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)

Tissue ablation by ultraviolet excimer lasers results in exposure of viable cells to subablative doses of radiation. To understand the potential biological consequences better, we have studied changes in gene expression in cultured human skin fibroblasts exposed to either 193- or 248-nm laser light. Northern blot analyses revealed that both treatments up-regulate a common set of genes, including interstitial collagenase, tissue inhibitor of metalloprotease, metallothionein, and the proto-oncogene c-fos. Dose-response and kinetic studies of collagenase induction by 193-nm radiation showed a maximal effect with 60 J/m2 and at approximately 24 h. The induction was still persistent 96 h later. In addition to the commonly affected genes, known to be activated also by conventional UV light (254 nm) and tumor-promoting phorbol esters, other genes were found to be selectively induced by the 193-nm radiation. The heat-shock hsp70 mRNA, undetectable in controls and in cultures irradiated at 248 nm, was transiently induced 8 h after exposure to 193-nm radiation. Furthermore, a selective up-regulation of collagen type I expression was observed. The results indicate that the 193- and 248-nm radiations by excimer lasers elicit specific and different cellular responses, in addition to an overlapping pathway of gene activation common also to UV radiation by germicidal lamps. The laser-induced genes could serve as molecular markers in evaluating cell injury in situ.
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PMID:Changes in gene expression by 193- and 248-nm excimer laser radiation in cultured human fibroblasts. 133 10

Studies of aural and other body tissues suggest that otosclerosis represents the local manifestation of a general disorder of connective tissue. In particular, collagen abnormalities have been described. We have undertaken a pilot study of the in vivo messenger RNA (mRNA) transcription for procollagenase (precursor of collagenase), as well as for stromelysin and tissue inhibitor of metalloprotease (TIMP), an activator and a specific inhibitor of tissue collagenase activity, respectively. Human skin from individuals with surgically confirmed otosclerosis was compared to skin from their family members (clinically positive and clinically negative) and from unrelated normal controls. Preliminary data indicate that on average there are significantly lower levels of mRNA production for stromelysin among individuals with otosclerosis as compared to all others tested. Similar trends were demonstrated for TIMP and procollagenase, although these did not achieve statistical significance. In addition to suggesting a pathogenetic mechanism for the development of the disease, these data could serve as the basis of possible confirmatory tests for early diagnosis of otosclerosis and as a method for evaluating the genotype of offspring of affected individuals prior to their age of clinical manifestation. This could translate into the application of prophylactic treatment regimens in the future. The proposed abnormalities also suggest candidate genes for otosclerosis.
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PMID:Aberration of the tissue collagenase system in association with otosclerosis. 144 74

Stromelysin/Transin is a member of the matrix metalloprotease gene family. This metalloprotease is synthesized as a preproenzyme with a predicted size of 53,977 Da including a 17 amino acid signal peptide. Prostromelysin is secreted from normal and transformed cells in two forms with apparent molecular masses on NaDodSO4 gels of 60 and 58-kDa. The minor 60-kDa species contains N-linked oligosaccharide(s). Stromelysin consists of three domains the amino terminal propeptide(s) domain contains the tribasic amino acid sequence RRK which is important in the proteolytic activation of this zymogen by trypsin-like serine proteases. The second domain consists of the catalytic domain which contains the zinc binding site. The carboxyl-terminal hemopexin domain has no known function and can be removed without a loss of enzymatic activity. Stromelysin has a broad range of substrate specificity including proteoglycans, casein, fibronectin, laminin, native type IV and IX collagen and gelatin but not type I collagen. In the presence of trypsin or plasmin, catalytic amounts of this enzyme can also fully activate interstitial fibroblast collagenase. We have developed a panel of monoclonal antibodies against stromelysin which will be useful for the tissue localization of the various species of this enzyme in tissues. In addition, we have demonstrated that either human rIL-1 (alpha) or rTNF (alpha) can stimulate the expression of this enzyme in cultured bovine articular cartilage at least 10-fold. Based on western blot analysis, the zymogen form of the enzyme was the major enzyme species detected in either the media or cartilage matrix compartments of cytokine treated cultures.
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PMID:Primary structure and function of stromelysin/transin in cartilage matrix turnover. 148 63

During experiments studying dietary effects on phosphorylation/dephosphorylation of MAP-2 we found that incubation of microtubules with alkaline phosphatase resulted in extensive proteolysis of MAP-2 but not of tubulin or Tau proteins. In the absence of tubulin, when microtubule-associated proteins (MAPs) were incubated with alkaline phosphatase, MAP-2 was not proteolyzed. This suggests that binding to tubulin induces a conformational change in MAP-2 which makes it more susceptible to proteolysis. The proteolysis of MAP-2 by alkaline phosphatase was prevented by inhibitors of serine proteases, suggesting that the commercial preparation of the enzyme is contaminated by a serine protease and/or that the enzyme also has a weaker proteolytic activity. In addition, selective proteolysis of MAP-2 can be obtained with the metalloprotease collagenase. Brain homogenates are shown to contain a Ca(2+)-dependent protease which selectively degrades MAP-2 bound to tubulin. These results suggest that selective proteolysis of tubulin-bound MAP-2 could play a role in the regulation of microtubule dynamics in response to extracellular signals.
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PMID:The susceptibility of MAP-2 to proteolytic degradation increases when bound to tubulin. 150 6

A gamete lytic enzyme (GLE) of Chlamydomonas reinhardtii is a zinc metalloprotease and mediates digestion of the cell walls of the two mating-type gametes during mating as a necessary prelude to cell fusion. The nucleotide sequence analysis of a cDNA revealed that GLE is synthesized in a preproenzyme form, a 638-amino acid polypeptide (Mr, 69,824) with a 28-amino acid signal peptide, a 155-amino acid propolypeptide, and a 455-amino acid mature polypeptide (Mr, 49,633). A potential site for autocatalytic activation was contained within the propolypeptide and a zinc binding site found within the mature polypeptide; both sites were highly homologous to those in mammalian collagenase. A putative calcium binding site was present in the near C-terminal region of the mature GLE. Both propolypeptide and mature polypeptide had potential sites for asparagine-linked glycosylation, and the Arg-(Pro)3 and Arg-(Pro)2 motifs, which are known to exist in hydroxyproline-rich glycoproteins of the Chlamydomonas cell wall. Northern blot analysis revealed that steady-state levels of the 2.4-kilobase GLE mRNA increased during growth and mitotic cell division in the vegetative cell cycle and also increased markedly during gametogenesis under nitrogen-starved conditions.
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PMID:Primary structure and expression of a gamete lytic enzyme in Chlamydomonas reinhardtii: similarity of functional domains to matrix metalloproteases. 158 6

Chondrocyte-derived metalloproteases have been postulated to play a role in the degradation of articular cartilage during the development of chronic arthritic disorders. TNF alpha (tumor necrosis factor alpha), an inflammatory mediator released by activated macrophages, has been detected in the synovial fluid of patients with rheumatoid diseases. We have found that TNF alpha is a potent stimulator of collagenase and stromelysin mRNA accumulation, collagenase activity, and immunoprecipitable stromelysin in monolayer cultures of adult porcine articular chondrocytes. In contrast EGF (epidermal growth factor), which stimulates collagenase and/or stromelysin synthesis in fibroblast systems, stimulated minimal amounts of these enzymes at both the message and protein levels. Nuclear run-on transcription analysis demonstrated that the TNF alpha-stimulated increase in stromelysin and collagenase message levels was, at least partially, due to increased transcription. Elevated transcription of these genes, in response to TNF alpha, was apparent by at least 2 hours post-stimulation. The degree of c-fos and c-jun stimulation by TNF alpha or EGF did not correlate with the levels of collagenase and stromelysin message stimulated by these factors. EGF stimulated significant accumulation of both c-fos and c-jun mRNAs while only very low amounts of these messages were stimulated by TNF alpha. Our data suggests that TNF alpha may contribute to articular cartilage degradation by stimulating chondrocyte-derived matrix metalloproteases. In addition the regulation of metalloprotease genes in chondrocytes may be different from their regulation in fibroblasts.
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PMID:Tumor necrosis factor alpha and epidermal growth factor regulation of collagenase and stromelysin in adult porcine articular chondrocytes. 165 9

The collagenase from Clostridium histolyticum (EC 3.4.24.3) degrades type IV collagen with Km 32 nM, indicating a high affinity for this substrate. Ferrous and ferric ions can inhibit Clostridium collagenase. Inhibition by Fe++ was of the mixed, non-competitive type, with Ki 90 microM. The inhibitory effect of Fe++ may be due to Zn++ displacement from the intrinsic functional center of this metalloprotease, since in the presence of excess amounts of Zn++ enzyme activity is retained. This inhibitory effect of Fe++ may be common for all types of collagenases, since this ion can also inhibit type IV collagenase purified from Walker 256 carcinoma, with IC50 80 microM. Cu++ can only partially inhibit Clostridium collagenase, while other divalent metal ions such as Cd++, Co++, Hg++, Mg++, Ni++ or Zn++ are devoid of any inhibitory effect on the enzyme.
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PMID:Effect of divalent metal ions on collagenase from Clostridium histolyticum. 166 43

The effects of potential anti-osteoarthritic compounds both on the direct inhibition of collagenase and neutral protease activities and on IL-1 induced release of neutral proteases from rabbit articular chondrocytes were investigated. WY-46,135 ((+)-N-[[[(5-chloro-2-benzothiazolyl)thio]phenyl]acetyl]-L- cysteine) directly inhibited collagenase activity (IC50 = 15.4 microM). This inhibition was reversible upon dialysis. WY-46,135 also directly inhibited neutral protease activity (IC50 = 16.8 microM) but did not significantly block bacterial collagenase activity at a concentration of 80 microM. In contrast, WY-48,989 (4-[[2-(7-chloro-2-phenyl-2H-pyrazolo[4,3-c]quinolin-4- yl)ethyl]amino]benzonitrile) did not directly inhibit either collagenase (10 microM) or neutral protease (100 microM) activity. Both WY-48,989 and WY-46,135 inhibited IL-1 stimulated release of neutral proteases (IC50 = 3 microM). The activities of these compounds represents two potential approaches for the treatment of osteoarthritis. WY-46,135 combines direct metalloprotease inhibitory activity with the inhibition of IL-1 stimulated neutral protease release from articular chondrocytes while WY-48,989 selectively inhibits the IL-1 induced release of metalloproteases.
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PMID:Inhibition of interleukin-1 (IL-1) induced neutral proteases from rabbit articular chondrocytes by WY-46,135 and WY-48,989. 166 95

Glucocorticoids play an important role in the therapy of arthritic diseases. We sought, firstly, to identify, characterize and localize glucocorticoid receptors (GR) in normal human chondrocytes and, secondly, to determine whether glucocorticoid suppression of human recombinant interleukin-1 beta (rhIL-1 beta)-stimulated metalloproteases (MPs) synthesis by chondrocytes requires GR occupancy. Radioligand binding studies with cultured chondrocytes revealed the presence of high affinity-low capacity [3H]dexamethasone (DEX) binding sites with the following kinetic parameters: Kd = 12.5 +/- 1.4 nmol/L, Nmax = 57,560 +/- 3,960 sites per cell. Competition studies indicated that the DEX binding site was glucocorticoid specific and the competitive hierarchy established was: DEX greater than RU-26988 greater than RU-486 greater than cortisol greater than progesterone much greater than testosterone greater than estradiol-17 beta. Immunocytochemical studies using a specific anti-human GR antiserum identified immunoreactive material primarily in the cytoplasm with cells cultured in the absence of glucocorticoids. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis-Western immunoblotting analysis of chondrocyte cytosol detected the presence of a macromolecular species comigrating with a standard protein possessing a molecular weight of 94 kilodalton. rhIL-1 beta provoked the synthesis and secretion of the MPs stromelysin and collagenase from human chondrocytes in a saturable, coordinate, and dose-dependent fashion. DEX and cortisol inhibited the cytokine-stimulated MP synthesis in similar dose-dependent fashions: DEX, IC50 for stromelysin and collagenase suppression was 1.12 X 10(-8) mol/L and 1.26 X 10(-9) mol/L, respectively and the IC50 for cortisol was 6.3 X 10(-7) mol/L and 4.9 X 10(-8) mol/L, respectively. rhIL-1 beta failed to stimulate metalloprotease synthesis and release from chondrocytes pretreated with 10 nmol/L DEX, even after 20 days of incubation. The antiglucocorticoid, RU-486 completely reversed the DEX induced suppression of MP synthesis at 10(-7) mol/L. RU-486 alone had no effect on MP synthesis. We believe there is a biochemical rationale for the therapeutic efficacy of glucocorticoid administration in the management of arthritic diseases such as osteoarthritis and rheumatoid arthritis, and cytokines such as IL-1 are likely to be involved in the increase in MP synthesis.
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PMID:Glucocorticoid receptor mediated inhibition of interleukin-1 stimulated neutral metalloprotease synthesis in normal human chondrocytes. 184 71

Human articular cartilage released significantly increased levels of metal-dependent enzymes capable of degrading collagen, casein, and gelatin at a neutral pH following exposure to a sterile, purified fraction of Staphylococcus aureus culture medium. Neutral metalloprotease activity was determined by radiolabeled substrate assays and substrate gel analysis. The enzymes were activated with 4-aminophenylmercuric acetate and were inhibited by 1,10-phenanthroline and ethylenediamine tetraacetic acid. Protein immunoblots demonstrated that type I collagenase and stromelysin (matrix metalloproteinase III) secretion was increased following staphylococcal medium challenge. The profile of enzymatic activity induced by staphylococcal medium was directly comparable to that observed with interleukin-1, which was used as a positive control. The staphylococcal medium had no inherent proteolytic activity. Increased production of the neutral metalloproteases collagenase and stromelysin may significantly contribute to the extensive cartilage destruction noted in staphylococcal septic arthritis.
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PMID:Purified staphylococcal culture medium stimulates neutral metalloprotease secretion from human articular cartilage. 184 14


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