Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023890 (cirrhosis)
 42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Collagen synthesis and degradation in normal and carbon-tetrachloride-injured male Wistar rats at early and late stages of liver fibrosis, and the potential beneficial effects of zinc supplementation on liver fibrogenesis and collagenolysis have been assessed by measuring hepatic collagen content and prolyl hydroxylase and collagenase activities. No significant changes in hepatic collagen and prolyl hydroxylase activities were observed between control rats (82 +/- 25 cpm/mg protein) and rats with induced cirrhosis (107 +/- 23 cpm/mg protein) after 4 weeks of carbon tetrachloride injury. By this time, hepatic collagenase activity was significantly lower in rats with induced cirrhosis (61 +/- 9 micro units/mg protein) than in control rats (133 +/- 31 micro units/mg protein) (p < 0.05). This result was prevented by zinc administration, since hepatic collagenase activity was similar in zinc-supplemented, carbon-tetrachloride-injured rats and normal rats (148 +/- 19 micromicrons/mg protein). After 16 weeks, all carbon-tetrachloride-injured rats had cirrhosis. Hepatic collagen content and prolyl hydroxylase activity were significantly higher in carbon-tetrachloride-injured rats than in controls. These effects were partially prevented by zinc administration, since only two of the seven zinc-supplemented, carbon-tetrachloride-injured rats had cirrhosis. Moreover, prolyl hydroxylase activity was significantly lower in zinc-supplemented injured rats (263 +/- 27 cpm/mg protein) than in the non-supplemented respective controls (389 +/- 52 cpm/mg protein) (p < 0.05). No significant changes in hepatic collagenase activity were observed at this stage of liver injury.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Fibrogenic and collagenolytic activity in carbon-tetrachloride-injured rats: beneficial effects of zinc administration. 783 96

Chronic iron overload can result in hepatic fibrosis and cirrhosis. Activated lipocytes, through increased production of collagen and extracellular matrix, play an important role in hepatic fibrogenesis in several types of experimental liver injury, but their contribution to hepatic injury after iron overload is unknown. This study examines the effect of iron overload on lipocyte activation, in vivo. Male Sprague-Dawley rats were fed a chow diet supplemented with 1% carbonyl iron for up to 20 mo. Controls were fed the chow diet alone. Lipocytes were prepared by sequential pronase and collagenase perfusion of the livers, followed by density-gradient centrifugation. Lipocyte activation was assessed by immunohistochemistry of liver sections and by Western blot analysis of alpha-smooth muscle actin expression in freshly isolated lipocytes. In addition, to measure the biosynthetic capability of these lipocytes, collagen and noncollagen protein production was determined after 3 days in culture, using [3H]proline incorporation. The hepatic iron concentration was increased by eightfold in the iron-loaded rats, and lipocytes from these animals expressed alpha-smooth muscle actin. Collagen production was increased by 2.5-fold, and noncollagen protein production was elevated by twofold in lipocytes isolated from iron-loaded rats. In the iron-loaded livers, autofluorescent material with the characteristics of lipofusion was present in periportal zones. Chronic iron overload expression results in the activation of lipocytes, as determined by increased expression of alpha-smooth muscle actin and by increased production of both collagen and noncollagen protein. This activation may contribute to iron-induced hepatic fibrogenesis.
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PMID:Chronic iron overload causes activation of rat lipocytes in vivo. 790 Aug 6

Type I collagen synthesis and deposition is generally indicative of irreversible damage in alcohol-induced cirrhosis in humans. However, in rodents, ethanol alone does not readily cause hepatic fibrosis. To determine whether this is because of a lack of ethanol-responsive elements, an artificial enhancer construct controlling rat type I collagen gene transcription was prepared in transgenic mice. The gene construct, ColCAT3.6, was a chimeric sequence containing the marker chloramphenicol acetyltransferase (CAT) gene linked to 3.5 kb of the rat alpha 1(I) 5'-flanking DNA, and 115 base pairs (bp) of transcribed collagen gene. Groups of transgenic mice were given 4 g/kg ethanol orally, twice daily for 4 weeks. As a positive control for hepatic fibrosis, transgenic mice were given intraperitoneal injections of CCl4, twice weekly for 4 weeks. Livers were assayed for CAT activity. Endogenous mouse collagen alpha 1(I) messenger RNA (mRNA) and transgene CAT mRNA were measured by RNase protection assays. Collagen synthesis in livers from the transgenic mice treated with ethanol were increased over controls, but the levels were not significantly different. Endogenous collagen alpha 1(I) steady-state mRNA levels in ethanol-treated mice were not significantly different compared with saline-treated controls. However, the transgene mRNA levels in ethanol-treated animals increased approximately 21-fold compared with saline-treated controls, as measured by RNase protection assays. Furthermore, the transgene product as measured by CAT activity in ethanol-treated mice was significantly increased threefold over saline-treated controls. We conclude that the 5'-flanking region of the rat alpha 1(I) collagen gene does contain regulatory elements that are strongly responsive to ethanol administration.
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PMID:A collagen enhancer-promoter construct in transgenic mice is markedly stimulated by ethanol administration. 859 57

The model of liver cirrhosis was induced by CCl4 and alcohol in rats, which were subjected to splenectomy or given Tuftsin. The isolated and purified liver parenchymal, Kupffer and Ito cells were cultured with CCl4 and splenic conditional fluid or Tuftsin. The RNA isolated from the liver tissues of cirrhosis animals were hybridized with five kinds of cDNA probes. In this study we explored the mechanism of spleen's promoting effects on the liver cirrhosis formation at the whole body, cellular and molecular levels. The result showed that in cirrhosis model, the levels of IL1, IL6 and TNF alpha in serum of rats in imitative splenectomy or Tuftsin group were significantly increased compared to those in splenectomy group (P < 0.05). Cell culture showed that if medium contained CCl4 and splenic conditional fluid or Tuftsin, its cells can secrete more fibronectin, laminin and collagen I than those cultured in medium only contained CCl4 (P < 0.05). Slot blot hybridization showed that the RNA isolated from liver of rats in imitative splenectomy or Tuftsin group hybridized with probes of TNF alpha, IL1 beta, TGF beta and Collagen I had a more high density picture of X-ray than that isolated from liver of rats in the splenectomy group. Should be it a complex process for spleen to promote liver cirrhosis formation, in which the TGF beta gene expression enhancement may be the key of splenic effects on liver fibrosis.
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PMID:[The mechanism for splenic promoting effects on liver cirrhosis]. 869 73

Fibroproliferation was studied in two animal models of liver disease. Oral feeding of yellow phosphorus to pigs reproducibly results in fibrosis after 8 weeks of feeding, extensive fibrosis after 12 weeks and cirrhosis after 16 weeks of yellow phosphorus. Bile duct ligation was used to induce cirrhosis in the rat. Fibroproliferation was assessed as uptake of tritiated thymidine into fibroblasts which had been incubated with monocyte-conditioned medium obtained from monocytes of pigs treated with yellow phosphorus or bile duct-ligated rats and compared to the corresponding controls. Fibrosis was assessed by collagen content of liver sections obtained from the two animal models. The collagen content was determined by quantitation of Sirius red/Fast green-stained liver sections. In both animal models collagen content was significantly elevated at the conclusion of the treatment. Collagen content of liver sections of yellow phosphorus-treated animals were elevated (40 +/- 2.7, n = 15) compared to mineral oil-treated controls (23 +/- 1.2, n = 12) and collagen levels in the bile duct-ligated rat model liver sections were elevated (31.2 +/- 1.6, n = 6) compared to sham-operated controls (21.6 +/- 0.7, n = 6). The results of the fibroproliferation assay indicate that monocytes obtained from pigs treated with yellow phosphorus produce fibroproliferative factors during the development of fibrosis. This is in contrast to the bile duct-ligated rat model where no differences were observed in the production of fibroproliferative factors in the bile duct-ligated rats compared to sham operated controls suggesting that this may not be a key event in this model of fibrosis. Pentoxifylline treatment of the yellow phosphorus induced swine model of hepatic fibrosis has been associated with a marked improvement in fibrosis. In this study treatment of fibrotic pigs with pentoxifylline was associated with an improvement in liver function tests, a reduction of collagen content of liver sections, and reduction in fibroproliferation in pigs receiving yellow phosphorus treatment. Fibroproliferative factors were produced during the development of fibrosis in the swine model of fibrosis and their effect was blocked by pentoxifylline administered in vivo. This is in contrast to the bile duct-ligated rat model where pentoxifylline treatment was not associated with improvement in liver function tests or reduction of collagen content of liver sections and did not alter the fibroproliferative activity of monocyte-conditioned media. Taken together these results suggest that fibroproliferation and increased synthesis of collagen are key events in the yellow phosphorus-induced pig model of hepatic fibrosis and that the action of pentoxifylline in this animal model is likely to be related to its effects on fibroproliferation with a subsequent effect on collagen production. This is in contrast to the bile duct-ligated rat model where pentoxifylline does not prevent hepatic fibrosis.
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PMID:Effect of pentoxifylline in rat and swine models of hepatic fibrosis: role of fibroproliferation in its mechanism. 886 44

Pattern recognition of the long-term disease course before, during, and after pregnancy can provide us with data about the influence of pregnancy on IBD, and vice versa. Determinants that predict an indolent versus an aggressive disease course are currently being sought. Our intention is to analyze the disease course during pregnancy in an EU-IBD inception cohort of 1200 patients diagnosed from 1991 to 1993 and followed up for 10 years. We also attempt to evaluate such factors as smoking and medication and to predict pregnancy course and fertility in IBD as well as in a cross-sectional study of members of the patient organization EFCCA. One of the questions that arose was: what factor is responsible for the observation that pregnancy decreases the incidence of relapses and the development of fibrostenotic lesions? Relaxin and the glycoprotein YKL-40 are validated in the cohort. The protein relaxin, produced by the corpus luteum during pregnancy, increases the laxity of fibrous tissue. Collagen fibers are dissolved and disorganized. As maternal rejection of the fetus does not occur, a protein from the fetal lymphocytes most likely decreases the maternal lymphocyte response. Multiparity may lead to subtle, acquired immune deficits. Glycoprotein YKL-40, which causes fibrosis in RA and cirrhosis, is speculated to be lower in multiparous women than in nonpregnant women due to the fetal lymphocytes that secrete a protein that is a potential immune modulator. Knowledge gained from future EC-IBD studies may result in new legislation (e.g. regarding adoption) that can benefit IBD patients throughout Europe.
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PMID:Pregnancy, fertility, and disease course in patients with Crohn's disease and ulcerative colitis. 1096 10

Collagen is the most important structural protein of the animal body. Its unique triple-helix structure and extremely high level of crystallinity make it exceptionally efficient in generating the second harmonic of incident light, and we show here how this leads to a novel mode of microscopy of immediate practical significance in medicine and biology. In particular, it provides sensitive and high-resolution information on collagen distribution, discriminates between type I and type III collagen, and allows both a greater understanding of and a sensitive test for cirrhosis of the liver. Future research applications could include wound healing and hereditary collagen diseases such as osteogenesis imperfecta.
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PMID:3-dimensional imaging of collagen using second harmonic generation. 1257 20

Collagen degradation by matrix metalloproteinases is the limiting step in reversing liver fibrosis. Although collagen production in cirrhotic livers is increased, the expression and/or activity of matrix metalloproteinases could be normal, increased in early fibrosis, or decreased during advanced liver cirrhosis. Hepatic stellate cells are the main producers of collagens and matrix metalloproteinases in the liver. Therefore, we sought to investigate whether they simultaneously produce alpha1(I) collagen and matrix metalloproteinase-13 mRNAs. In this communication we show that expression of matrix metalloproteinase-13 mRNA is reciprocally modulated by tumor necrosis factor-alpha and transforming growth factor-beta1. When hepatic stellate cells are co-cultured with hepatocytes, matrix metalloproteinase-13 mRNA is up-regulated and alpha1(I) collagen is down-regulated. Injuring hepatocytes with galactosamine further increased matrix metalloproteinase-13 mRNA production. Confocal microscopy and differential centrifugation of co-cultured cells revealed that matrix metalloproteinase-13 is localized mainly within hepatic stellate cells. Studies performed with various hepatic stellate cell lines revealed that they are heterogeneous regarding expression of matrix metalloproteinase-13. Those with myofibroblastic phenotypes produce more type I collagen whereas those resembling freshly isolated hepatic stellate cells express matrix metalloproteinase-13. Overall, these findings strongly support the notion that alpha1(I) collagen and matrix metalloproteinase-13 mRNAs are reciprocally modulated.
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PMID:Reciprocal modulation of matrix metalloproteinase-13 and type I collagen genes in rat hepatic stellate cells. 1275 35

The purpose of this work was to obtain a suitable model of fibrosis, in which spontaneous reversion was minimal, to study the ability of silymarin, silibinin, colchicine and trimethylcolchicinic acid (TMCA) to reverse it. Reversal of liver fibrosis was studied in male Wistar rats after one, two or three months of CCl(4) administration (0.4 g/kg intraperitoneally, three times per week), by discontinuation of the toxin for 2 months. Silymarin (50 mg/kg), silibinin (50 mg/kg), colchicine (10 microg/rat) and trimethylcolchicinic acid (100 microg/rat) were administered daily, by gavage, after 3 months of CCl(4) administration. Collagen content was determined by measuring hydroxyproline in liver samples; glycogen, was determined utilizing the anthrone reagent; Mallory's trichromic stains of liver sections were performed. The best scheme of treatment was obtained when CCl(4) was administered during three months (collagen increased 6 times). Discontinuation of the toxin for two months produced a significant but relative small reduction of fibrosis (collagen was still 4.5 times over control). Colchicine, TMCA, silymarin or silibinin treatment showed no significant fibrolitic effect. This scheme of treatment may be an excellent tool to study the ability of drugs to reverse fibrosis. The hepatoprotective properties of silymarin, silibinin, colchicine and trimethylcolchinic acid may be irrelevant to reverse established cirrhosis.
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PMID:Resolution of liver fibrosis in chronic CCl4 administration in the rat after discontinuation of treatment: effect of silymarin, silibinin, colchicine and trimethylcolchicinic acid. 1617 51

Among many detrimental injuries, alcohol is implicated in hepatitis, fatty liver, hepatic fibrosis, and cirrhosis. The purpose of this study was to evaluate the protective effect of bio-active ceramic water on alcohol-induced hepatic injury in pigs. Twelve male Landrace pigs were divided into 3 groups. Groups 1, 2, and 3 were fed with bio-active ceramic water + normal liquid diet, bio-active ceramic water + liquid diet containing 15% ethanol, and tap water + liquid diet containing 15% ethanol for 12 weeks, respectively. For serological, histopathological, and immunohistochemical analysis, all pigs were sacrificed at week 12. In group 3, serum ALT and AST levels increased, and mild fatty change and moderate necrosis were detected in the liver. Collagen fibers, myofibroblasts, and CYP2E1 were also increased or activated in group 3. In group 2, there were mild hepatic injuries compared to group 3. However, injuries and activations were not observed in the liver in group 1. We suggest that the bio-active ceramic water used in the present study had protective capability against ethanol-induced hepatic injury and that having no toxic effect on the pig liver. The bio-active ceramic water might be useful as a therapeutic drinking water in patients suffering from alcoholic liver diseases.
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PMID:Protective effects of bio-active ceramic water on alcohol-induced hepatic injury in pigs. 1587 91


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