Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Calcium antagonist increase extracellular matrix collagenase activity as well as decrease collagen, fibronectin synthesis and secretion, altering fibroblastic metabolism. Preliminary findings reports that Verapamil improves would healing; Levine (1994) suggest that intralesional calcium antagonist (Verapamil) therapy offers an economical and sensible non operative approach for the treatment of Peyronie's disease. We studied and verified the effect of Verapamil in Peyronie's plaque on 39 men. They received injections of Verapamil bi-weekly in to the plaques for 6 months. Subjectively, improvement in rigidity was observed in 23,1% and a plaque softening observed in 48,7%. Rapid resolution of pain was verified in 90,9%. Objectively, curvature improved in 50% of those in which the diagnosis of Peyronie's disease was less than one year old, but in only 10.2% when disease lasted more than one year. A decreased plaque volume was not observed. There was no toxicity related to Verapamil effect. In this nonrandomized study we retained that Verapamil appears to result in an improvement in patients with symptoms lasting less than one year. For patients without pain with symptoms related to more than one year, Verapamil had no important effect.
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PMID:[Clinical effects of verapamil in the treatment of Peyronie's disease]. 892 94

Fibroblast growth factor-2 (FGF-2) is an established mediator of smooth muscle cell (SMC) proliferation after vascular injury. However, the influence of FGF-2 on collagen fiber remodeling, which may be a prerequisite for vascular SMC accumulation, is not well understood. We determined that FGF-2 almost completely abrogated the formation of immunodetectable type I collagen fibers in the extracellular matrix of cultured human vascular SMCs. This was associated with reduced expression of pro alpha-chains for types I and III collagen, as assessed by Western blot analysis, and a corresponding reduction in collagen synthesis. Densitometry of Northern blots indicated a potent reduction of mRNA encoding pro alpha-chains for types I and III collagen and a minor reduction in mRNA for pro alpha-chains for type V collagen. Interstitial collagenase (MMP-1), which is required for degradation of collagen types I and III, was not expressed by SMCs under basal culture conditions, but expression was induced by FGF-2, with a potent, dose-dependent increase in MMP-1 protein in conditioned medium. Metalloproteinase inhibitors TIMP-1, TIMP-2, and TIMP-3 were expressed by unstimulated SMCs and were differentially regulated by FGF-2. TIMP-1 expression increased modestly, TIMP-2 expression was repressed, and TIMP-3 was relatively unaffected. The net effect on substrate degradation, as assessed by zymography of conditioned media, was induction of MMP-1 lytic activity by FGF-2, with no effect on the activity of MMP-2, MMP-3, or MMP-9. These data indicate that stimulation of human SMCs with FGF-2 establishes a phenotype in which collagen fiber production is repressed and the capacity for fiber degradation activated. This coordinated response may be critical for SMC accumulation during vascular remodeling as well as atherosclerotic plaque destabilization.
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PMID:Coordinated effects of fibroblast growth factor-2 on expression of fibrillar collagens, matrix metalloproteinases, and tissue inhibitors of matrix metalloproteinases by human vascular smooth muscle cells. Evidence for repressed collagen production and activated degradative capacity. 910 65

Physical disruption of an atheromatous lesion often underlies acute coronary syndromes. Matrix-degrading enzymes, eg, matrix metalloproteinases (MMPs), may cause loss in mechanical integrity of plaque tissue that favors rupture. T lymphocytes accumulate at sites where atheromata rupture, but the mechanisms by which these immune cells may contribute to plaque destabilization are unknown. This study tested the hypothesis that the T-lymphocyte surface molecule CD40 ligand (CD40L), recently localized in atherosclerotic plaques, regulates the expression of MMPs in human vascular smooth muscle cells (SMCs), the most numerous cell type in arteries. We report here that stimulated human T lymphocytes induced the expression of the matrix-degrading enzymes, ie, interstitial collagenase (MMP-1), stromelysin (MMP-3), gelatinase B (MMP-9), and activated gelatinase A (MMP-2), in human vascular SMCs by cell contact via CD40 ligation, as demonstrated by Western blot analysis, zymography, and antibody neutralization. Recombinant human CD40L (rCD40L) induced de novo synthesis of MMP-1, MMP-3, and MMP-9 on vascular SMCs and stimulated the expression of these enzymes to a greater extent than did maximally effective concentrations of tumor necrosis factor-alpha or interleukin-1beta, established agonists of MMP expression. Interferon gamma, another T-lymphocyte- derived cytokine, inhibited the induction of MMPs by rCD40L. Immunohistochemical analysis of human coronary atheromata colocalized MMP-1 and MMP-3 with CD40-positive SMCs. These results demonstrated that CD40 ligand, expressed on T lymphocytes, promoted the expression of matrix-degrading enzymes in vascular SMCs and thus established a new pathway of immune-modulated destabilization in human atheromata.
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PMID:Regulation of matrix metalloproteinase expression in human vascular smooth muscle cells by T lymphocytes: a role for CD40 signaling in plaque rupture? 928 47

Changes in angiogenesis and expression of extracellular matrix-degrading enzymes have been substantiated during progression of solid tumours, whereas information on haematological tumours remains circumstantial. In this study, 57 biopsies of mycosis fungoides (MF), a haematological tumour of T-cell lineage, were investigated immunohistochemically for the extent of angiogenesis, and by in situ hybridisation for the expression of matrix metalloproteinases 2 (MMP-2, collagenase A) and 9 (MMP-9, collagenase B). The biopsies we grouped according to the stage of progression: patch-->plaque-->nodular (most advanced). The extent of angiogenesis, as microvessel area, of MF lesions as a whole was significantly higher than that of normal uninjured skin, used as a control. When the stages of MF progression were compared, the values of MF patch stage overlapped that of control skin, while values were significantly higher in the plaque stage and even higher in the nodular stage. In these stages, microvessels were widely scattered in the tumour tissue, in close association with tumour cells, and they frequently displayed arborisation and microaneurysmatic dilation. In contrast, in the patch stage microvessels were irregularly distributed around the tumour aggregates, and arborisation or dilated structures were only rarely seen. The expression of MMP-2 and MMP-9 mRNAs underwent significant upregulation in relation to advancing stage. Indeed, the upstaging was significantly associated with higher proportions of lesions positive for each mRNA or for both, and with lesions with the greatest intensity of expression for each mRNA. Besides tumour cells, the MMP-2 mRNA was expressed by microvascular endothelial cells of intratumour and peri-tumour vessels, and by fibroblasts which were especially abundant in the stroma adjacent to the tumour nodules. The MMP-9 mRNA was found to be present in a subset of tissue macrophages which were more frequently located in close vicinity to the tumour nodules. In contrast, in control skin, a weak positivity for the MMP-2 mRNA in very few microvascular endothelial cells and no signal for the MMP-9 mRNA were observed. These in situ data suggest that angiogenesis and degradation of the extracellular matrix occur simultaneously during MF progression. They imply that interaction between tumour cells and their microvasculature are all the more likely to occur during progression, occasionally with the contribution of tumour-associated stromal cells.
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PMID:Progression of mycosis fungoides is associated with changes in angiogenesis and expression of the matrix metalloproteinases 2 and 9. 938 34

A reasonable interpretation of the present evidence indicates that diabetes, when a complication of periodontitis, acts as a modifying and aggravating factor in the severity of periodontal infection. Diabetics with periodontitis who were young and poorly controlled, those who were long-duration diabetics, especially those over 30 years old, demonstrated more attachment loss, bone loss, and deeper probing pocket depths than their nondiabetic controls. It seems that the earlier the onset of diabetes and the longer the duration, especially without consistent control, the more susceptible the individual will be to periodontal disease. Consequently, once a diabetic contracts periodontal disease, it is usually more destructive. Although plaque scores of diabetics may be comparable to or even less than those of nondiabetics, diabetics often exhibit higher gingival index scores. The elevation of this particular clinical parameter is indicative of the microangiopathy associated with diabetes. Diabetic microangiopathy contributes to compromised delivery of nutrients to surrounding tissues and poor elimination of metabolic waste products. The complications associated with diabetes such as macroangiopathy, microangiopathy (i.e., retinopathy), ketoacidosis, and hyperglycemia result in impaired wound healing, immunosuppression, and susceptibility to bacterial infection. Individuals ages 30 to 40 suffering from diabetic retinopathy had significantly more gingival inflammation than controls or diabetics without complications. Collagen metabolism is defective in diabetics and is one component underlying delayed wound healing. Animal studies have been instrumental in elucidating the details of delayed wound healing. Hyperglycemia was associated with increased collagenase and protease activity in the gingiva of rats. Vascular wound healing in rats, particularly new re-endothelialization across vascular anastomoses, was significantly impaired. Diabetic abnormalities in immune response include impaired neutrophil chemotaxis, phagocytosis, and adhesion. Decreased neutrophilic chemotactic response seems to be attributable to protein factors in diabetic serum that competitively bind neutrophil receptors, thereby preventing complement-mediated phagocytosis. Because diabetics are not able to eliminate circulating immune complexes (CIC) effectively, serum CIC levels are elevated. There are microbiological differences in the characteristic flora of NIDDM patients and IDDM patients with periodontitis. These differences are not associated with diabetic impaired immune response. Ultimately, bacterial plaque is the primary etiology of periodontal diseases. Evidently, the host's response to bacterial plaque and ability to heal following surgery is altered by diabetic disease. Therefore, a thorough history regarding onset of diabetes, duration, and diabetic control would prove useful in the clinical management of diabetics presenting for treatment of periodontal disease.
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PMID:Periodontal disease, diabetes, and immune response: a review of current concepts. 947 64

Hyperhomocyst(e)inemia in patients with coronary and peripheral arterial occlusion has been demonstrated by others. Redox-state of homocyst(e)ine causes dysfunction of endothelial cells and promote growth of vascular smooth muscle cells. The role of tissue, protein bound and unbound, oxidative mixed disulfides in the development of fibrous plaque in atherosclerotic lesion is not known. Redox-state around the fibroblasts and vascular smooth muscle cells modulates the expression of extracellular matrix (ECM) components (Tyagi et al. 1996, J Cell Biochem, 61: 139-151). To determine the role of tissue homocystine in fibrotic atherosclerotic plaque development, coronary arteries were isolated from ischemic explanted hearts (n = 10). Apparently normal vascular tissue was obtained from idiopathic cardiomyopathic explanted hearts (n = 10). Tissue extract were prepared from atherosclerotic lesions and from normal arteries devoid of adventitia. Interaction of homocystine with Ellman's reagent (5, 5'-dithio-bis-2-nitro benzoic acid) catalyzed by limiting amount of reducing agent (catalyst) generated change in optical density (OD) at 412 nm in dose dependent fashion. We have generated a standard curve between change at 412 nm and amount of homocystine. The change in OD at 412 nm with increasing amount (0-25 microg) of homocystine demonstrated linearity. The protein-bound oxidized disulfides were precipitated by trichloroacetic acid (TCA) and free-oxidative disulfides in the supernatant were collected. The pathophysiological amount of protein-bound disulfide in atherosclerotic tissue (1.0 +/- 0.2 microg/mg total protein) was 10 times that in normal tissue (0.1 +/- 0.01 microg/mg, p < 0.001). The amount of free oxidative disulfide in atherosclerotic tissue (1.5 +/- 0.3 microg/mg) was 15 times that in normal tissue (0.12 +/- 0.02 microg/mg, p < 0.001). To determine the role of homocystine in ECM expression, ECM collagenase activity in the presence and absence of homocystine was measured by zymography. The effect of homocysteine on collagenase activity was biphasic, increased at < [0.01 mM] and inhibited at > [0.1 mM]. To determine whether homocystine regulates vascular tone, isometric measurements were carried out using normal coronary rings. Results suggested that homocystine induced endothelial-modulated vasoconstriction in coronary vessels. Tissue oxidative disulfides and the homocystine may contribute to the development of fibrotic atherosclerotic lesions and vascular dysfunction.
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PMID:Reduction-oxidation (Redox) and vascular tissue level of homocyst(e)ine in human coronary atherosclerotic lesions and role in extracellular matrix remodeling and vascular tone. 956 47

Thrombosis on the substrate of a disrupted plaque causes most acute coronary events. The physical integrity of the plaque thus governs the most important clinical manifestations of atherosclerosis. Of particular importance is the extracellular matrix of the fibrous capsule overlying the thrombogenic core of the atheroma. Stable atheroma generally have thick fibrous caps, and smaller lipid cores than lesions that have ruptured. Accumulating evidence supports a key role for inflammation as another critical determinant of the stability of human atherosclerotic plaques. Plaques that rupture usually have more abundant leucocytic infiltrates than those considered stable. Inflammatory mediators such as cytokines can influence several biological processes that regulate the stability of the plaque's fibrous cap, and thus its resistance to rupture. For example, interferon-gamma produced by activated T lymphocytes within atheroma inhibits the production of interstitial forms of collagen by human vascular smooth muscle cells. Inflammatory cytokines such as interleukin-1, tumour necrosis factor (TNF) and CD-40 ligand (a cell surface homologue of TNFalpha) can also elicit the expression by macrophages and smooth muscle cells of proteolytic enzymes that can weaken the extracellular matrix. We have hypothesised that lipid lowering reduces stimuli for the inflammatory response within the complex atherosclerotic lesion. Recent studies in rabbits with experimentally produced atherosclerosis have indeed shown that lipid lowering can (i) reduce macrophage numbers, (ii) decrease expression of the collagenolytic enzyme MMP-1, and (iii) reinforce the plaque's fibrous skeleton by increasing the content of interstitial collagen. By reducing local inflammation, lipid lowering can thus stabilise the plaque's fibrous cap, rendering the atheroma less prone to rupture and to precipitate thrombotic complications. These observations provide a mechanistic basis for understanding the marked reduction in acute coronary events and cerebrovascular accidents observed in patients treated with agents that reduce plasma lipids.
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PMID:New insights into plaque stabilisation by lipid lowering. 974 May 36

Recent studies suggest that mast cell-derived neutral proteases can activate matrix-degrading metalloproteinases (MMPs). We have investigated the role of the mast cell proteases tryptase and chymase in the activation of MMPs in human carotid endarterectomy specimens (atherosclerotic, n=32) and postmortem carotid arteries (control, n=17). In vitro degranulation of mast cells in atherosclerotic carotid arteries by compound 48/80 caused a significant increase in MMP activity. Addition of the nonselective tryptase inhibitor antipain, the specific trypsinlike protease inhibitor 4-amidinophenylmethanesulfonyl fluoride, and the chymase inhibitor chymostatin reduced this increase in MMP activity by 30+/-6%, 23+/-6%, and 9+/-2%, respectively. Immunocytochemistry identified significantly higher numbers of tryptase-containing cells (mast cells) and cells expressing MMP-1 and MMP-3 in the "shoulder" regions of atherosclerotic artery lesions compared with the tunica media of control arteries. Dual immunocytochemistry showed collocation of MMP-1 and MMP-3 with mast cells in the shoulder regions. Degranulation was observed in 78+/-5% (mean+/-SEM) of mast cells in this area, whereas nonactivated mast cells were observed in all other areas. In situ zymography revealed caseinolytic and gelatinolytic activity in these areas. In conclusion, in vitro mast cell degranulation, which releases mast cell proteases, in carotid arteries increases MMP activity. Furthermore, elevated MMP-1 and MMP-3 expression is collocated with increased numbers of degranulated mast cells and with greater MMP activity in the shoulder regions of atherosclerotic plaques. Activation of MMPs by mast cell-derived proteases may be an important mechanism in atherosclerotic plaque destabilization.
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PMID:Activation of matrix-degrading metalloproteinases by mast cell proteases in atherosclerotic plaques. 981 8

The incidence of root caries has been found to increase as the population ages and as edentulism becomes less prevalent due to improved dental awareness and care, and as exposure of roots due to gingival recession has also increased in the elderly. The mechanism of root caries is thought to be mediated by both bacterial and mammalian proteases produced by plaque and the periodontal tissues, respectively. In the current study, a rat model of periodontal disease was used in which gnotobiotic rats were infected intra-orally with a periodontal pathogen (P. gingivalis). Infecting the rats with P. gingivalis increased the collagenase activity in the gingival tissue in association with severe alveolar bone loss. Treating P. gingivalis-infected rats with doxycycline or CMT-1 prevented the destruction of the periodontium by MMPs, thus preventing exposure of roots to subgingival bacterial plaque and host tissue collagenases and the subsequent development of root caries. In addition, a low-dose doxycycline (LDD, 20 mg bid, non-antimicrobial dose) for 3 months was used in humans predisposed to increased root caries as the result of heavy use of smokeless (chewing) tobacco, causing gingival recession, subgingival plaque accumulation with Gram-negative bacteria, increased gingival crevicular fluid flow (GCF), and elevated GCF collagenase. Daily administration of LDD in smokeless tobacco patients reduced the GCF collagenase and prevented the further development of root caries.
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PMID:Root-surface caries in rats and humans: inhibition by a non-antimicrobial property of tetracyclines. 997 21

The balance between matrix metalloproteinases (MMPs) and tissue inhibitors of MMPs (TIMPs) plays an important role in extracellular matrix turnover and thereby modulates atherosclerotic plaque development. MMP-1, -2, -3, and -9 activity is increased by atherosclerosis, but the status of TIMPs is less clear. We therefore compared secretion of TIMPs-1 and -2 from cultured aortic explants derived from arch, middle, and distal portions of thoracic aortas of normal rabbits and rabbits fed a 1% cholesterol diet for 8 weeks, using reverse zymography of conditioned media. Cholesterol feeding significantly increased secretion of TIMP-1 from arch and middle portions (both 2.6-fold), accompanied by 2.0- and 2.7-fold increases in TIMP-2, respectively. Atherosclerotic aortas exhibited increased immunoreactive TIMP-1 and TIMP-2 in endothelial cells, smooth muscle cells, and macrophages. Staining of extracellular matrix was also prominent within the noncellular boundary region between fibrous cap and the lipid core, and within the lipid core. Increased TIMP-2 staining was also found in the media subjacent to the lipid core. In situ gelatin zymography demonstrated excess MMP activity within the plaque with partial inhibition in the lipid core base and subjacent media, consistent with the distribution of TIMPs. Casein zymography and in situ zymography demonstrated that increased caseinolytic activity was confined to the pericellular zones of macrophages within the lipid core, again consistent with its restriction by TIMPs. In summary, atherosclerosis increases TIMP expression, which counterbalances, in part, increased MMP activity.
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PMID:Increased secretion of tissue inhibitors of metalloproteinases 1 and 2 from the aortas of cholesterol fed rabbits partially counterbalances increased metalloproteinase activity. 1039 88


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