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)

In an attempt to clarify a mechanism of polymorphonuclear cell and/or macrophage infiltration in alcoholic liver disease, we investigated a novel chemotactic and activating factor generated by rat hepatocytes isolated from the chronically ethanol-fed rats. Hepatocytes and hepatic macrophages were isolated from rat liver by perfusion and digestion with collagenase and subsequently by differential centrifugation on a metrizamide gradient. Rat polymorphonuclear cells were prepared from blood by the dextran sedimentation and Hypaque-Ficoll technique. Chemotactic activity was measured as migration of polymorphonuclear cells or hepatic macrophages using a chemotactic chamber. When hepatocytes isolated from the ethanol-fed rats were cultured in vitro, chemotactic activity for rat polymorphonuclear cells and hepatic macrophages was demonstrated in the culture supernatant. Inhibitors of transcription and protein synthesis reduced generation of chemotactic factor from these hepatocytes. Chemotactic activity of the conditioned medium was reduced after trypsin (0.25%, 37 degrees C, 30 min) or heat (56 degrees C, 30 min) treatment. The chemotactic activity was eluted at molecular weights of 20-25 kDa and 40-45 kDa following Sephadex G-150 chromatography. Superoxide anion production by polymorphonuclear cells and hepatic macrophages under the stimulation of phorbolmyristate acetate was enhanced in the presence of this chemotactic factor. This chemotactic factor may contribute to the pathogenesis of alcoholic liver disease.
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PMID:Generation of chemotactic factor by hepatocytes isolated from chronically ethanol-fed rats. 156 5

In an attempt to clarify the Kupffer cell function in alcoholism, chronic ethanol-fed rats were investigated. The clearance of latex particles in the rat was analysed to estimate the function of the reticuloendothelial system in the liver, and the phagocytic function of Kupffer cells was measured by counting particles in the cell after isolation of non-parenchymal cells by collagenase digestion of the liver following an injection of latex particles and subsequently by staining of endogenous peroxidase activities. In addition, the number of Kupffer cells and their phagocytic function were examined histologically in fresh frozen sections of liver after an injection of particles. Serum ethanol concentration in the ethanol-fed rats was 10-60 mumol/l. The clearance of latex particles was markedly reduced in the ethanol-fed rats as compared with the paired controls (P less than 0.01). Markedly decreased-phagocytic function was found in 20% of Kupffer cells in the chronic ethanol-fed rats. The number of Kupffer cells in the ethanol-fed rats was increased as compared with the paired control rats. Chemotaxis analysis revealed that hepatocytes when incubated with ethanol, produced chemotactic factor for Kupffer cells and polymorphonuclear cells. These abnormal Kupffer cell functions may contribute to the pathogenesis of alcoholic liver disease.
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PMID:Kupffer cell function in chronic ethanol-fed rats. 269 94

Although the fibrosis observed during chronic liver injury is the result of a complex process, the striking accumulation of collagen in end stage liver disease has provoked interest in the mechanisms that regulate both collagen production and degradation in the diseased liver. The present studies have examined the cell interactions that may be important in the regulation of collagen degradation. Although minimal amounts of interstitial collagenase activity were noted in cultures of normal hepatocytes and sinusoidal cells, the co-cultures of these cells in the presence of lipopolysaccharide showed a substantial increase in collagenase activity. When the hepatocytes were obtained from rats that had been treated with carbon tetrachloride in vivo, the enhanced activity seen in the co-cultures did not require the addition of lipopolysaccharide. Further characterization of this interaction suggested that the increase in collagenolytic activity was partially due to the elaboration of soluble factors by the hepatocyte, which stimulated collagenase production by the sinusoidal cell population. Elaboration of collagenase activity by the sinusoidal cells was inhibited by cycloheximide, suggesting that protein synthesis was required. The proteolytic activity was abrogated by inhibitors of metalloproteinases but not by serine or thiol proteinase inhibitors. The degradation products of type I collagen were typical of the expected products seen with vertebrate collagenases. Thus, it appears that the increased collagenolytic activity detected in this co-culture system is attributable to the production of interstitial collagenase by the sinusoidal cell population. Such cell-cell interactions may play an important role in the maintenance of normal connective tissue structure of the liver during disease processes.
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PMID:Stimulation of interstitial collagenase in co-cultures of rat hepatocytes and sinusoidal cells. 300 4

The specificity of a system measuring cell-mediated cytotoxicity as effector-induced target cell detachment from plastic recently adopted to study autologous hepatocyte killing in liver disease, was examined in 17 HBsAg positive liver patients whose hepatocytes (after biopsy digestion with collagenase) were incubated in Terasaki plates with the corresponding blood lymphocytes over two days. The hepatocyte viability and the specificity of the effectors were evaluated as determinants of the clinical value of the test. We found that: (a) hepatocytes in all experiments showed membrane damage owing to the lytic action of collagenase on the small liver core; (b) patients' lymphocytes detached diseased autologous hepatocytes more efficiently than did normal lymphocytes with healthy hepatocytes; (c) in eight patients cytotoxicity appeared equally distributed between a population enriched in T cells and one enriched in non-T cells; yet the mean cytotoxic index of the latter subset was higher than that of the former; (d) cytotoxicity was not blocked by the addition of either aggregated IgG or purified HBsAg; (e) protein synthesis seemed required to promote hepatocyte detachment, for lymphocytes treated with Actinomycin D were no longer active. Poor target viability detracts from the specificity and the clinical value of the test, that therefore turns out to be a major problem of liver cell culture.
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PMID:Cell-mediated cytotoxicity to autologous hepatocytes in HBsAg positive liver disease: an analysis of the killing specificity and of the clinical use of the test. 620 76

The mechanisms responsible for the increased hepatic collagen deposition in alcoholic cirrhosis remain unknown. The question of whether ethanol or acetaldehyde has a direct effect on collagen and noncollagen protein production was investigated in human fibroblasts with no detectable activity of alcohol dehydrogenase to distinguish the effects of these metabolites. To eliminate environmental factors, protein production by confluent human skin, fetal and hepatic fibroblasts was studied after three passages. Cells were labeled with [5-3H]proline for 4 hr in the presence of 0.2 mM ascorbate alone or with addition of either ethanol (50 mM) or acetaldehyde (0 to 300 microM). Rates of protein production were calculated from the radioactivities of collagenase-sensitive and collagenase-resistant proteins. Skin fibroblasts from alcoholic individual either with cirrhosis or without liver disease have comparable rates of collagen and noncollagen protein production. Acetaldehyde, in a concentration found in the liver during ethanol abuse, significantly increased collagen production by human skin fibroblasts (up to 140%), fetal fibroblasts (up to 240%) and hepatic fibroblasts (up to 70%) but the addition of ethanol had no significant effect on basal collagen production. The effect of acetaldehyde was dose-related and affected noncollagen protein production in a similar manner. Acetaldehyde did not cause changes in either proline transport or the specific activity of the proline precursor pool. This newly recognized stimulation of collagen production by acetaldehyde may be a possible mechanism of fibrogenesis in alcoholic individuals.
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PMID:Acetaldehyde stimulates collagen and noncollagen protein production by human fibroblasts. 647 53

Renewed interest in the transplantation of isolated hepatocytes into the liver as a potential therapy for liver disease has stimulated the development of methods for the identification of donor cells within the recipient organ. We describe a method for cellular tagging and in vivo identification of intraportally transplanted hepatocytes using an intracellular fluorescent dye, 5(6)-carboxyfluorescein diacetate, succinimidyl-ester (CFSE). Rat and porcine hepatocytes were isolated and labelled with CFSE. The optimal conditions for labelling consisted of a buffered saline suspension of hepatocytes (5 x 10(6) cells/mL) in 20.0 microM CFSE incubated for 15 min at 37 degrees C. In vitro, labelled hepatocytes were cultured either on fibronectin-coated chamber slides or in culture flasks. Cultures were evaluated in situ by fluorescence photomicrography or by fluorescence-activated cell sorting (FACS) after cell detachment. Cell viability was assessed serially and cultured, labelled hepatocytes retained the dye for up to 3 wk (last day of study). CFSE did not effect hepatocyte viability and there was no evidence of intercellular diffusion of the dye. In vivo, syngeneic Lewis rats underwent selective portal vein infusion of freshly isolated, labelled hepatocytes (2.0 x 10(7) cells/2.0 mL saline/animal) into the posterior liver lobes. All recipients were sacrificed 48 h and 96 h later and their livers examined. Transplanted hepatocytes were identified by fluorescence microscopy in tissue sections and by FACS following collagenase digestion of the liver tissue. CFSE persisted in a population of viable, engrafted hepatocytes. FACS analysis demonstrated that 9 +/- 3% of the hepatocytes in the posterior liver lobes were labelled 48 and 96 h after transplantation. At 96 h following transplantation, multiple engrafted hepatocytes could be observed by fluorescence microscopy around the central veins. CFSE labelling allows for both in vitro identification and in vivo localization of donor hepatocytes. Furthermore, it appears to be more stable and specific for labelling hepatocytes than other tested dyes (especially DiI).
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PMID:Carboxyfluorescein (CFSE) labelling of hepatocytes for short-term localization following intraportal transplantation. 782 77

To examine whether serum collagenase activity reflects the amount of hepatic collagenase in the fibrotic liver, we measured serum collagenase activity in 67 patients with chronic liver disease and in 26 healthy controls. Collagenase activity in serum was measured after reactivation by denaturing and dissociating the inhibitors with 3 M KSCN and 1 mM aminophenylmercuric acetate. Serum collagenase activity was 35% lower than control in chronic persistent hepatitis, 48% lower in chronic active hepatitis, 56% lower in liver cirrhosis and 68% lower in hepatocellular carcinoma. To interpret this finding of low serum collagenase activity, we measured serum concentration of TIMP (Tissue Inhibitor of Metallo-Proteinases). Serum TIMP concentration was increased as liver disease developed, and it was inversely correlated with serum collagenase activity. These results suggest that in this assay condition serum collagenase activity is influenced by TIMP, and thus may not reflect the amount of hepatic collagenase in patients with chronic liver disease.
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PMID:Serum collagenase activity in chronic liver diseases. 789 42

Alcoholic and, to a lesser extent, nonalcoholic patients with liver disease have serum antibodies to acetaldehyde-protein adducts produced in vitro. These antibodies presumably reflect the presence of adducts in the liver, but the protein that triggers this immune response has not been identified. To study this, we measured the reactivity of cytosolic proteins to rabbit IgG developed against a P-450 2E1-acetaldehyde adduct, isolated from alcohol-fed rats, that recognizes acetaldehyde-modified epitopes in proteins. Adducts were determined on Western blots by scanning densitometry of antibody-linked alkaline phosphatase activity in 4 normal livers and in needle biopsy specimens from subjects with liver disease, 17 alcoholic and 14 nonalcoholic. In all livers, except for a normal one, we found a reactive protein of at least 200 kD, similar to the collagen-acetaldehyde adduct we reported to be markedly increased in rats with experimentally induced cirrhosis. The immunostaining intensity in the alcoholic patients with liver disease was eightfold (p < 0.01) and that in nonalcoholic patients with liver disease was fourfold, greater (p < 0.02) than the weak staining in normal livers; it correlated with the degree of inflammation and serum AST or gamma-glutamyl transpeptidase activities. The adduct was reproduced on incubation of normal cytosolic proteins with 2.5 mmol/L acetaldehyde, whereas higher concentrations yielded many additional adducts; the adduct also reacted with IgG antibody to rat collagen type I and disappeared after digestion with collagenase, suggesting that the target protein is a form of collagen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Collagen-acetaldehyde adducts in alcoholic and nonalcoholic liver diseases. 791 86

In alcoholic liver disease, it is well-known that ethanol and its metabolites induce hepatic fibrosis. With progress in injury, the accumulation of extracellular matrix, which consists of type I, III, IV collagen and laminine, occurs in the area of hepatic central vein and perihepatocytes. In these fibrotic areas, the activated lipocytes (transitional cell and myofibroblast, etc), which may be transformed from Ito cell by fibrogenic cytokines, are increased and may play an important role in the progression of alcoholic hepatic fibrosis. Actually, a recent study indicates that chronic ethanol consumption sensitizes the response of lipocytes to TGF beta. It is observed that acetaldehyde and lactate stimulate collagen production and that acetaldehyde increases collagen mRNA expression and collagen gene transcription in cultured human fibroblast. The extracellular matrix is degraded by matrix metalloproteinases (MMPs). The collagenase activity is decreased in progression of liver cirrhosis and is regulated by fibrogenic cytokines. Acetaldehyde decreases by 50% of the collagenase mRNA expression in fibroblast. It is clear that hepatic fibrosis may progress under the balance of collagen production and degradation, which are associated with fibrogenic cytokines. Thus, in the search for mechanism of alcoholic hepatic fibrosis, it is important to elucidate how ethanol and its metabolites influence the activation of lipocytes through fibrogenic cytokines.
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PMID:[Alcoholic liver cirrhosis]. 811 91

One of the contributory factors to the development of cirrhosis is a decrease in collagenase activity, which may be related to levels of inhibitors such as serum tissue inhibitor of metalloproteinase. We therefore measured serum tissue inhibitor of metalloproteinase and serum procollagen III peptides (another proposed marker of fibrosis) in 16 healthy controls and 44 alcoholic patients with biopsy-proved liver disease, namely steatosis without fibrosis (n = 13), perivenular fibrosis (n = 10), septal fibrosis or cirrhosis or both (n = 15) and alcoholic hepatitis (n = 6). In alcoholic patients, serum tissue inhibitor of metalloproteinase values strongly correlated with fibrosis (rs = 0.70, p < 0.001). Compared with values in controls (177 +/- 12 ng/ml), serum tissue inhibitor of metalloproteinase was significantly elevated in perivenular fibrosis (330 +/- 22 ng/ml, p < 0.05), in septal fibrosis, cirrhosis or both (406 +/- 29 ng/ml, p < 0.001) and in alcoholic hepatitis (526 +/- 140 ng/ml, p < 0.001) but not in steatosis (204 +/- 17 ng/ml). In contrast, procollagen III peptides were significantly increased only in the septal fibrosis-cirrhosis group but not in the perivenular fibrosis group. With the threshold defined as the upper value of the steatosis group (resulting in a specificity of 100%), we found that serum tissue inhibitor of metalloproteinase was elevated in 50% of patients with perivenular fibrosis, in 87% of subjects with extensive fibrosis (septal fibrosis, cirrhosis or both) and in 67% of individuals with alcoholic hepatitis. The overall sensitivity of serum tissue inhibitor of metalloproteinase for detecting either perivenular fibrosis or more extensive fibrosis was 71%.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tissue inhibitor of metalloproteinase is increased in the serum of precirrhotic and cirrhotic alcoholic patients and can serve as a marker of fibrosis. 818 71


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