Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We have determined the complete sequence of the cDNA clone representing the full size human skin collagenase mRNA. Collagenase is synthesized in preproenzyme form, Mr 54,092, with a 19 amino acid long signal peptide. The primary secretion products of the enzyme consist of a minor glycosylated form, Mr 57,000, and a major unmodified polypeptide of predicted Mr 51,929. Proteolytic activation of human skin procollagenase results in removal of 81 amino acid residues from the amino-terminal portion of the proenzyme. Both potential N-glycosylation sites are contained within the proteolytically activated form of the enzyme. The primary structure of the coding region of the presented clone is homologous to an oncogene-induced rat protein whose function is still unknown, although preliminary observations suggest that it is not rat skin collagenase.
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PMID:Human fibroblast collagenase. Complete primary structure and homology to an oncogene transformation-induced rat protein. 300 63

Murine interleukin 1 (IL-1) is initially synthesized as a 270-amino acid precursor protein. Guided by amino-terminal end sequence analyses of mouse macrophage-derived IL-1, it was shown that expression of the carboxyl-terminal 156 amino acids (i.e., amino acids 115-270) of this precursor in Escherichia coli yields biologically active recombinant IL-1 (rIL-1) protein. To answer questions about precursor processing and the size of the smallest biologically active IL-1 fragment, we have engineered deletions of the rIL-1 (115-270) gene to encode two amino-terminal deletion analogs, rIL-1 (131-270) and rIL-1 (144-270), and a carboxyl-terminal deletion analog, rIL-1 (131-257, 270). The analogs were produced in E. coli, purified to homogeneity, and assayed for biological activity on murine thymocytes, human rheumatoid synovial cells, and human dermal fibroblasts and for their ability to bind to IL-1 receptors on murine EL-4 thymoma cells. The amino-terminal deletion analog rIL-1 (131-270) possessed a specific activity in the murine thymocyte proliferation assay equivalent to that of the 115-270 parent protein and exhibited significant biological activity in stimulating the production of collagenase and prostaglandin E2 by synovial cells and fibroblasts. The more extensive amino-terminal deletion analog rIL-1 (144-270) was inactive in all biological assays and failed to compete in the receptor binding assay. The carboxyl-terminal deletion analog rIL-1 (131-257, 270) competed less efficiently (by a factor of 100) in the receptor binding assay, retained weak biological activity on synovial cells and fibroblasts, and only demonstrated full intrinsic activity in the thymocyte proliferation assay when 100-200 times more protein was assayed. These results suggest that biologically active murine IL-1 polypeptides are at least 127 amino acids long and are derived from the carboxyl terminus of the 270-amino acid precursor. Furthermore, it appears that the integrity of the carboxyl terminus of the 270-amino acid precursor is important for activity but that different amino termini can be utilized to generate molecules with equivalent specific activities. This amino-terminal end flexibility supports a processing model for IL-1 maturation that partially explains IL-1 polypeptide heterogeneity.
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PMID:Structure-function analysis of murine interleukin 1: biologically active polypeptides are at least 127 amino acids long and are derived from the carboxyl terminus of a 270-amino acid precursor. 302 89

A collagenase inhibitor was purified from bovine cartilage by a combination of gel filtration, ion exchange, concanavalin A-Sepharose affinity chromatography, and elution from preparative sodium dodecyl sulfate-polyacrylamide gels. The inhibitor was purified 370-fold and migrated as a single polypeptide with an Mr of 19,000 on SDS-polyacrylamide gels. It stained positively for carbohydrate with periodic acid-Schiff's reagent and bound to lectins, indicating that it is a glycoprotein. The inhibitory activity was stable to heating up to 60 degrees C and between pH 4 and 10. The inhibition of collagenase by the cartilage inhibitor could not be reversed by trypsin or mersalyl. The inhibitory activity did not require the presence of free sulfhydryl groups, and it could be removed from the cartilage extract by incubating with native collagen, suggesting that the inhibitor binds to collagen. The cartilage inhibitor was effective against human and mouse interstitial collagenases, but it did not inhibit trypsin or bacterial collagenase.
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PMID:A vertebrate interstitial collagenase inhibitor from bovine scapular cartilage: purification and characterization. 303 Apr 45

Human skin collagenase is secreted by cultured fibroblasts in a proenzyme form and can be activated to a catalytically competent enzyme by a number of processes. All modes of activation studied lead to conversion of the proenzyme to a stable 42-kDa active enzyme, concomitant with removal of an 81-amino acid peptide from the amino-terminal end of the molecule. The sequence of events leading to the formation of this enzyme form has been determined by analyzing the primary structure of the conversion intermediates. Trypsin-induced activation of procollagenase occurs as a result of the initial cleavage of the peptide bond between Arg-55 and Asn-56, generating a major intermediate of 46 kDa. Treatment of the proenzyme with organomercurials, which have no intrinsic ability to cleave peptide bonds, initially results in activation of the enzyme without loss of molecular weight. This is followed by conversion to two lower molecular weight species of 44 and 42 kDa, the latter corresponding to the stable active enzyme form. The final cleavage producing this form of collagenase is not restricted to a single polypeptide bond but can occur on the amino-terminal side of any one of three contiguous hydrophobic residues, Phe-100, Val-101, Leu-102. The data suggest that both trypsin and organomercurials activate procollagenase by initiating an intramolecular autoproteolytic reaction resulting in the formation of a stable 42-kDa active enzyme species.
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PMID:The activation of human skin fibroblast procollagenase. Sequence identification of the major conversion products. 303 47

The enhancer-binding protein AP-1 has been purified to greater than 95% homogeneity from HeLa cells by sequence-specific DNA affinity chromatography and identified as a 47 kd polypeptide. Purified AP-1 activates transcription in vitro of the wild-type human metallothionein IIA (hMT IIA) gene but not mutant hMT IIA promoters lacking AP-1 recognition sites. DNAase I protection analysis indicates that genetically defined enhancer elements in hMT IIA, SV40, and the human collagenase gene contain high-affinity AP-1-binding sites, each with a conserved recognition motif, TGACTCA. These three genes are transcriptionally induced by treatment of cells with the tumor promoter TPA. Here we demonstrate that multiple synthetic copies of the consensus AP-1-binding site can act as TPA-inducible enhancers in various plasmid constructs after transfection into HeLa cells. These findings suggest that AP-1 is a transcription factor that functions by interacting with a specific enhancer element, and that its activities may be modulated by treatment of cells with TPA, known to stimulate protein kinase C.
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PMID:Purified transcription factor AP-1 interacts with TPA-inducible enhancer elements. 303 33

Latent human leukocyte collagenase was isolated to apparent homogeneity by a simple and rapid method. Isolation was accomplished by gel filtration on Sepharose 6B and ion exchange chromatography on QAE Sephadex A-50 followed by affinity chromatography on Cibacron Blue Sepharose. The purified latent enzyme exhibits an apparent molecular weight of 70 kD as estimated by SDS-polyacrylamide gel electrophoresis. Reduction with dithiothreitol does not change the mobility of the latent human leukocyte collagenase on SDS-polyacrylamide gel electrophoresis, indicating that the enzyme consists of a single polypeptide chain. The enzyme could be activated by trypsin and thiol reagents such as phenylmercuric chloride and N-ethylmaleimide. Upon activation by trypsin a 54 kD polypeptide was formed from the 70 kD latent enzyme. Concomitant with the activation by thiol reagents, no loss of molecular weight was detected. Inactivated trypsin, i.e. phenylmethyl sulfonyl-trypsin or soybean trypsin inhibitor treated trypsin, was not able to activate latent human leukocyte collagenase. The results support the concept that latent human leukocyte collagenase exists as a proenzyme and thiol-dependent activation occurs through conformational perturbation in the proenzyme molecule.
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PMID:Activation of latent collagenase purified from human leukocytes. 303 86

The question of whether the Ca2+ ionophore A23187 affects collagen production relative to total protein synthesis or has possible effects on collagen degradation was investigated. Cultured normal human fibroblasts were incubated with radioactive proline, and the radioactivity of collagenase-sensitive and -resistant proteins was used to calculate the rates of protein production. The net production of collagen relative to total proteins was inhibited by A23187 in a dose-related manner, and 50% inhibition of basal collagen production was achieved with 0.6 microM A23187. There was a 70% decrease in the absolute rate of collagen production in the presence of 0.6 microM A23187 which represented a 4-fold greater inhibition of collagen production than of noncollagen protein production. The major mechanism for the decreased net production of collagen was decreased synthesis, rather than increased degradation. Ca2+ mobilization induced by cholecystokinin octapeptide was also associated with selective inhibition of collagen production in normal human fibroblasts. These studies establish that the Ca2+ ionophore A23187 induces a selective decrease in collagen polypeptide synthesis by normal human fibroblasts and suggest a modulatory role of Ca2+ on collagen metabolism.
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PMID:Selective inhibition of collagen synthesis by the Ca2+ ionophore A23187 in cultured human fibroblasts. 309 97

We have recently purified a novel pituitary polypeptide, designated 7B2. Subsequently, we developed a sensitive and specific radioimmunoassay (RIA) for this novel polypeptide. Our aim in the present study was to investigate the release of 7B2 from rat pituitary induced by various hypothalamic factors [luteinizing hormone-releasing factor (LH-RH), corticotropin-releasing factor (CRF), and growth hormone-releasing factor (GRF)]. The anterior pituitaries were removed from rats and immediately dispersed enzymatically (a mixture of collagenase/dispase/deoxyribonuclease/chicken serum) and plated on collagen-coated multiwell plates in culture medium containing 10% fetal bovine serum. After 2 days of attachment period, the medium was replaced with fresh medium every 24 h. The primary cell culture was incubated with various concentrations of LH-RH, CRF or GRF. Subsequently, the concentrations of IR-7B2, IR-LH, IR-FSH, and IR-ACTH released into the medium were quantified by specific RIA. LH-RH, at a concentration as low as 7.5 ng/ml (6 X 10(9) M: dose range 7.5-60 ng/ml) stimulated the release of IR-7B2, IR-LH, and IR-FSH, by 2- to 3-fold, 17- to 18-fold, and 3-fold, respectively, over basal levels. No significant increase of IR-7B2 was observed when stimulated by CRF or GRF at doses as high as 100 ng/ml. In addition, K+ (50 mM) stimulated the release of all the peptides measured. In conclusion, our studies suggest that the novel peptide 7B2 is under LH-RH control and indirectly confirm the immunohistochemical results of its cellular co-localization in FSH and LH cells.
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PMID:Specific release of a novel pituitary polypeptide, 7B2, from rat anterior pituitary cells in vitro by luteinizing hormone-releasing hormone. 310 Sep 76

Hepatic lipase, a glycoprotein synthesized and secreted by the hepatocyte, binds to sinusoidal endothelium where it is involved in metabolism of lipoprotein phospholipid and triglyceride. To better understand the regulation of hepatic lipase, we investigated the synthesis, post-translational processing, and secretion of the enzyme by isolated rat hepatocytes. Metabolically labeled [35S]methionine hepatic lipase protein, produced by the collagenase-dispersed hepatocytes, was immunoisolated from detergent-solubilized cells and incubation medium at designated times, using a polyclonal rabbit anti-rat hepatic lipase antibody raised against hepatic lipase purified to homogeneity from rat liver post-heparin perfusates. Following polyacrylamide gel electrophoresis and fluorography, radiolabeled hepatic lipase was quantitated by densitometry. Newly synthesized hepatic lipase was rapidly secreted and accumulated in the medium as a 59,000-dalton protein in a manner consistent with a constitutive process. An intracellular 53,000-dalton precursor of the mature 59,000-dalton hepatic lipase was identified by immunoprecipitation. The 53,000-dalton form could also be generated by endoglycosidase digestion of the secreted 59,000-dalton protein. In pulse-chase experiments, the 53,000-dalton protein was converted into the 59,000-dalton form. A 47,000-dalton form of hepatic lipase was immunoisolated from cell lysates only after tunicamycin treatment and could be generated from the secreted 59,000-dalton enzyme by prolonged endoglycosidase digestion. These data show that hepatic lipase is synthesized and rapidly secreted by isolated rat hepatocytes. Further, an intracellular 47,000-dalton precursor peptide can be identified after tunicamycin treatment, which may represent the hepatic lipase polypeptide, presumably after removal of its signal sequence; a 53,000-dalton partially glycosylated peptide exists as a major precursor form in the cell; and the mature 59,000-dalton hepatic lipase is present in the hepatocyte, but it is rapidly secreted.
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PMID:Hepatic lipase. Synthesis, processing, and secretion by isolated rat hepatocytes. 310 30

Synaptophysin is a major glycoprotein of Mr approximately 38,000 (in deglycosylated form: Mr approximately 34,000) characteristic of a certain class of small (30-80 nm diameter) neurosecretory vesicles, including presynaptic vesicles, but also vesicles of various neuroendocrine cells of both neuronal and epithelial phenotype. Using synaptophysin-specific antibodies we have isolated cDNA clones from rat nervous tissue libraries, which identify an approximately 2.5-kb mRNA in rat and human cells, including neuroendocrine tumours, that contains a reading frame for a polypeptide of 307 amino acids with a total mol. wt of 33 312. The deduced amino acid sequence, which was partly confirmed by comparison with sequences of two tryptic peptides obtained from purified synaptophysin, revealed four hydrophobic regions of 24 amino acids each, which are characterized, according to conformation prediction analyses, by marked alpha-helicity. The sequence shows a single potential N-glycosylation site, which is assigned to the vesicle interior, and a carboxy-terminal tail of 89 amino acids which contains glycine-rich tetrapeptide repeats, the epitope of monoclonal antibody SY38, and a number of collagenase-sensitive sites accessible on the surface of the intact vesicles. These features suggest that the polypeptide spans the vesicle membrane four times, with both N and C termini located on the outer, i.e. cytoplasmic, surface of the vesicles.
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PMID:Synaptophysin: molecular organization and mRNA expression as determined from cloned cDNA. 312 15


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