data, based on sequencing the peptide mixture released by collagenase treatment, suggested that, in contrast, 4-hydroxyproline occurs predominantly if not exclusively in the Y position of Gly-X-Y triplet sequences in the collagen preparation studied.
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PMID:Sequence position of 3-hydroxyproline in basement membrane collagen. Isolation of glycyl-3-hydroxyprolyl-4-hydroxyproline from swine kidney. 16 42

Alveoli and ducts isolated from virgin rat mammary glands synthesize basement membrane collagen (typeIV) in primary culture. Using purified antibodies to type IV collagen, prominent intracellular and extracellular fluorescence is observed in the epithelium. No fluorescence is observed with antibodies to collagen type I and III. From quantitation of the incorporation of [14c]proline-labeled proteins, 1.5 to 2.5 per cent of the newly synthesized proteins are collagen. Type IV collagen from these cultures was biochemically identified on the basis of (1) the high ratio of labeled 3-hydroxyproline to 4-hydroxyproline (1:10), (2) the gel electrophoretic pattern of the collagenase-sensitive proteins precipitated with 1.7 M NaCl, (3)the failure of the collagen to bind to diethylaminoethyl-cellulose, and(4)the immunologic cross-reactivity with mouse tumor type IV is identical with that of type IV collagen from other sources. When the supportive hormones, insulin, prolactin, hydrocortisone, progesterone, and estradiol are removed from the cultures, there is a 90 per cent reduction in the amount of [3H]proline recovered in collagen synthesis coincides with only a 30 percentdrop in the growht rate and a 20 per cent drop in total protein synthesis of the sells over the 24-hour period without hormones. Pulse-chase experimout hormones. Pulse-chase experiments revealed an enhanced turnover of collagen following hormone withdrawal. This system may be an in vitro model of collagen turnover in mammary gland in involution.
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PMID:Hormonal requirements for basement membrane collagen deposition by cultured rat mammary epithelium. 39 Feb 39

The location of type IV (basement membrane)collagen in early post-implantation mouse embryos was examined by immunoperoxidase reactions using a specific immunoglobulin raised against mouse lens capsule collagen. Reaction was positive in the earliest embryos studied--on the fifth day of gestation (the day of detection of the copulation plug is the first day). It was found only in the primitive endoderm adjacent to the blastocoelic cavity. Subsequently in development, strong staining reactions were found in the parietal endoderm, Reichert's membrane and an acellular layer which separates the visceral endoderm of the egg cylinder from the ectoderm. In tenth to eighteenth day visceral yolk sacs, the mesodermal portion was stained, which is consistent with the presence of basement membranes around blood vessels. The endodermal portion of the visceral yolk sac did not react, while small amounts were found in the amnion. By incubation of various embryonic tissues with tritiated amino acids, purification of the biosynthesized secreted collagens and their partial characterization, the differential expression of several collagen genes was detected. Identification of collagen types was made by: reaction with specific antibodies to type I and IV collagens; electrophoretic mobility; sensitivity to reduction and to collagenase; analysis of the proportions of 3-hydroxyproline, 4-hydroxyproline and hydroxylysine; and CNBr peptides. In agreement with the data of Minor et al. (1976a) for the rat, mouse parietal endoderm synthesizes large amounts of type IV collagen. In contrast to their findings, however, the 165,000 molecular weight polypeptide is not converted to one of 100,000 after reduction, alkylation and repepsinization (Dehm and Kefalides, 1978). The endoderm of the visceral yolk sac was shown to be synthesizing primarily type I collagen, while the mesoderm layer of this membrane synthesized both type I and IV collagens. Little or no type IV collagen synthesis was detected in the endoderm of the visceral yolk sac. If it is correct that the visceral endoderm of the early embryo makes a major contribution to the formation of the endoderm portion of the visceral yolk sac, then it is clear that a switch in collagen gene expression must occur as it does so.
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PMID:The localization and synthesis of some collagen types in developing mouse embryos. 45 57

Osteoclasts are the principal resorptive cells of bone, yet their capacity to degrade collagen, the major organic component of bone matrix, remains unexplored. Accordingly, we have studied the bone resorptive activity of highly enriched populations of isolated chicken osteoclasts, using as substrate devitalized rat bone which had been labeled in vivo with L-[5-3H]proline or 45Ca, and bone-like matrix produced and mineralized in vitro by osteoblast-like rat osteosarcoma cells. When co-cultured with a radiolabeled substrate, osteoclast-mediated mineral mobilization reached a maximal rate within 2 h, whereas organic matrix degradation appeared more slowly, reaching maximal rate by 12-24 h. Thereafter, the rates of organic and inorganic matrix resorption were essentially linear and parallel for at least 6 d when excess substrate was available. Osteoclast-mediated degradation of bone collagen was confirmed by amino acid analysis. 39% of the solubilized tritium was recovered as trans-4-hydroxyproline, 47% as proline. 10,000 osteoclasts solubilized 70% of the total radioactivity and 65% of the [3H]-trans-4-hydroxyproline from 100 micrograms of 25-50 micron bone fragments within 5 d. Virtually all released tritium-labeled protein was of low molecular weight, 99% with Mr less than or equal to 10,000, and 65% with Mr less than or equal to 1,000. Moreover, when the 14% of resorbed [3H]proline-labeled peptides with Mr greater than or equal to 2,000 were examined for the presence of TCA and TCB, the characteristic initial products of mammalian collagenase activity, none was detected by SDS PAGE. In addition, osteoclast-conditioned medium had no collagenolytic activity, and exogenous TCA and TCB fragments were not degraded by osteoclasts. On the other hand, osteoclast lysates have collagenolytic enzyme activity in acidic but not in neutral buffer, with maximum activity at pH 4.0. These data indicate that osteoclasts have the capacity to resorb the organic phase of bone by a process localized to the osteoclast and its attachment site. This process appears to be independent of secretion of neutral collagenase and probably reflects acid protease activity.
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PMID:Isolated osteoclasts resorb the organic and inorganic components of bone. 345 13

To facilitate the structural studies of invertebrate collagens, a sensitive and effective method was developed, using reverse-phase high-performance liquid chromatography for preparative isolation of the collagen subunits and their clostridial collagenase-derived peptides; the methods have been applied to Nereis cuticle collagen. The two subunits of denatured Nereis cuticle collagen, termed A and B, were initially separated by high-performance liquid chromatography. These polypeptides, with Mr of about 0.5 million, were each exhaustively digested with clostridial collagenase. The digest of the A subunit, which contains all of the uronic acid, was enriched for the uronic acid-containing glycopeptides by means of gel filtration. These glycopeptides were resolved into 23 major peaks, using reverse-phase HPLC, over a 5-h elution time, with an acetonitrile gradient (0-20%) containing 0.1% TFA. The amino acid composition data suggests that the peptides are of variable length, from 5 to 17 residues, while beta-elimination studies show that the uronic acid-containing moieties are all O-glycosidically linked to threonine residues, in the peptides examined. The amino acid sequence of one of the major glycopeptides was determined and found to be Gly-Hyp-Ala-Gly-Gly-Ile-Gly-Glu-Thr-Gly-Ala-Val-Gly-Leu-Hyp. The amino acid compositions of glycosylated and nonglycosylated peptides which had eluted, numbering about 100, showed a correspondence between hydrophobicity or hydrophilicity and emergence time from the column. We also found that the peptides most enriched in 4-hydroxyproline emerged earliest. These studies provide a foundation for elucidating the detailed structures of the large, unusual subunits of a well-characterized cuticle collagen.
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PMID:High-performance liquid chromatographic separation of glycopeptides from Nereis cuticle collagen. 609 22

The biosynthesis of collagen and fibronectin molecules by cultivated glomerular epithelial or mesangial cells was studied at confluency using radioactive proline or lysine as precursors. Collagen represented 0.5% of the total protein synthesized by the glomerular epithelial cells. About 60% of this collagenous protein were associated to the cell layer, whereas about 40% were secreted into the culture medium. Two major collagenous polypeptides were observed with apparent molecular weights of 185K and 170K, and were identified as two gene products of type IV procollagen. They exhibited ratios of 3- to 4-hydroxyproline, of total hydroxyproline to proline, and of hydroxylysine to lysine characteristic of type IV procollagen. They were degraded by bacterial collagenase. The patterns of peptides obtained after digestion of the 185K and 170K chains of this type IV procollagen with pepsin and V8 protease were identical to those obtained after digestion of type IV procollagen chains purified from a murine tumor (EHS sarcoma). Finally. a purified antibody to type IV collagen specifically immunoprecipitated the collagenous protein produced by the glomerular epithelial cells. By contrast, the mesangial cells synthesized about 5% of collagenous protein. 90% of this collagen were secreted into the cultured medium, whereas about 10% remained associated to the cell layer. Type I, III and IV procollagens were synthesized by the mesangial cells. Fibronectin was found in the medium and cell layer of both epithelial and mesangial cells. Fibronectin molecules were identified by their resistance to bacterial collagenase, their susceptibility to pepsin digestion, and their specific adherence to collagen. It was composed of disulfide-linked peptides of 220K daltons. The data therefore demonstrate that: (a) the glomerular epithelial and mesangial cells synthesize fibronectin molecules and type IV procollagen in vitro; (b) the cultivated mesangial cells also synthesize type I and III collagens. The implications of these findings in certain pathological circumstances, such as diabetes mellitus, are now being investigated.
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PMID:Synthesis of collagen and fibronectin by glomerular cells in culture. 732 12

The cuticle collagen of the vestimentiferan Riftia pachyptila, an organism which is endemic to deep-sea hydrothermal vents, has several unusual properties including an extraordinary length (1.5 microns), a high thermal stability (37 degrees C) in spite of a low 4-hydroxyproline content and an atypically high threonine content (20 mol%). We have now purified the constituent chain of cuticle collagen and show that it contains about 40% carbohydrate, which is mainly galactose, indicating that the chain has a molecular mass of approximately 750 kDa. Several large (30 to 150 kDa) fragments, which all contained carbohydrate, could be produced by cleavage with endoproteinase Lys-C, bacterial collagenase and cyanogen bromide (CNBr). Edman degradation of these and several smaller fragments was used to determine about 3000 sequence positions comprising 60% of the total triple-helical sequence. This demonstrated mainly typical Gly-X-Y triplet repeats with a few imperfections and a longer N-terminal non-triplet sequence. Most of the 4-hydroxyproline was found in triplet position X, where it decreases the stability of the triple helix. About 40% of the Y positions could not be identified, which correlated with a low abundance of threonine in the sequence and the demonstration of threonine in these positions after deglycosylation of several peptides by treatment with hydrofluoric acid. Matrix-assisted laser desorption ionisation mass spectrometry of selected peptides indicated that the blocked threonine residues are occupied by chains of one, two or three hexoses (presumably galactose). These glycosylated threonine residues in Y positions are therefore likely to replace 4-hydroxyproline as the major contributor to triple helix stabilization. Studies with a synthetic (Gly-Pro-Thr)10 oligopeptide demonstrated a low thermal stability of its triple helix which emphasizes a crucial role of glycosylation for stabilization.
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PMID:Glycosylated threonine but not 4-hydroxyproline dominates the triple helix stabilizing positions in the sequence of a hydrothermal vent worm cuticle collagen. 875 92

Collagens are among proteins that undergo several post-translational modifications, such as prolyl hydroxylation, that occur during elongation of the nascent chains in the endoplasmic reticulum. The major structural collagens, types I, II and III, have large, uninterrupted triple helices, comprising three polyproline II-like chains supercoiled around a common axis. The structure has a requirement for glycine, as every third residue, and is stabilized by the high content of proline and 4-hydroxyproline residues. Action of prolyl hydroxylases is critical. Spontaneous or targeted genetic defects in prolyl hydroxylases can be lethal or result in severe osteogenesis imperfecta. Prolines, as determinants of substrate specificity and susceptibility, also play a role in degradation of collagen by collagenolytic matrix metalloproteinases (MMPs). Targeted mutations in mice in the collagenase cleavage domain have profound effects on collagen turnover and the function of connective tissues. Prolines are thus critical determinants of collagen structure and function.
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PMID:The importance of proline residues in the structure, stability and susceptibility to proteolytic degradation of collagens. 1843 33