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)

The effects of ascorbic acid deficiency on growth and calcification of bone were studied in whole 18-day fetal rat radii and ulnae cultured in a chemically defined medium. Ascorbic acid deficiency decreased the formation of labeled hydroxyporline from labeled proline in both bone shafts and cartilage ends while incorporation of tryptophan was maintained. Dry weights and collagen content of bone and cartilage were decreased, but calcification was not affected. The optimun initial concentration of ascorbic acid for collagen synthesis was 200 mug/ml. The effect of ascorbic acid was not antagonized by glucoascorbic acid or replaced by dithiothreitol. Decreased collagen synthesis in ascorbic acid deficiency could not be ascribed to loss of available peptidyl proline hydorxylase. Formation of underhydroxylated collagen and its release into the medium accounted for much of the decrease in hydroxylated collagen in ascorbic acid deficient bones. Nevertheless, the total newly synthesized collagen, as measured by collagenase digestion, was still decreased. Similar effects were exerted by alpha, alpha'-dipyridyl which also inhibited general protein synthesis. Ascorbic acid did not stimulate proline incorporation into collagen in the presence of alpha, alpha'-dipyridyl.
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PMID:The effects of ascorbic acid deficiency on calcium and collagen metabolism in cultured fetal rat bones. 16 34

Collagen-synthesizing polysomes were isolated by low-speed centrifugation of the post-mitochondrial supernatant of chick homogenates. Electron microscopy of the fraction thus isolated shows it to be exclusively composed of ribosomes. Amino acid incorporation in vitro showed that these particles were efficient in the incorporation of proline, but not tryptophan, as opposed to ribosomes obtained from the supernatant of the low-speed centrifugation. The incorporation process was highly dependent on GTP, and exibited an optimal Mg2+concentration of 5.6mM. The reaction was inhibited by RNase, elongation inhibitors as anysomycin, sparsomycin, fusidic acid and GDPCP. It was also moderately inhibited by initiation inhibitors such as aurintricarboxilic acid and pyrocatechol violet. The product of the incorporation was characterized as collagen by its sensitivity towards purified collagenase, lack of tryptophan, chromatography in CM-cellulose and molecular sieve chromatography in Sephadex G-200.
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PMID:Isolation and characterization of collagen-synthesizing polysomes from chick embryos. 16 69

A three stage procedure for the purification of crude bacterial collagenase is described. The three stages were ion exchange chromatography on SP-Sephadex and DEAE-cellulose, followed by molecular sieve chromatography on Sephadex G-200. The end product was eluted from Sephadex G-200 as a single peak of absorbance at 280 nm, and a single zone of activity against gelatin. The active eluate was divided into two halves, designated fraction 1 and 2 collagenase. Their activities were greater than those of commercially available collagenases when assayed viscometrically against pepsin solubilized collagen from guinea-pig skins. The non-specific protease activities in both fractions were much less than in the commercially available purified collagenases, and fraction 1 collagenase liberated only 2.6% of a [3H]-tryptophan label from a substrate of 2 mg of labelled chick embryo proteins, after an 18 hour incubation. When polymeric collagen was incubated with fraction 1 collagenase, at a final enzyme : substrate ratio of 1:160, the collagen was digested, resulting in the loss of 99.8% hydroxyproline as dialysable material.
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PMID:The preparation of a bacterial collagenase containing negligible non-specific protease activity. 17 Jun 2

The genetic type and molecular structure of the precursor forms of collagen synthesized by matrix-free tendon cells isolated from 17-day old chick embryos were examined by chromatographic and electrophoretic techniques. The [14C]proline-labeled collagenous proteins secreted by the cells resolved on diethylaminoethylcellulose into two peaks, A and B. Both peaks contained type I collagenous proteins since on chromatography on carboxymethylcellulose, after limited pepsin proteolysis, both peaks contained alpha1 and alpha2 chains of collagen in a 2:1 ratio, and cyanogen bromide peptide maps of the 14C-labeled protein in both peaks were similar to cyanogen bromide peptide maps derived from authentic type I collagen. Enzymatic digestion with purified mammalian collagenase demonstrated that the collagen precursor in peak B contained noncollagenous peptide extensions at both the amino- and carboxy-terminal ends of the molecule, while peak A had only carboxy-terminal extension peptides. Although both the amino- and carboxy-terminal extensions incorporated radioactive cystine, only the carboxy-terminal extensions contained interchain disulfide bonds. The carboxy-terminal extensions were also shown to incorporate radioactive tryptophan. Since most of the precursor forms of collagen recovered in the incubation medium chromatographed in peak B, it is concluded that matrix-free tendon cells secrete only type I procollagen with extension peptides at both the amino- and carboxy-terminal ends of the molecule.
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PMID:Characterization of procollagen synthesized by matrix-free cells isolated from chick embryo tendons. 18 99

Chemical and enzymatic properties of four collagenases newly isolated from anaerobic Clostridium histolyticum, aerobic Achromobacter iophagus, and from two lower eucaryotes, the fungus Entomophthora coronata and the insect Hypoderma lineatum are reviewed. The problems of their biosynthesis and precursors, namely the effect of induction of collagenase and neutral proteinase in Achromobacter by their macromolecular substrates are discussed. The two bacterial collagenases are Zn-metallo-enzymes; the highly purified Clostridium collagenase contains cyst(e)ine, serine phosphate and tryptophan additionally to amino acids reported previously. Achromobacter collagenase has the highest specific activity of all collagenases; it yields by autolysis enzymatically active degraded forms. The active dimer is composed of two identical subunits of molecular weight 35,000. Similarities between Achromobacter collagenase, thermolysin and Bacillus subtilis neutral proteinase in molecular weight, amino acid composition, and amino acids important for the active sites are discussed. The two collagenases from low eucaryotes are serine proteinases; Hypoderma collagenase is homologous to the trypsin family in the amino terminal sequence. The initial cleavage of native collagen by highly purified bacterial collagenases occurs in the central helical part of the alpha chains and not progressively from the amino terminal end. One of the two initial cleavages produced by Achromobacter collagenase is situated in the region cleaved specifically by vertebrate collagenases, but with different bond specificity. The same is true for the insect collagenase. Entomophthora collagenase is a proteinase of broad specificity which also cleaves collagen in its helical parts. All four collagenases also degrade other proteins according to their bond specificity.
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PMID:Some newly characterized collagenases from procaryotes and lower eucaryotes. 22 May 20

In this work we have investigated the effect of serotonin on glucagon release in mouse pancreatic islets isolated by the collagenase technique. Incubation of the islets with serotonin (4 X10(-3)mol/l) was associated with an inhibition of glucagon output both in the basal medium (3.3 mmol/l glucose) and in the presence of arginine (10 mmol/l). The inhibitory effect of serotonin on basal glucagon release was also apparent at concentrations of 2 X10(-3) mol/l, 10(-3)mol/l and 5 X 10(-4) mol/l. Addition of 5-hydroxytrypophan (4 X10(-3) mol/l) to the incubation medium was without effect on basal glucagon output while it significantly reduced arginine-induced glucagon release. In contrast, tryptophan (4 X10(-3) mol/l) provoked glucagon secretion. As inferred from our previous human studies, the present data indicate that serotonin is able to inhibit glucagon secretion. These findings provide further support for the participation of a serotoninergic mechanism in the control of A-cell function.
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PMID:Inhibition of glucagon release by serotonin in mouse pancreatic islets. 33 6

1. Isolated parenchymal cells were prepared by collagenase perfusion of livers from fed rats that had been previously injected with [(3)H]leucine to label liver proteins. When these cells were incubated in a salts medium containing glucose, gelatin and EDTA, cellular integrity was maintained over a period of 6h. 2. Cells incubated in the presence of 2mm-leucine to minimize radioactive isotope reincorporation released [(3)H]leucine into the medium at a rate accounting for the degradation of 4.5% of the labelled cell protein per h. 3. Degradation of [(3)H]protein in these cells was inhibited by insulin and by certain amino acids, of which tryptophan and phenylalanine were the most effective. 4. Protein degradation was decreased by several proteinase inhibitors, particularly those that are known to inhibit lysosomal cathepsin B, and by inhibitors of cell-energy production. 5. Ammonia inhibited degradation, but only at concentrations above 1.8mm. Aliphatic analogues of ammonia were effective at lower concentrations than was ammonia. 6. High concentrations of ammonia inhibited degradation by 50%. The extent of this inhibition could not be increased further by the addition of the cathepsin B inhibitor leupeptin, which by itself inhibited degradation by approx. 30%. 7. The sensitivity of proteolysis in isolated hepatocytes to these various inhibitory agents is discussed in relation to their possible modes of action.
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PMID:Inhibition of protein degradation in isolated rat hepatocytes. 88 Feb 45

Procollagen, the triple-stranded precursor of chick embryo skull bone collagen, contains two pro alpha1 and one pro alpha2 chains. We find that each of these is a collagen chain with both an NH2-terminal and a COOH-terminal extension peptide. The NH2-peptide of pro alpha1 contains cysteine and differs from the NH2-peptide of pro alpha2. The three NH2-peptides are cut off, giving a disulfide-linked intermediate, named altered procollagen; then the disulfide-linked COOH-peptides, which contain cysteine and tryptophan, are cut off, leaving collagen. Procollagen, altered procollagen, and COOH-peptide were isolated. Collagenase digestion of procollagen gave both NH2- and COOH-peptides, while altered procollagen gave only COOH-peptides. The following results of sequential, in vitro labeling at 37 degrees and of specific cleavage of procollagen proved the structure: [(NH2-peptide)-collagen-(COOH-peptide)]3 with interstrand S-S links between only the COOH-peptides. (i) The COOH-peptides of pro alpha chains were labeled with [3H]proline before the remainders of the chains; (ii) [35S]cysteine appeared in the COOH-peptides of completed covalent molecules 5 min earlier than in the NH2-peptides; (iii) tadpole tail collagenase, which cuts native collagen into triple-stranded 3/4 pieces containing the NH2 termini and 1/4 pieces containing the COOH ends, cuts procollagen into 3/4 pieces with NH2-peptides attached and 1/4 pieces attached to the disulfide-linked COOH-peptides. The COOH-peptides of pro alpha 1 and pro alpha2 were labeled in a 2:1 ratio at 4 min, indicating simultaneous translation of pro alpha1 and pro alpha2.
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PMID:Procollagen: biological scission of amino and carboxyl extension peptides. 106 Oct 79

Viable pancreatic islets were isolated from the pancreas of humans using modifications of the collagenase digestion and Ficoll gradient techniques. Gel filtration of tissue extracts following islet incubation in the presence of 3H- tryptophan indicated that radioactivity becomes incorporated into at least two islet proteins. The larger of the two (LGI) has the approximate molecular size of proinsuiln and the smaller coelutes with glucagon as determined by column standardization. Radioimmunoassay of the gel filtration eluate for glucagon revealed that both molecules have glucagon immunoreactivity. Gel filtration in the presence of 8M urea did not alter the elution pattern of the LGI molecule. Polyacrylamide gel electrophoresis was performed on these glucagon immunoreactive molecules. The 3H radioactivity and the glucagon immunoreactivity of the smaller molecule were found to co-migrate electrophoretically with crystalline porcine glucagon and monodesamidoglucagon. With electrophoresis at high pH the electrophoretic mobility of the LGI molecule proved to be lower than that of glucagon. Partial tryptic degradation of the human LGI molecule yields 3H-tryptophan labeled products having charge and immunologic characteristics indistinguishable from porcine glucagon and monodesamidoglucagon. Although further investigation is indicatend may thus serve as a precursor or an intermediate in human glucagon biosynthesis.
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PMID:Glucagon biosynthesis in human pancreatic islets: preliminary evidence for a biosynthetic intermediate. 109 15

Chick embryo collagen-synthesizing polysomes were isolated by differential centrifugation. RNA extracted from these particles was chromatographed in oligo(dT)-cellulose solumns and the mRNA thus obtained characterized as collagen mRNA by its electrophoetical mobility in acrylamide gels (equivalent to 1.05 x 10-6 daltons) and its effect upon a cell-free system derived from Krebs ascites tumor cells. The incorporation of 3H-proline was markedly dependent upon rabbit reticulocyte initiation factors and inhibited by initiation inhibitors such as aurintricaboxilate and pyrocatechol violet. The incorporation product was characterized as collagen by its lack of tryptophan, digestibility by purified bacterial collagenase, and by its co-chromatography with unlabled chick collagen in Sephadex G-200 and CM-cellulose columns.
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PMID:Isolation and characterization of collagen messenger RNA*. 114 59

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