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)

The pleural mesothelial cell has a critical role in repairing the mesothelium after injury via its ability to produce connective tissue macromolecules. We have recently shown that proinflammatory cytokines and lipopolysaccharide induce pleural mesothelial cells to produce nitric oxide. The present study examined the effect of nitric oxide on pleural mesothelial cell protein synthesis. Rat pleural mesothelial cells were exposed to various combinations of tumor necrosis factor, interleukin-1, interferon-gamma, and lipopolysaccharide or to the nitric oxide donors: 6-morpholino-sydnonimine, S-nitroso-N-acetyl-D,L-penicillamine, sodium nitroprusside, and spermine-NO adduct for 24-48 h. Nitrate and nitrite (an index of nitric oxide production) and not collagen and noncollagen protein production (uptake of 3H-proline into collagenase-sensitive protein) were then determined. Net collagen production was significantly inhibited by the cytokine-lipopolysaccharide combinations tested. Collagen inhibition paralleled the time course of increased nitric oxide production. The inhibition of collagen production was also significantly reversed by the addition of NG-nitro-L-arginine methyl ester, and was reproduced by the addition of a 5:1 molar excess of L-arginine to NG-nitro-L-arginine methyl ester. Additionally, nitric oxide-generating compounds significantly inhibited collagen production in a dose-dependent manner compared to unexposed control cells. Net collagen production was inhibited to a greater degree than noncollagen protein synthesis. These results suggest that nitric oxide may be a significant mediator of PMC collagen production during conditions of significant pleural inflammation.
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PMID:Inhibition of pleural mesothelial cell collagen synthesis by nitric oxide. 889 63

Angiotensin-converting enzyme (ACE) inhibitors have been shown to minimize fibrosis of the kidney tubulointerstitium in several diseases. In addition to lowering angiotensin II levels, ACE inhibitors can increase kinin levels and subsequently increase nitric oxide formation. To determine whether nitric oxide generation is a component of the beneficial effect of ACE inhibitors on renal fibrosis, enalapril, enalapril plus NG-nitro-L-arginine methyl ester (L-NAME) or L-arginine was administered to rats that had undergone unilateral ureteral obstruction (UUO). Ureteral obstruction caused significant increases in interstitial volume, monocyte macrophage infiltration, interstitial collagen IV and alpha-smooth muscle actin expression, transforming growth factor-beta 1 mRNA, collagen IV mRNA, and tissue inhibitor of metalloproteinase-1 mRNA. Enalapril treatment significantly blunted the increase in all parameters during UUO. Cotreatment of the animals with enalapril and L-NAME reversed the beneficial effect of enalapril in the obstructed kidney for all parameters. Treatment of animals with UUO with L-arginine significantly blunted the increase in all parameters except for transforming growth factor-beta 1 mRNA expression. In the enalapril- plus-L-NAME-treated animals, there were modest but significant increases in monocyte/macrophage infiltration of the interstitium and glomerulus, and collagen IV and alpha-smooth muscle actin expression in the interstitium of the contralateral unobstructed kidney. The urine nitrite concentration was significantly increased by either enalapril or L-arginine treatment, whereas L-NAME significantly reduced urine nitrite concentration. These results suggest that treatment modalities that increase nitric oxide formation have a beneficial effect on the progression of cellular and molecular parameters of tubulointerstitial fibrosis caused by obstruction of the ureter.
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PMID:Nitric oxide generation ameliorates the tubulointerstitial fibrosis of obstructive nephropathy. 891 81

A method to isolate and cultivate macrophages from Macronodular-cirrhotic rat livers was developed in order to characterize them biochemically, by comparing various functional parameters in macrophage cell cultures from controls and cirrhotic livers. Cells were prepared from female Wistar rats, made cirrhotic by treatment with thioacetamide, by means of a pronase-collagenase digestion method followed by a nycodenz gradient and elutriation. The yield of macrophages was 8.9 x 10(6) cells/g for controls and 10.6 x 10(6) cells/g for cirrhotic livers. The vitality of the cells was > 95%. Forty-eight hours after cultivation, the purity of the cell fractions amounted to 94% and 91% in controls and in the experimental group, respectively. Nitric oxide synthesis was more markedly stimulated by lipopolysaccharide (LPS) in cultures from cirrhotic livers than in those from controls (25 +/- 4 vs 5.8 +/- 1 nmol/10(6) cells/72 hours). Interferon-gamma (IFN-gamma) induced the nitric oxide synthase more rapidly in macrophage cultures from cirrhotic livers than in controls. The production of superoxide anions by macrophages from cirrhotic livers stimulated by zymosan was significantly lower by about 40% when compared with the controls. Incorporation of 3H-thymidine was increased to 250% in cultivated macrophages from thioacetamide-treated rats in comparison with macrophages from untreated animals. The stimulated phagocytic activity of cultivated macrophages from cirrhotic livers did not differ significantly from that of the controls. The data presented provide evidence that it is possible to isolate and to cultivate macrophages from macronodular-cirrhotic livers with high yield and vitality. They are characterized by enhanced proliferation, reduced formation of superoxide anions, and increased production of nitric oxide.
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PMID:Oxygen radical formation, proliferative activity and phagocytic capacity of cultivated macrophages from cirrhotic rat livers. 893 32

Tetracyclines inhibit matrix metalloproteinases (MMP) and attenuate connective tissue degradation in a wide variety of human and animal disorders. Chemically modified tetracyclines (CMT) have been synthesized in which the antibacterial potency has been eliminated but in which the anti-MMP efficacy is retained. Nitric oxide (NO) modulates MMP synthesis and activity in mesangial cells in vitro. Therefore, we examined whether CMT inhibit iNOS gene and protein expression and NO production in cultured rat mesangial cells. Mesangial cells were maintained in media containing IFN-gamma and LPS for 24-72 h. Test media contained either no further additives or CMT-1, 3, 5, or 8 at concentrations of 1, 2.5, 5, and 10 micrograms/ml. iNOS gene and protein expression were assessed and NO production was determined by the Griess reaction. Incubation of mesangial cells with CMT-3 and CMT-8 resulted in time- and dose-dependent inhibition of NO production that was maximal at 48 h (< 20% of control) and at a drug concentration of 5 micrograms/ml (P < 0.05). Addition of CMT-1 had a modest (40%) inhibitory effect and CMT-5 did not alter NO production. The impact of CMT on NO production was directly related to their potency as collagenase inhibitors. Moreover, CMT-induced changes in NO synthesis were associated with parallel alterations in steady-state iNOS mRNA abundance and protein expression. These agents may be useful to ameliorate NO-dependent glomerular inflammation.
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PMID:Chemically modified tetracyclines inhibit inducible nitric oxide synthase expression and nitric oxide production in cultured rat mesangial cells. 895 13

Nitric oxide (NO) is synthesized in wounds, but its exact role and cellular source are not known. Wound fibroblasts (WF) are phenotypically characterized by increased collagen synthesis and contractility. We hypothesized that WF may be also phenotypically altered during wound healing to synthesize NO. WF were isolated from polyvinyl alcohol sponges implanted in male Lewis rats and harvested 10 days later. Proliferation in response to 10% fetal bovine serum was assessed by [3H]thymidine incorporation in a microculture system. A fibroblast-populated collagen lattice was used for assaying contractility. Collagen synthesis was determined by measuring the collagenase-sensitive fraction of protein-incorporated [3H]proline. Fibroblasts were incubated in the presence or the absence of 0.5 mM S-methyl-isothio-uronium or 0.5 mM N-monomethyl-L-arginine, both competitive inhibitors of NO synthase. WF spontaneously synthesize and release NO (4.60 +/- 0.29 nmol nitrite/microg DNA/48 h). Normal dermal fibroblasts do not synthesize NO. WF NO synthesis was limited to the first and second passages postharvest and was inhibitable by S-methyl-isothio-uronium (96%) and N-monomethyl-L-arginine (84%). In vivo iNOS expression by WF was confirmed by in situ hybridization and immunohistochemistry. Inhibition of endogenous NO synthesis had no effect on fibroblast proliferation. However, fibroblast-mediated collagen contraction was enhanced (p < 0.01), and collagen synthesis was significantly decreased (p < 0.05) by inhibiting NO synthase. The data show that WF are phenotypically altered during the healing process to synthesize NO, which, in turn, regulates their collagen synthetic and contractile activities.
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PMID:Nitric oxide, an autocrine regulator of wound fibroblast synthetic function. 903 87

The involvement of nitric oxide (NO) and its reactive intermediates such as nitrogen dioxide (NO2) and peroxynitrite (ONOO-) in the activation of matrix metallo-proteinase was investigated. The human neutrophil procollagenase (matrix metalloproteinase-8) (M(r), 85 kDa) was purified to homogeneity from human neutrophils by using column chromatography. After incubation of human neutrophil procollagenase with various nitrogen oxide-generating systems, collagenolytic activity in each reaction system was measured. In addition, neutrophil collagenase activity was determined by assessment of proteolysis of human alpha 1-protease inhibitor. NO was formed by the propylamine NONOate, and NO2 was generated by oxidation of NO with 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl 3-oxide (carboxy-PTIO). NO2, formed by NONOate and carboxy-PTIO, and the synthetic ONOO- exhibited strong activation of the procollagenase at 1-20 microM. Significant activation of the procollagenase was observed with use of authentic NO2 gas as well. Constant flux infusion of ONOO- into the procollagenase solution resulted in stronger procollagenase activation than did a bolus addition of ONOO- to the reaction mixture. However, NO showed only weak activating potential under the aerobic (ambient) condition; an NO concentration of more than 10 mM was needed for appreciable activation of the procollagenase. Of considerable importance was the fact that NO participates in activation of the neutrophil collagenase through its conversion to NO2 or ONOO- in human neutrophils. These results suggest that NO2 and ONOO- may be potent activators of human neutrophil procollagenase.
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PMID:Activation of human neutrophil procollagenase by nitrogen dioxide and peroxynitrite: a novel mechanism for procollagenase activation involving nitric oxide. 918 87

Although intra-abdominal sepsis is known to impair colon healing by inhibiting anastomotic collagen synthesis, the effect of systemic sepsis on this process is unknown. Endotoxins and cytokines associated with sepsis induce nitric oxide synthesis both systemically and locally within colonic tissue. We hypothesized that systemic sepsis impairs colonic healing and examined a possible correlation with nitric oxide expression. Male Sprague-Dawley rats received intraperitoneal injections of either saline (sham group) or Escherichia coli endotoxin (lipopolysaccharide 1 mg/100 g body weight) at Times -24 and -12 hr (LPS group). All animals underwent laparotomy and left colonic anastomosis at Time 0. At 24 and 96 hr postlaparotomy rats were sacrificed, the anastomoses excised, and [3H]-proline incorporation into protein measured as an index of total new protein synthesis (TNP). Digestion with purified collagenase yielded incorporation into the collagen fraction (CDP). Additional sham and LPS-treated rats were sacrificed at 24, 72, and 120 hr, the anastomoses excised, and nitric oxide synthase activity in the tissue measured by the conversion of [3H]-arginine to [3H]citrulline in an ex vivo culture system. Finally, sham and LPS rats were sacrificed at 120 hr for measurement of colon anastomotic bursting pressure. Systemic sepsis significantly impaired new collagen synthesis in anastomotic tissue at 24 hr compared to control samples (P < 0.02). No difference was noted at 96 hr. TNP synthesis was similar in both groups at 24 or 96 hr. Northern blot analysis confirmed a significant decrease in Type I and Type III collagen mRNA expression at 24 hr in septic rats. Anastomotic bursting pressure was also decreased in the septic group (P < 0.003). Sepsis elevated nitric oxide synthase activity in anastomotic tissue 24 hr postanastomosis, when compared to sham tissue (P < 0.0001). These data suggest that systemic endotoxin induces nitric oxide synthesis at the anastomotic site. The simultaneous dysregulation of collagen gene expression and synthesis with decreased anastomotic strength suggests a possible regulatory role for nitric oxide in gastrointestinal healing.
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PMID:Sepsis impairs anastomotic collagen gene expression and synthesis: a possible role for nitric oxide. 920 51

We previously reported the isolation of zeaxanthin and zeaxanthin dipalmitate using bioactivity-guided fractionation to discover hepatoprotective components of Lycium chinense against carbon tetrachloride induced hepatotoxicity. The present study was designed to uncover the effects of zeaxanthin dipalmitate on hepatic parenchymal and nonparenchymal cells in vitro. Uptake of [3H]thymidine by cultured rat Ito cells in response to zeaxanthin dipalmitate was measured. Collagen synthesis was assessed by the collagenase digestion method. The effects of zeaxanthin dipalmitate on the formation of nitric oxide (NO) and the release of tumor necrosis factor-alpha (TNF-alpha) from Kupffer cells and peritoneal macrophages were also assayed. Zeaxanthin dipalmitate showed a significant hepatoprotective activity against carbon tetrachloride toxicity. Cellular malondialdehyde (MDA) levels declined significantly with the treatment of the compound in a concentration dependent manner. Zeaxanthin dipalmitate significantly inhibited the uptake of [3H]thymidine by Ito cells. Zeaxanthin dipalmitate also reduced collagen synthesis in Ito cells by 65.1% (p < 0.05) as compared to untreated controls. The formation of NO in either Kupffer cells or in peritoneal macrophages was significantly decreased by zeaxanthin dipalmitate in a concentration dependent manner. The release of TNF-alpha was somewhat less affected by the compound. From these results, we conclude that zeaxanthin dipalmitate exerts a potent hepatoprotective activity by inhibiting Ito cell proliferation, collagen synthesis and by inhibiting certain biochemical functions of Kupffer cells.
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PMID:Zeaxanthin dipalmitate from Lycium chinense has hepatoprotective activity. 938 90

Interleukin-1 beta (IL-1) is implicated in cartilage destruction in arthritis through promotion of matrix metalloproteinase production. Upregulation of collagenase gene expression by IL-1 is known to require the transactivators Fos and Jun. Recently, reactive oxygen species (ROS) have been suggested to act as intracellular signaling molecules mediating the biological effects of cytokines. Here, we demonstrated ROS production by IL-1-stimulated bovine chondrocytes and that neutralizing ROS activity by the potent antioxidant, N-acetylcysteine, or inhibiting endogenous ROS production by diphenyleneiodonium (DPI), significantly attenuated IL-1-induced c-fos and collagenase gene expression. The inhibitory effect of DPI implicates enzymes such as NADPH oxidase in the endogenous production of ROS. Chondrocytes were also found to produce nitric oxide (NO) upon IL-1 stimulation. That NO may mediate part of the inducing effects of IL-1 was supported by the observation that L-NG-monomethylarginine, a NO synthase inhibitor, partially inhibited IL-1-regulated collagenase expression. Moreover, treatment of chondrocytes with the NO-producing agent, S-nitroso-N-acetylpenicillamine, was sufficient to induce collagenase mRNA levels. In summary, our results suggest that ROS released in response to IL-1 may function as second messengers transducing extracellular stimuli to their targets in the nucleus, leading to augmentation of gene expression.
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PMID:Interleukin-1 beta induction of c-fos and collagenase expression in articular chondrocytes: involvement of reactive oxygen species. 951 43

Nitric oxide (NO) has been shown to be a mediator of hypoxic injury in rat renal proximal tubules (PT). However, the role of NO in hypoxic injury to mouse. PT has not been examined. The aim of the present study was to determine the effect of knockout of nitric oxide synthase (NOS) isoforms on hypoxic injury in mouse PT. Mouse PTs were isolated by collagenase digestion and Percoll centrifugation. The nonselective NOS inhibitor, N-nitro-L-arginine methyl ester (L-NAME, 10 mM), but not its inactive stereoisomer D-NAME, protected against hypoxic injury as assessed by LDH release. Carboxy-imidazolineoxyl N-oxide (carboxy-PTIO, 100 microM), a stable NO scavenger, also afforded cytoprotection against hypoxic injury. To determine the role of the different NOS isoforms in the hypoxic injury, we examined the effect of hypoxia on PT isolated from knockout mice in which either the inducible NOS (iNOS) endothelial NOS (eNOS) or neuronal NOS (nNOS) gene was lacking. PT isolated from iNOS knockout mice were resistant to hypoxic injury compared to wild-type controls. In contrast, PT isolated from both nNOS and eNOS knockout mice were not protected against hypoxic injury. In conclusion, the present study demonstrates that NO is a mediator of hypoxic PT injury in the mouse and that knockout of the iNOS gene is cytoprotective against this hypoxic PT injury.
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PMID:Effect of hypoxia on proximal tubules isolated from nitric oxide synthase knockout mice. 960 95


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