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)

Extracellular matrix vesicles from bone and epiphyseal cartilage of femur and tibia of rats were isolated by collagenase digestion (crude vesicles) and further purified by sucrose gradient centrifugation. Fractions containing cells and membranes were also isolated from the two tissues. The alkaline and acid phosphatase and ATPase activities, as well as protein content of all fractions including crude and purified matrix vesicles, were assayed. The crude vesicles from both tissues demonstrated a high alkaline phosphatase specific activity (5-20 times higher than in the cell fraction). The total enzyme activities and protein content were significantly higher in all fractions from cartilage than those from bone. A major peak of alkaline phosphatase activity and protein content was obtained following the sucrose gradient centrifugation. The position of this peak was similar for both tissues. The specific activity of alkaline phosphatase of purified matrix vesicles was significantly higher in bone than in cartilage. The phosphatase activities from cartilage and bone showed a similar pH dependence and a similar response to metal ions. Of the metal ions tested (Na+, Mg2+, Zn2+, and Ca2+) only Zn2+ (at 5 mM concentration) inhibited significantly the alkaline phosphatase activity of purified matrix vesicles. The electrophoretic profile of purified matrix vesicles showed eight major protein bands common for both tissues. In addition, cartilage vesicles appeared to possess two peptides not found in bone.
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PMID:Biochemical characterization of matrix vesicles from bone and cartilage. 623 53

Exocellular protease production was examined in two separate strains of Pseudomonas aeruginosa, one a clinical isolate and the other a laboratory strain. Both strains produced two separate proteases (proteases 1 and 2) which were indistinguishable from one strain to the other. The two proteases were purified by a two-step procedure of gel filtration chromatography followed by ion-exchange chromatography. Proteases 1 and 2 were shown to be distinct serologically and unrelated by physiochemical parameters examined. Protease 1 was the major exocellular protein produced and contributed about 95% of the total protease activity of the culture. It was etimated to have a molecular weight of 34850 and was also shown to contain 10% glucosamine by weight. Protease 2, in contrast, had an estimated molecular weight of 52750 and contained no detectable carbohydrate. Proteases 1 and 2 were both stimulated by Ca2+, and Mg2+ and inhibited by Co2+Zn2+, and 1,10-o-phenanthroline. Protease 1 was also inhibited by EDTA. In addition to protease activity, both proteases 1 and 2 demonstrated elastase activity as well as a limited collagenase activity. Specificity of the two protease against synthetic peptides was, however, quite different. Protease 1, but not protease 2, showed a preference for peptide bonds in which the amino group was contributed by an amino acid with a hydrophovic R group.
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PMID:Purification and characterization of exocellular proteases produced by a clinical isolate and a laboratory strain of Pseudomonas aeruginosa. 625 Jun 87

A messenger RNA fraction isolated from cultured Chinese hamster lung (CHL) cells programs in a cell-free system prepared from wheat germ the efficient incorporation of [14C] proline into newly synthesized protein with a significant fraction of the incorporated substrate being digestible with bacterial collagenase. This reaction requires both subcellular fractions, an energy source, and is inhibited by the antibiotic puromycin. The relative amount of collagenase-digestible to non-digestible cell-free product depends upon the ratio of CHL mRNA to wheat germ lysate, is not affected by either the Mg2+ or K+ concentrations employed, and under optimal condition, approximately 38% of the total incorporated substrate is collagenase-sensitive. Electrophoresis on SDS-polyacrylamide gels of the products programmed by CHL mRNA indicates that the collagenase-digestible material corresponds in size to a procollagen chain with an apparent molecular mass of approximately 170,000 daltons. These studies suggest that the collagen alpha 1 (V) chain is initially synthesized as a precursor procollagen chain and demonstrate that a significant amount of the mRNA in Chinese hamster lung cells codes for this protein.
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PMID:Cell-free synthesis of putative type V procollagen chains programmed by Chinese hamster lung cell mRNA. 628 32

Decapsulated testes from adult rats were digested with collagenase, and the fraction enriched in germinal and Leydig cells was applied to a 0-4% continuous metrizamide gradient and centrifuged. This leads to separation of a germinal cell fraction and two putative Leydig cell populations that bind human choriogonadotropin, but only one of which responds to the gonadotropin with marked increase in testosterone production. Adenylate cyclase activity was present in these three fractions, and Mn2+ was more effective than Mg2+ as a divalent cation. The adenylate cyclase activity associated with the germinal cell fraction was just marginally stimulated by fluoride and by the non-hydrolyzable GTP analog 5'-guanylimidodiphosphate, while that associated with the Leydig cell populations was stimulated to a greater degree depending upon the type of divalent cation. Only the Leydig cell populations exhibited marked human choriogonadotropin-sensitive stimulation of adenylate cyclase activity in the presence of 5'-guanylimidodiphosphate above that observed with the GTP analog alone. These results suggest the presence of distinct adenylate cyclases in adult rat testis and indicate that both populations of Leydig cells are capable of producing cyclic AMP in response to gonadotropins such as human choriogonadotropin.
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PMID:Demonstration of distinct forms of testicular adenylate cyclases associated with germinal and Leydig cell fractions. 628 12

The incorporation of methionine, lysine, and leucine into protein was studied in Ca2+-depleted and Ca2+-restored preparations of C-6 glial tumor cells in minimal medium. Although incorporation proceeded at linear rates in both preparations for more than 1 h and into the same spectrum of proteins, Ca2+-restored cells incorporated amino acid 5- to 10-fold more rapidly than Ca2+-depleted cells. Addition of approximately 200 microM Ca2+ in excess of chelator was required to achieve maximal rates of incorporation in Ca2+-depleted preparations. Stimulation by Ca2+ was rapid in onset (several minutes) and slowly reversible by chelator. Ca2+ was uniquely potent and specific among physiologically occurring cations in conferring such stimulation. Stimulation of amino acid incorporation by Ca2+ occurred over a broad range of pH and osmolarities and was facilitated by Mg2+. The effects of Ca2+ in stimulating amino acid incorporation were not traceable to changes in cAMP metabolism, amino acid uptake, protein catabolism, cell ATP or GTP content, or aminoacylation of transfer RNA. Actinomycin D (1 microgram/ml) did not block the stimulatory effects of Ca2+ although puromycin and cycloheximide did. The stimulatory effects of Ca2+ on protein synthesis were not restricted to C-6 in minimal medium. Protein synthesis was reduced by ethylene glycol bis(B-aminoethyl ether)-N,N,N',N'-tetraacetic acid 40 to 75% in C-6 glioma, GH3 pituitary tumor, PC-12 adrenal tumor, N2A neuroblastoma, and HeLa cells incubated under simulated growth conditions with various enriched media and sera. Ca2+-depleted S49 lymphoma, CHO ovarian tumor, and normal, dispersed chicken embryo cells in enriched medium responded to Ca2+ restoration with increased rates of protein synthesis as did collagenase-dispersed normal rat liver cells in minimal medium. Protein synthesis in rabbit reticulocyte lysates was also inhibited by Ca2+-selective chelators or by Ca2+ removal by parvalbumin affinity chromatography and the inhibition was reversed by Ca2+. These findings are consistent with the existence of a Ca2+ requirement in the translational phase of protein synthesis in eukaryotic cells.
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PMID:Identification of a Ca2+ requirement for protein synthesis in eukaryotic cells. 631 27

Properties of isolated single smooth muscle cells in which the surface membrane has been made highly permeable by saponin treatment are described. The single cells were isolated from guinea pig taenia caeci by digestion with collagenase and skinned in a relaxing solution by treatment with 7 micrograms/ml saponin for 10 min. The skinned single cells showed Ca2+-regulated shortening in the presence of Mg-ATP, and the maximum degree of shortening was larger than that of the potassium-induced shortening observed in the intact isolated single cells. The half maximum shortening of the skinned single cells occurred at about 5 x 10(-8) Ca2+. The skinned single cells showed a significantly higher Ca2+-sensitivity than the skinned fiber bundles. The shortening-pCa curve for the skinned single cells was unchanged by alteration of pH and ionic strength, but it was shifted to the left by increasing MgATP concentration or to the right by increasing free Mg2+ concentration. The skinned single cells retained their internal Ca2+ storage site function. Caffeine induced shortening in the skinned single cells preloaded with Ca2+, and this shortening was suppressed by procaine. The release of Ca2+ from the storage site could be produced and facilitated by Ca2+ itself when the skinned single cells were exposed to Ca2+ with a concentration of about 2 x 10(-8) M and this release was suppressed by procaine. These results suggest that the Ca2+-induced Ca2+ release mechanism may play a role in the regulation of the stored Ca2+ in this cell.
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PMID:Some properties of chemically skinned single smooth muscle cells. 633 46

A modified method for isolation and culture of a pure population of rat Leydig cells is described. For obtaining crude interstitial cell suspension, decapsulated testes were dispersed in 0.02% collagenase solution in Ca2+, Mg2+--free Hanks medium for 1 hour. Then, approx. 5 X 10(7) cells were centrifuged in 10-90% discontinuous, isoosmotic Percoll gradient at 3000 g for 20 min. The cells from eight fractions obtained were collected and cultured in Eagle's MEM for 4 days. Using morphological methods, 1.059-1.070 g/ml density fraction contained 97% and 1.070-1.080 g/ml fraction contained 90% viable Leydig cells. The cells secreted testosterone to the culture medium and responded to LH stimulation with over four-fold increase in hormone secretion.
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PMID:The modified method for isolation and culture of highly homogeneous Leydig cell population from rat testes. 639 23

Calf aortic smooth muscle cell cultures produce both type III and type I collagen. Polyadenylated mRNA species purified from these cells direct the synthesis of prepro-alpha 1(III), prepro-alpha 1(I), and prepro-alpha 2(I) in a rabbit reticulocyte cell-free system. These polypeptides were identified by specific immunoprecipitation, cyanogen bromide peptide mapping, and bacterial collagenase digestion. Lower molecular weight collagenase susceptible polypeptides were also produced in translation reactions incubated under conditions optimized for incorporation of radiolabeled amino acids. Their presence did not appear to result from ribonuclease or protease involvement or from premature termination. Increasing the Mg2+ concentration in the translation system significantly reduced the production of these lower molecular weight species. Pulse-chase experiments indicate that the time required for completion of full length preprocollagen at the high Mg2+ concentration is greatly decreased compared to the low concentration. Additional experiments suggest that the incomplete collagen polypeptides result from pausing of ribosome movement during elongation. The relative synthesis of type III and type I chains was examined as a function of mRNA concentration in the cell-free system. At levels of RNA above saturation, the relative production of type III decreased with respect to type I. These data suggest that the ability of the alpha 1(III) mRNA to initiate translation is less efficient than the mRNAs of alpha 1(I) and alpha 2(I).
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PMID:Cell-free translation of calf type III collagen. Effect of magnesium on ribosome movement during elongation. 661 53

Isolated chick embryo tendon cells were used in [14C]proline and [14C]lysine labelling experiments to investigate the effect of divalent cations on collagen biosynthesis with a special reference to prolyl hydroxylation and lysyl modifications. The following metals were studied by adding them to the incubation medium of the cells: Ca2+, Cd2+, Co2+, Hg2+, Mg2+, Mn2+, Ni2+, Pb2+ and Zn2+. Zn2+ caused a potent reductin in collagen prolyl hydroxylation with a concomitant increased cellular retention of collagenase-digestible material. These effects were detectable even at physiological concentrations. At the same concentrations of Zn2+, lysyl hydroxylation was considerably less inhibited than prolyl hydroxylation, and the extent of hydroxylysyl glycosylation was even increased. Co2+ was also an efficient inhibitor of collagen prolyl hydroxylation, but at concentrations ten times higher than those of Zn2+. In the presence of other metal ions, no or only up to 10% inhibition of prolyl hydroxylation was noted even at those concentrations at which [14C]proline incorporation into the protein was decreased. However, an increased cellular retention of collagen was detected in the presence of some metal ions. No reduction in lysyl hydroxylation was found in the presence of Ca2+ or Mg2+.
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PMID:Effects of divalent cations on collagen biosynthesis in isolated chick embryo tendon cells. 677 78

An estrogen-responsive mouse Leydig cell tumor line (Tumor 124958) has been shown to contain only a low-affinity binder for estradiol in the cytosol fraction. This differed from the putative estrogen receptor in terms of its hormone-binding specificity as well as affinity. In addition, the possibility that an estrogen receptor-like molecule exists in the nuclei even without hormonal stimuli was examined using purified nuclei. Scatchard plot analyses showed that these nuclei possessed a large amount of estrogen binder having a high affinity for estradiol and diethylstilbestrol. The content of this nuclear binding component was not diminished by using molybdate, a potent inhibitor for receptor activation, and in vitro incubation of collagenase-dispersed cells with estradiol did not cause significant increase in the number of nuclear binding sites when compared with the values obtained by direct incubation of isolated nuclei with estradiol. These results support the view that this nuclear estrogen binder is not due to artificial migration of the cytosol receptor into nuclei during homogenization. The characterization of this nuclear binding component under cell-free conditions revealed that its affinity for estradiol in Mg2+-containing buffer was temperature dependent (Kd 3 nM at 30 degrees and 12 nM at 0 degrees) without significant alteration in the number of maximum binding sites. Introduction of a chelating agent (ethylenediaminetetraacetate) into the buffer system abolished the temperature effect on the affinity, resulting in high affinity for estradiol at both low and high temperatures. These Mg2+ and temperature effects were reversible. In addition, when compared with putative nuclear estrogen receptors, this nuclear binding was observed to be relatively resistant to high salt or micrococcal nuclease treatments in relation to solubilization from nuclei. However, trypsin digestion was found to result in a marked decrease in the nuclear binding sites, indicating that this unique nuclear binding component contains a protein unit(s). These results suggest the possibility that this tumor line contains a unique unoccupied nuclear estrogen binder which might be able to transmit estrogen signals to tumor cell nuclei with regard to tumor growth.
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PMID:Characterization of a unique nuclear estrogen-binding component in an estrogen-responsive mouse Leydig cell tumor. 687 50

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