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)

Hepatocyte-stimulating factor, interferon-beta 2, B-cell stimulation factor 2, and hybridoma/plasmacytoma growth factor are identical proteins presently referred to as interleukin 6 (IL-6). Through the use of synthetic oligonucleotide technology, we have constructed a biologically active recombinant IL-6 (rIL-6) gene based on the sequence of a human IL-6 cDNA. The synthetic gene encodes a cysteine-free, bioengineered rIL-6 protein that is expressed at high levels in Escherichia coli as a tripartite fusion protein. Cleavage of the fusion protein with collagenase releases a 23-kDa rIL-6 protein that can be easily purified to homogeneity. We show that the rIL-6 protein displays a range of biological activities similar to those of natural human IL-6, as demonstrated by its ability to (i) protect cells from viral infection, (ii) stimulate the synthesis of fibrinogen in rat FAZA 967 cells, and (iii) induce the terminal differentiation of B cells, resulting in elevated secretion of immunoglobulin.
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PMID:High-level expression of a bioengineered, cysteine-free hepatocyte-stimulating factor (interleukin 6)-like protein. 305 47

Matrix vesicles are present in the calcifying front and in the site of callus formation of fracture heeling. In calcifying process, matrix vesicles have important roles. The metalloprotease was isolated from matrix vesicles and subsequently characterized. Matrix vesicles obtained from chicken epiphysial cartilage by collagenase digestion and differential centrifugation were further purified by Sepharose CL2B gel filtration. The protease was solubilized from the vesicles and isolated by Sephadex G-150 gel filtration. Disc electrophoresis of the enzyme gave a single protein band. The matrix vesicle protease had a MW of 33,000 daltons, an optimal pH of 7.2, and was inhibited 100% by 0.1 mM EDTA and 0.2 mM o-Phenanthroline. alpha 2-Macroglobulin, ovalbumin, cysteine, penicillamine, ethane-1-hydroxy-1, 1-diphosphonate (EHDP) and pyrophosphate at higher concentrations were also inhibitory. The inhibition by o-phenanthroline was reversed by Co2+, Zn2+, Fe2+ and Cu2+. The protease released from the matrix vesicle at the calcifying front could degrade non-collagenous protein moieties which inhibit precipitation of minerals in the extra-vesicular matrix and thus facilitate mineralization.
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PMID:[Isolation and characterization of a metalloprotease associated with chicken epiphyseal cartilage matrix vesicles]. 309 Jan 76

To determine the effects of transforming growth factor-beta (TGF-beta) on the different cell types that exist in bone, cell populations (I-IV), progressively enriched in osteoblastic cells relative to fibroblastic cells, were prepared from fetal rat calvaria using timed collagenase digestions. TGF-beta did not induce anchorage-independent growth of these cells, nor was anchorage-dependent growth stimulated in most populations studied, despite a two- to threefold increase in the synthesis of cellular proteins. In all populations the synthesis of secreted proteins increased 2-3.5-fold. In particular, collagen, fibronectin, and plasminogen activator inhibitor synthesis was stimulated. However, different degrees of stimulation of individual proteins were observed both within and between cell populations. A marked preferential stimulation of plasminogen activator inhibitor was observed in each population, together with a slight preferential stimulation of collagen; the effect on collagen expression being directed primarily at type I collagen. In contrast, the synthesis of SPARC (secreted protein acidic rich in cysteine/osteonectin was stimulated approximately two-fold by TGF-beta, but only in fibroblastic populations. Collectively, these results demonstrate that TGF-beta stimulates matrix production by bone cells and, through differential effects on individual matrix components, may also influence the nature of the matrix formed by different bone cell populations. In the presence of TGF-beta, osteoblastic cells lost their polygonal morphology and alkaline phosphatase activity was decreased, reflecting a suppression of osteoblastic features. The differential effects of TGF-beta on bone cell populations are likely to be important in bone remodeling and fracture repair.
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PMID:Differential effects of transforming growth factor-beta on the synthesis of extracellular matrix proteins by normal fetal rat calvarial bone cell populations. 316 38

The newest knowledge on the osteoclast allows us to consider bone resorption in a global perspective, as the resultant of three successive steps that may each be individually regulated by physiopathologic or pharmacologic agents. The first involves the formation of osteoclast progenitors in hematopoietic tissues followed by their vascular dissemination and the generation of resting preosteoclasts and osteoclasts in bone. The second consists in the activation of osteoclasts at the contact of mineralized bone. Osteoblasts appear to control this step by exposing the mineral to osteoclasts and preosteoclasts and/or by releasing a soluble factor that activates these cells. In a third step, activated osteoclasts resorb both the mineral and the organic of mineralized bone through the action of agents that they secrete in the segregated zone underlying their ruffled border. The mineral appears to be solubilized by hydrogen ions secreted by an ATP-driven proton pump located at that border and fed by protons generated from CO2 by carbonic anhydrase. The removal of organic matrix, which could be prepared by osteoblast collagenase at the level of nonmineralized bone surfaces, appears dependent on acid proteinases, particularly cysteine-proteinases, secreted, together with other lysosomal enzymes, in the acid microenvironment of the resorption zone.
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PMID:Cellular biology and biochemical mechanism of bone resorption. A review of recent developments on the formation, activation, and mode of action of osteoclasts. 328 76

The formation of collagen IV dimers in the extracellular space requires the association of two C-terminal globular domains giving rise to a large hexameric structure NC1 (Mr = 170,000). NC1 hexamer was purified from collagenase digests of a mouse tumor and several human tissues. It was shown by electrophoresis to consist of two kinds of cross-linked, dimeric segments, Da and Db (Mr about 50,000), and monomeric segments in a molar ratio of about 3:1. In the native hexamers free SH groups were detectable by N-[14C]ethylmaleimide and other sulfhydryl reagents. They account for 4-11% of the total number of cysteine residues with some variations between preparations from different sources and in the distribution between monomers and dimers. Reduction with 10 mM dithioerythritol under non-denaturing condition completely converted dimers into monomers and allowed the alkylation of all twelve cysteine residues present in each monomeric NC1 segment. A monomeric intermediate with four to six free SH groups and a higher electrophoretic mobility than the final product was observed. Generation of this intermediate from dimers Da and Db follows apparently different routes proceeding either directly or through a dimeric intermediate respectively. The time course of conversion is best described by a mechanism consisting of two (Db) or three (Da) consecutive steps with pseudo-first-order rate constants ranging from 0.14 ms-1 to 0.5 ms-1. Glutathione-catalyzed reoxidation of completely reduced NC1 in the presence of 2 M urea results in a product indistinguishable from native material by ultracentrifugation and electrophoresis pattern. The data suggest that in situ formation of NC1 structures is catalyzed by a small fraction (5-10%) of intrinsic SH groups leading to the formation and stabilization of dimers by rearrangement of disulfide bonds.
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PMID:Reductive cleavage and reformation of the interchain and intrachain disulfide bonds in the globular hexameric domain NC1 involved in network assembly of basement membrane collagen (type IV). 340 52

Periportal and perivenous hepatocytes were isolated by the digitonin-collagenase perfusion technique. The activity of the cytosolic glutathione S-transferase was higher in perivenous cells, but the cytosolic glutathione reductase and the microsomal glutathione S-transferase activities were evenly distributed. In contrast, both the Se-dependent and the microsomal Se-independent glutathione peroxidase activity and the glucose-6-phosphate dehydrogenase activity was much lower in perivenous hepatocytes, suggesting that these cells have a lowered detoxification capacity, which may contribute to their greater susceptibility to damage by xenobiotics. The mechanism of the ethanol-induced GSH depletion in vivo was studied by incubating conventionally isolated hepatocytes. In the absence of glutathione precursors, ethanol (80 mM) did not influence the GSH content, despite accumulation of acetaldehyde (10-100 MicroM). L-Methionine or L-cysteine stimulated GSH replenishment to in vivo rates. Ethanol oxidation resulted in acetaldehyde accumulation, but did not inhibit GSH replenishment from L-methionine and even stimulated that from L-cysteine. This seems to exclude conjugation of GSH with acetaldehyde as a mechanism by which ethanol suppresses GSH levels in vivo.
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PMID:Glutathione metabolism in isolated rat hepatocytes: acinar heterogeneity of detoxifying enzymes and effects of ethanol. 342 86

A metalloprotease has been isolated from matrix vesicles of chicken epiphyseal cartilage and subsequently characterized. Matrix vesicles obtained by collagenase digestion and differential centrifugation were further purified by Sepharose CL2B gel filtration. The protease was solubilized from the vesicles by treatment with deoxycholate and freeze-thawing, and then isolated by Sephadex G150 gel filtration. Disc electrophoresis of the enzyme, which displayed protease activity toward azocasein substrate, gave a single protein band. Based on molecular weight (MW) determination, lack of immunocross reactivity, and differences in electrophoretic migration, there is little possibility of any contamination with external protease from the commercial collagenase used for vesicle preparation. The matrix vesicle protease had a MW of 33,000 and a pH optimum of 7.2 and was completely inhibited by 0.1 mM EDTA and 0.2 mM o-phenanthroline. alpha 2-Macroglobulin, ovalbumin, cysteine, penicillamine, ethane-1-hydroxy-1, 1-diphosphonate (EHDP) and pyrophosphate at higher concentrations were also inhibitory. The inhibition by omicron-phenanthroline was reversed by Co2+, Zn2+, Fe2+, and Cu2+. Protease activity was most abundant in the heavy fraction of matrix vesicles fractionated by discontinuous sucrose density gradient centrifugation. Release of this protease at the calcifying front could degrade noncollagenous protein moieties that inhibit precipitation of minerals in the extravesicular matrix and thus facilitate mineralization.
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PMID:Isolation and characterization of a metalloprotease associated with chicken epiphyseal cartilage matrix vesicles. 352 86

The apoproteins of pulmonary surfactant (PSAP) are thought to be critical for normal surfactant function. They bind to surfactant phospholipids and enhance their ability to form surface films in vitro. These acidic glycoproteins have monomeric molecular weights of 36,000, 32,000, and 28,000 (PSAP-36, -32, and -28). Each member of this family of proteins has a similar amino acid composition and their differences in electrophoretic mobility are due in part to glycosylation. We have derived the full amino acid sequence of PSAP-32 from the nucleotide sequence of PSAP cDNA. A cDNA library was prepared from canine lung poly(A)+ RNA and screened with oligonucleotide probes that were based on the NH2-terminal amino acids of PSAP-32 determined by Edman degradation. This protein has the striking feature of collagen-like and non-collagen-like sequences in the same polypeptide chain. There are 24 Gly-Xaa-Yaa triplets, where Yaa is often hydroxyproline. These repeats comprise one-third of PSAP near the NH2 terminus. The remaining two-thirds of PSAP is resistant to bacterial collagenase digestion and contains a possible N-glycosylation site near the carboxyl terminus. The NH2-terminal one-third of PSAP-32 probably contains the cysteine involved in interchain disulfide bonds.
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PMID:Structure of canine pulmonary surfactant apoprotein: cDNA and complete amino acid sequence. 386

Activities of several proteinase-like peptidases have been determined in homogenates of malignant tissue, non-malignant tissue adjacent to the tumour (A-NM) and non-malignant tissue distant to the tumour (D-NM) from 17 patients undergoing surgery for histologically confirmed gastric malignancies. In homogenates of malignant tissues the activities of collagenase, cathepsin B, cathepsin (B+L), cathepsin H and cathepsin D were significantly higher than in D-NM tissues. By contrast, the levels of plasminogen activator were significantly lower in malignant tissues than in the D-NM tissues. Furthermore, the activities of collagenase-like and the cysteine-proteinase-like peptidases in the A-NM tissues were lower than in malignant tissues but higher than in the D-NM tissues. Separation of full-thickness non-malignant tissues into mucosal and seromuscular layers revealed significantly higher activities in the former. The elevated levels of these proteinase-like peptidases in homogenates of gastric cancer tissue suggests an important role for these enzymes in tumour invasion.
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PMID:Proteinase-like peptidase activities in malignant and non-malignant gastric tissue. 388 38

Glutathione (GSH), a ubiquitous cysteine-containing tripeptide, is present in high concentration in adult mouse testis (4.3 +/- 0.2 mumol/g). Examination of testis at 0, 7, 14, 21, 28, 35, 42, 50, and 60 days of age reveals that the level of testicular GSH, only 1.4 +/- 0.1 mumol/g in neonates, increases steadily until 28 days of age, when the adult level is reached. An even steeper increase in GSH concentration, when expressed in mumol/mg DNA, is seen between 0 days (0.19 +/- 0.01) and 42 days (1.19 +/- 0.05), at which time the adult level is attained. Enzymatic dissociation of 4-wk-postnatal seminiferous epithelium, using collagenase and dispase either sequentially or in combination, followed by unit gravity sedimentation, yielded maximal GSH concentrations (mumol/mg DNA) in those cell fractions most enriched in pachytene spermatocytes, followed by a second slightly lower peak of activity in the purest round spermatid fraction, which may have lost a significant percentage of its original GSH content. A relatively high GSH content in condensing spermatids, which are at present not isolable without loss of cytoplasm, is implied by the continually increasing levels of testicular GSH/mg DNA between 28 and 42 days of age. It is proposed that retention of GSH is a sensitive indicator of germ cell viability following cell separation procedures. The functions of GSH during meiotic and postmeiotic germ cell development may include protection against mutagens and reduction of disulfide bonds during the processing of cysteine-containing proteins.
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PMID:Estimation of glutathione in purified populations of mouse testis germ cells. 407 9


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