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)

Mammalian interstitial collagenases (E.C.3.4.24.7) are considered as key initiators of collagen degradation in periodontal diseases. However, the cellular sources of collagenases present in gingival crevicular fluid have not been completely clarified. Resident fibroblasts and epithelial cells as well as infiltrating neutrophils and monocyte/macrophages are potential sources of the enzymes. We have recently found significant differences in tetracycline inhibition between human neutrophil and fibroblast interstitial collagenases. To address the cellular source of collagenase present in gingival crevicular fluid in 2 distinct periodontal diseases, we studied the tetracycline inhibition of collagenase in gingival crevicular fluid of patients with localized juvenile periodontitis and adult periodontitis. Gingival crevicular fluid samples were collected from deep (greater than 5 mm) periodontal pockets and assayed for collagenase in the presence of 0-1000 microM doxycycline as well as a chemically modified tetracycline devoid of antimicrobial activity (4-de-dimethylaminotetracycline). The drug concentration required to inhibit 50% of collagenase activity (IC50) in localized juvenile periodontitis gingival crevicular fluid was 280 microM for doxycycline and 470 microM for 4-de-dimethylaminotetracycline. Significantly lower values, 10-20 microM, were obtained for collagenase in gingival crevicular fluid of patients with adult periodontitis. We propose that systemic tetracycline levels are efficient inhibitors of collagenase in gingival crevicular fluid in affected sites of patients with adult periodontitis but not of patients with localized juvenile periodontitis and that the fibroblast type interstitial collagenase is the predominant collagenase type in gingival crevicular fluid in affected sites of patients with localized juvenile periodontitis and the neutrophil collagenase in adult periodontitis gingival crevicular fluid.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tetracycline inhibition identifies the cellular origin of interstitial collagenases in human periodontal diseases in vivo. 132 40

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

We have screened six human squamous carcinoma cell lines for their ability to invade connective tissue by using the experimentally modified chorioallantoic membrane of a chick embryo as an in vivo model of invasion. In confirmation of our earlier studies, all the invasive cell lines expressed high levels of surface-bound urokinase type plasminogen activator (uPA). However, some cell lines expressing this activity were not invasive, suggesting that surface uPA, although necessary, was not sufficient. Since in addition to fibronectin, that can be degraded by uPA or plasmin, chorioallantoic membrane connective tissue contains collagen, we examined the profile of collagenases secreted by the various cell lines in search for an activity that would coincide with the invasive phenotype. We found, using gelatin substrate gels, that type IV gelatinase was produced by all six cell types tested, three cell types produced the M(r) 92,000 gelatinase, and three a lower-molecular-weight activity, which we identified by immunoprecipitation with specific antibodies, and by a direct assay of activity, as interstitial collagenase. Only the latter cells were found to be highly invasive. We showed previously that continuous culture in vitro of one of the carcinoma cell lines, HEp3, led to a gradual extinction of their malignant phenotype. To confirm the correlation between invasion and the production of interstitial collagenase, we examined these two functions in cells freshly isolated from a HEp3 tumor and intermittently during passage in vitro. We found that, although the surface uPA activity was slightly diminished in the in vitro grown cultures, it was still within the range of values found in highly malignant cells, suggesting that it is not the reason for the decrease in invasiveness. In contrast, the reduction in interstitial collagenase closely followed the loss of the invasive phenotype; after 30 in vitro passages the cells were almost completely devoid of interstitial collagenase and unable to invade. The decrease in collagenase activity was not the result of an increased tissue inhibitor of metalloproteinases production.
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PMID:Invasion of connective tissue by human carcinoma cell lines: requirement for urokinase, urokinase receptor, and interstitial collagenase. 133 82

The interstitial collagenase gene (CLG), one of the main candidates in severe generalized recessive epidermolysis bullosa dystrophica (SGREBD), is closely linked to the stromelysin-1 (STMY1) and stromelysin-2 (STMY2) genes. These three loci map on chromosome 11 (q21-q22.3), where they constitute a cluster of genes coding for metalloproteinases involved in the degradation of the extracellular matrix (ECM). A recessive form of cerebellar ataxia of post-puberal onset (CLA1) has also been assigned to chromosome 11 (q14-q21). Since useful restriction fragment length polymorphisms (RFLPs) for the CLG gene are not available, we have studied the inheritance of the marker TaqI RFLP of the STMY1 gene in a North Italian family with a child affected by SGREBD, and his two sisters showing cerebellar ataxia (CA) of post-puberal onset. We have also studied the MspI RFLP of the fibronectin gene (FN1), which is located on chromosome 2q34-q36, and which codes for non-collagenous matrix proteins. Since we did not observe the segregation of the pathological phenotypes with STMY1 and FN1 RFLPs, we excluded the involvement of these genes in both the SGREBD and CA present in this family. The exclusion of the STMY1 gene indicates that the mutation causing SGREBD cannot be located in the CLG and/or STMY2 genes because of their proximity to the STMY1 locus. These data also indicate that the CA form here reported is not attributable to alterations in regions close to the collagenase cluster on chromosome 11.
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PMID:Exclusion of stromelysin-1, stromelysin-2, interstitial collagenase and fibronectin genes as the mutant loci in a family with recessive epidermolysis bullosa dystrophica and a form of cerebellar ataxia. 135 52

The effects of the chondroprotective drugs, sodium pentosan polysulphate (SP54) and Arteparon (glycosaminoglycan polysulphate), on the in vitro activities of the purified matrix metalloproteinases interstitial collagenase (matrix metalloproteinase 1, MMP1) and stromelysin (MMP3) were examined. Both drugs produced concentration-dependent enhancement of the degradation of type I collagen fibrils by purified human fibroblast collagenase and rat tumour collagenase. Rat collagenase activity was increased by drug concentrations above 0.5 microgram/mL, whereas human collagenase activity was only increased by higher drug concentrations, above 5 micrograms/mL. The concentration dependence of the increase in rat collagenase activity was similar for both drugs, with a maximal 3-fold increase at 50 micrograms/mL. In contrast, human collagenase activity was increased to a greater extent by SP 54 compared to Arteparon, with maximal increases at 5000 micrograms/mL of 6-fold and 2-4-fold, respectively. Both drugs produced concentration-dependent inhibition of the proteoglycan-degrading activity of both human fibroblast stromelysin and rat tumour stromelysin. Rat and human stromelysin activities were inhibited at drug concentrations above 0.005 microgram/mL, with a similar concentration dependence for both drugs. Fifty percent inhibition of rat stromelysin was produced by concentrations of each drug in the 0.5-5 microgram/mL range. The pattern of inhibition of human stromelysin was similar, except that drug concentrations in the 500-5000 micrograms/mL range produced 50% inhibition. The possible modes of action for these drug effects and their possible pharmacological significance are discussed.
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PMID:The chondroprotective drugs, Arteparon and sodium pentosan polysulphate, increase collagenase activity and inhibit stromelysin activity in vitro. 138 3

Activation of latent human fibroblast-type and neutrophil interstitial procollagenases as well as degradation of native type I collagen by supra- and subgingival dental plaque extracts, an 80-kDa trypsinlike protease from Porphyromas gingivalis (ATCC 33277), a 95-kDa chymotrypsinlike protease from Treponema denticola (ATCC 29522), and selected bacterial species commonly isolated in periodontitis was studied. The bacteria included were Prevotella intermedia (ATCC 25261), Prevotella buccae (ES 57), Prevotella oris (ATCC 33573), Porphyromonas endodontalis (ES 54b), Actinobacillus actinomycetemcomitans (ATCC 295222), Fusobacterium nucleatum (ATCC 10953), Mitsuokella dentalis (DSM 3688), and Streptococcus mitis (ATCC 15909). None of the bacteria activated latent procollagenases; however, both sub- and supragingival dental plaque extracts (neutral salt extraction) and proteases isolated from cell extracts from potentially periodontopathogenic bacteria P. gingivalis and T. denticola were found to activate latent human fibroblast-type and neutrophil interstitial procollagenases. The fibroblast-type interstitial collagenase was more efficiently activated by bacterial proteases than the neutrophil counterpart, which instead preferred nonproteolytic activation by the oxidative agent hypochlorous acid. The proteases were not able to convert collagenase tissue inhibitor of metalloproteinase (TIMP-1) complexes into active form or to change the ability of TIMP-1 to inhibit interstitial collagenase. None of the studied bacteria, proteases from P. gingivalis and T. denticola, or extracts of supra- and subgingival dental plaque showed any significant collagenolytic activity. However, the proteases degraded native and denatured collagen fragments after cleavage by interstitial collagenase and gelatinase. Our results indicate that proteases from periodontopathogenic bacteria can act as direct proteolytic activators of human procollagenases and degrade collagen fragments. Thus, in concert with host enzymes the bacterial proteases may participate in periodontal tissue destruction.
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PMID:Identification of proteases from periodontopathogenic bacteria as activators of latent human neutrophil and fibroblast-type interstitial collagenases. 139 63

This study was designed to investigate the biochemical mechanisms responsible for the connective tissue changes seen in actinically damaged skin, which is characterized histologically by diminution and ultrastructural alterations of collagen fibrils and deposition of elastotic material in the papillary dermis. We hypothesized that ultraviolet light could stimulate synthesis of interstitial collagenase in the skin, resulting in collagen degradation. Monolayer cultures of human fibroblasts or keratinocytes were irradiated with ultraviolet A (UVA) or ultraviolet B (UVB) radiation and interstitial collagenase or its inhibitor, TIMP (tissue inhibitor of metalloproteinases) assessed in the conditioned medium with Western immunoblots 24 h after irradiation. Northern blot analysis of the irradiated fibroblasts with a cDNA probe representing collagenase was also performed. Cell viability was greater than 90% with all doses of UV radiation studied. A dose-related increase in immunoreactive collagenase was detected in the medium of fibroblasts irradiated with 0-10 J/cm2 of UVA radiation as well as a parallel increase in the collagenase mRNA in the irradiated cells. UVA radiation stimulated collagenase synthesis in both neonatal and adult fibroblasts. TIMP production in UVA-irradiated fibroblasts increased to a lesser degree than did collagenase and its increase did not parallel the increase in collagenase. UVB (0-100 mJ/cm2) did not stimulate collagenase production by fibroblasts. In contrast to the stimulation of collagenase production by fibroblasts, a slight decrease in immunoreactive collagenase was seen in UVA-irradiated keratinocytes. These data suggest that direct stimulation of collagenase synthesis by human skin fibroblasts by UVA radiation may contribute to the connective tissue damage induced by ultraviolet radiation leading to photoaging.
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PMID:Ultraviolet A irradiation stimulates collagenase production in cultured human fibroblasts. 140 2

In view of the important role of interstitial collagenase in the pathogenesis of rheumatoid arthritis (RA), we studied the expression of fibroblast-type collagenase in rheumatoid synovium and searched for its potential transcription factors, namely the oncoprotein c-fos and the early-growth-response gene-1 (egr-1), an inducible zinc-finger encoding gene. Elevated levels of RNA sequences complimentary to c-fos and egr-1 cDNA probes could be detected in cytoplasmic extracts of collagenase-expressing synovial fibroblast-like cells when compared to equivalent RNA amounts isolated from control fibroblasts. Utilizing immunocytochemistry, immunoreactivity for c-fos oncoprotein was found in 13 of 19 joint specimens obtained from patients with active RA. These oncoprotein data were positively correlated to the collagenase expression in the same specimens. Moreover, immunohistochemical analysis confirmed the localization of both oncoprotein c-fos and fibroblast-type collagenase within synovial fibroblast-like cells attached to bone erosions.
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PMID:Spontaneous expression of immediately-early response genes c-fos and egr-1 in collagenase-producing rheumatoid synovial fibroblasts. 141 Oct 83

There are two types of collagenases, products of two distinct genes, called MMP-1 (matrix metalloproteinase 1 or "fibroblast-type collagenase") and MMP-8 ("neutrophil collagenase"). In synovial fluid, MMP-8 is stored as latent proenzyme in polymorphonuclear neutrophils. MMP-8 is activated by hypochlorous acid produced by myeloperoxidase from hydrogen peroxide and chloride ion and by the hydroxyl radical produced in Haber Weiss reaction fed by superoxide produced by, eg, NADPH (reduced nicotinamide adenine dinucleotide) oxidase and xanthine oxidase. In addition to activation upon secretion, oxidatively modified MMP-8 is susceptible to a subsequent proteolytic attack and activation by cathepsin G. The authors suggest that activation of neutrophil-derived MMP-8 involves oxidative, nonproteolytic activation upon secretion and a more slowly progressive proteolytic activation by cathepsin G (or chymases and tryptases), and that these oxidative and proteolytic activation mechanisms act in concert. In contrast to MMP-8, MMP-1 is synthesized de novo and secreted immediately after synthesis by fibroblasts, macrophages, and some epithelial cells. Human rheumatoid synovial tissue contains mainly fibroblast-type MMP-1 collagenase as assessed by collagenase extracted from synovial tissue and by MMP-1 and MMP-8 immunostaining. It is suggested that in vivo, MMP-1 in synovitis tissue is activated by a plasminogen activator/plasminogen/prostromelysin (alternatively tryptases)/proMMP-1 cascade. In conclusion, MMP-8 and MMP-1 show type-specific compartmentalization and modes of activation in rheumatoid synovial fluid and tissue.
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PMID:Collagenase in synovitis of rheumatoid arthritis. 141 81

Vascular endothelial growth factor (VEGF) is a 45kDa secreted peptide that has potent mitogenic activity specific for endothelial cells in vitro and the ability to induce a strong angiogenic response in vivo. In the present study, 24 h treatment with VEGF resulted in a stimulation of expression of the metalloproteinase, interstitial collagenase, at the protein and mRNA levels 2.5-3.0-fold in human umbilical vein endothelial cells but not in human dermal fibroblasts. The dose response curve for collagenase induction was biphasic with the peak stimulatory response obtained by treatment of cells with 10-100 ng/ml (0.2-2 nM) VEGF. The dose response curve for collagenase induction overlapped with, but was not identical to, the response curve for proliferation, which showed VEGF mitogenic activity between < or = 0.1-50 ng/ml (< or = 0.002-1 nM). There was no induction seen in expression of other members of the matrix metalloproteinase family, including the 72kDa type IV collagenase, the 92kDa type V collagenase, or stromelysin. Expression of transcripts for the major metalloproteinase inhibitor, tissue inhibitor of metalloproteinases, was also unaltered by treatment with VEGF (1-200 ng/ml). These studies demonstrate that in addition to stimulating proliferation of endothelial cells, VEGF can also induce the expression of the only metalloproteinase that can initiate degradation of interstitial collagen types I-III under normal physiological conditions. Both responses are likely to contribute to the angiogenic potential of this peptide.
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PMID:Vascular endothelial growth factor induces interstitial collagenase expression in human endothelial cells. 144 17


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