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: UMLS:C0239946 (liver fibrosis)
8,268 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatic stellate cells (HSCs) are responsible for type I collagen deposition in liver fibrosis that leads to cirrhosis. The purpose of this study was to examine potential molecular signals that lead to increased alpha(2)(I) collagen gene expression by acetaldehyde, the primary metabolite of alcohol and malondialdehyde (MDA), a lipid peroxidation product known to be associated with chronic liver injury. MDA and the combination of MDA and acetaldehyde were employed to determine the effect on alpha(2)(I) collagen gene expression as assessed by transient transfection analysis and reverse transcriptase polymerase chain reaction (RT-PCR). Immunoblot and subsequent immunoprecipitation analysis examined stress-activated protein kinase (SAPK) activity. Cotransfection with a dominant negative mutant for c-jun nuclear kinase (dnJNK1) was also employed with the alpha(2)(I) collagen promoter. MDA increased alpha(2)(I) collagen gene expression nearly 2.5- to 3-fold, however there was no synergistic effect of the combination of acetaldehyde and MDA on alpha(2)(I) collagen gene activation and expression. Acetaldehyde, MDA, or both significantly increased JNK activity when compared to untreated stellate cells. The dnJNK1 expression vector abrogated alpha(2)(I) collagen transgene activity. In conclusion, JNK activation appears to be critical in the signaling cascade of oxidative metabolites of chronic alcohol-related liver injury and collagen gene activation.
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PMID:Aldehydes potentiate alpha(2)(I) collagen gene activity by JNK in hepatic stellate cells. 1129 27

The aim of this study was to investigate whether matrix metalloproteinases (MMP-13, 9) of Kupffer cells induced by gadolinium chloride (GdCl(3)) treatment can reverse dimethylnitrosamine (DMN)-induced liver fibrosis (in vivo) and the effect of GdCl(3) on MAP kinase activity (in vitro). Male Wistar rats 6 weeks of age received DMN (10 mg/kg) three successive days a week for 4 weeks. Then two groups of rats (n = 6 each) were treated twice weekly with either GdCl(3) (7 mg/kg) or saline solution intravenously for the next 4 weeks. Animals were sacrificed to estimate the degree of liver fibrosis. Isolated Kuppfer cells were treated with GdCl(3) and the expressions of MMPs, MAP kinase activity (ERK, SAPK/JNK, P38) as well as apoptosis were also examined. Rats that received DMN for 4 weeks followed by GdCl(3) injection for 4 weeks showed an reduced liver hydroxyproline content compared to rats treated with DEN followed by saline (277 +/- 22 VS 348 +/- 34 microg/g, n = 6 each, P < 0.01). There were significantly increased MMP-13 mRNA levels in GdCl(3)-treated rats. However, no significant change was observed in procollagen type I mRNA levels. Isolated Kuppfer cells treated with GdCl(3) showed increased MAP kinase activity, especially P38 pathway as well as MMP-13, 9 mRNA and type I collagen-degrading activity leading to apoptosis. SB203580, inhibitor of P38 pathway diminished these activation and prevented apoptosis. These results suggest that Kuppfer cells can reverse liver fibrosis via the expression of MMPs mainly through P38 pathway.
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PMID:Gadolinium chloride reverses dimethylnitrosamine (DMN)-induced rat liver fibrosis with increased matrix metalloproteinases (MMPs) of Kupffer cells. 1249 75

Diminished activity of peroxisome proliferator-activated receptor gamma (PPARgamma) is implicated in activation of hepatic stellate cells (HSC), a critical event in the development of liver fibrosis. In the present study, we investigated PPARgamma regulation by TNF-alpha in an HSC line designated as BSC. In BSC, TNF-alpha decreased both basal and ligand (GW1929)-induced PPARgamma mRNA levels without changing its protein expression. Nuclear extracts from BSC treated with TNF-alpha showed decreased binding of PPARgamma to PPAR-responsive element (PPRE) as determined by electrophoretic mobility shift assay. In BSC transiently transfected with a PPARgamma1 expression vector and a PPRE-luciferase reporter gene, TNF-alpha decreased both basal and GW1929-induced transactivation of the PPRE promoter. TNF-alpha increased activation of ERK1/2 and JNK, previously implicated in phosphorylation of Ser(82) of PPARgamma1 and resultant negative regulation of PPARgamma transactivity. In fact, TNF-alpha failed to inhibit transactivity of a Ser(82)Ala PPARgamma1 mutant in BSC. TNF-alpha-mediated inhibition of PPARgamma transactivity was not blocked with a Ser(32)Ala/Ser(36)Ala mutant of inhibitory NF-kappaBalpha (IkappaBalpha). These results suggest that TNF-alpha inhibits PPARgamma transactivity in cultured HSC, at least in part, by diminished PPARgamma-PPRE (DNA) binding and ERK1/2-mediated phosphorylation of Ser(82) of PPARgamma1, but not via the NF-kappaB pathway.
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PMID:Tumor necrosis factor-alpha inhibits peroxisome proliferator-activated receptor gamma activity at a posttranslational level in hepatic stellate cells. 1465 14

To elucidate the mechanism of rubratoxin B toxicity, we investigated rubratoxin B-induced secretion of tissue inhibitor of metalloproteinases-1 (TIMP-1) in mice and cultured cells; we also documented the involvement of stress-activated MAP kinases (c-Jun-N-terminal kinases [JNKs] and p38s) in this process. Rubratoxin B significantly (P<0.05) induced serum TIMP-1 levels in mice. Because TIMP-1 is thought to play a crucial role in the process of liver fibrosis, rubratoxin B may cause liver fibrosis. Rubratoxin B enhanced TIMP-1 secretion in HepG2 cells to a peak level of approximately 40 microg/ml. The amount of TIMP-1 mRNA increased with the duration of rubratoxin B treatment; and this hepatotoxin appears to induce TIMP-1 secretion through a transcriptional control mechanism. Unlike similar treatment with rubratoxin B and JNK inhibitor, concomitant treatment with rubratoxin B and p38 inhibitor increased rubratoxin B-induced TIMP-1 secretion, suggesting that p38s (but not JNKs) antagonize this process. In addition, treatment with p38 inhibitor slightly increased the amount of rubratoxin B-induced TIMP-1 mRNA, suggesting that p38s control rubratoxin B-induced TIMP-1 secretion chiefly post-transcriptionally. In this study, we showed that rubratoxin B induces TIMP-1 production in vivo and in vitro and that p38s antagonize rubratoxin B-induced TIMP-1 secretion.
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PMID:Induced secretion of tissue inhibitor of metalloproteinases-1 (TIMP-1) in vivo and in vitro by hepatotoxin rubratoxin B. 1653 Sep 6

JunD is implicated in the regulation of hepatic stellate cell (HSC) activation and liver fibrosis via its transcriptional regulation of the tissue inhibitor of metalloproteinases-1 (TIMP-1) gene. In the present study we found in vivo evidence of a role for JunD in fibrogenesis. Expression of JunD was demonstrated in alpha-SMA-positive activated HSCs of fibrotic rodents and human livers. The junD-/- mice were protected from carbon tetrachloride-induced fibrosis. The livers of injured junD-/- mice displayed significantly reduced formation of fibrotic crosslinked collagen and a smaller number of alpha-SMA-positive HSCs compared with those of wild-type (wt) mice. Hepatic TIMP-1 mRNA expression in injured junD-/- mice was 78% lower and in culture activated junD-/- HSCs was 50%-80% lower than that in wt mice. In examining the signal transduction mechanisms that regulate JunD-dependent TIMP-1 expression, we found a role for phosphorylation of the Ser100 residue of JunD but ruled out JNK as a mediator of this event, suggesting ERK1/2 is utilized. In conclusion, a signaling pathway for the development of fibrosis involves the regulation of TIMP-1 expression by phosphorylated JunD.
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PMID:JunD is a profibrogenic transcription factor regulated by Jun N-terminal kinase-independent phosphorylation. 1713 82

Suppression of hepatic stellate cell (HSC) growth and activation, and induction of apoptosis, have been proposed as therapeutic strategies for the treatment and prevention of liver fibrosis. Our previous study showed that the Chinese herb Ligusticum chuanxiong (LC) inhibits platelet-derived growth factor (PDGF-BB)-induced HSC proliferation. The present study was designed to investigate the active principles and their action mechanisms. With a bioactivity-directed fractionation approach, DNA synthesis (bromodeoxyuridine (BrdU) incorporation), cell cycle related proteins and apoptosis markers were determined to evaluate the inhibitory effects of active principles of LC. Two phthalides, Z,Z'-6,8',7,3'-diligustilide (1) and levistolide A (2), from LC significantly abrogated PDGF-BB-induced proliferation in both rat and human HSC lines. These inhibitory effects of compounds 1 and 2 were associated with reduction of alpha-smooth muscle actin and collagen expressions. The cell cycle promoting proteins, cyclins D1, D2, E, A and B1, were downregulated while the inhibitory proteins p21 and 27 were up-regulated. JNK phosphorylation was up-regulated by compounds 1 and 2. In HSC-T6, the two compounds induced apoptosis through the activation of caspases 9 and 3, increase in cytosolic cytochrome c release, and downregulation of Bcl-2 and Akt phosphorylation. Moreover, neither phthalides caused direct cytotoxicity to either HSCs or rat primary hepatocytes under experimental concentrations. These results indicate that two phthalides from LC inhibited PDGF-BB-activated HSC proliferation possibly through cell cycle inhibition and apoptosis mechanisms. They might be potential anti-fibrotic drugs for the treatment and prevention of hepatic fibrosis.
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PMID:Studies on antiproliferative effects of phthalides from Ligusticum chuanxiong in hepatic stellate cells. 1752 May 22

Activated hepatic stellate cells (HSCs) play a key role in hepatic fibrogenesis. In injured liver they are the main extracellular matrix protein producing cell type and further perpetuate hepatic injury by secretion of pro-inflammatory mediators. Since LPS-mediated signaling through toll-like receptor 4 (TLR4) has been identified as key fibrogenic signal in HSCs we aimed to test TLR4 as potential target of therapy via ligand-binding soluble receptors. Incubation of human HSCs with a fusion protein between the extracellular domain of TLR4 and MD2 which binds LPS inhibited LPS-induced NFkappaB and JNK activation. TLR4/MD2 abolished LPS-induced secretion of IL-6, IL-8, MCP1, and RANTES in HSCs. In addition, TLR4/MD2 fused to human IgG-Fc neutralized LPS activity. Since TLR4 mutant mice are resistant to liver fibrosis, the TLR4/MD2 soluble receptor might represent a new therapeutic molecule for liver fibrogenesis in vivo.
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PMID:A TLR4/MD2 fusion protein inhibits LPS-induced pro-inflammatory signaling in hepatic stellate cells. 1869 26

Hepatic fibrosis is an outcome of chronic liver diseases. The activation and proliferation of hepatic stellate cells (HSCs) is a key event in liver injury. The fruiting body of Ganoderma lucidum has long been a popular oriental medicine for treating liver diseases. The aim of this present study was to investigate the antiproliferative effects of the triterpenoid-rich extract (GLT) of G. lucidum in a cell line of rat HSCs (HSC-T6) stimulated with platelet-derived growth factor (PDGF)-BB. DNA synthesis was investigated by bromodeoxyuridine (BrdU) incorporation. Flow cytometry using propidium iodide (PI) labeling was carried out to analyse the cell cycle distribution and apoptosis. alpha-Smooth muscle actin (alpha-SMA) was used to evaluate extracellular matrix deposition, and western blotting was performed to measure cyclins D1 and D2, and phosphorylation of the PDGFbeta-receptor (PDGFbetaR), Akt and JNK. The results indicated that the GLT attenuated BrdU incorporation in a concentration-dependent manner with an IC(50) of 8.52 +/- 0.33 microg/mL. The inhibitory effect of the GLT was associated with downregulation of cyclins D1 and D2, and PDGFbetaR and Akt phosphorylation, upregulation of JNK phosphorylation, and a reduction in alpha-SMA expression. These results indicated that G. lucidum inhibits PDGF-BB-activated HSC proliferation possibly through blocking PDGFbetaR phosphorylation, thereby indicating its efficacy for preventing and treating hepatic fibrosis.
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PMID:Ganoderma lucidum extract attenuates the proliferation of hepatic stellate cells by blocking the PDGF receptor. 1910 44

Many different diseases and toxins can cause liver damage, which is difficult to treat and often leads to the development of liver fibrosis or even cirrhosis. The key event in this process is the activation of hepatic stellate cells (HSCs). During such activation, HSCs undergo a dramatic transformation in morphology and behavior, changing from a neuronal-like to a fibroblast-like morphology. After activation, HSCs increase their proliferation rate and extracellular matrix (ECM)production. Overproduction of ECM, which contains mainly collagen type I, is a direct cause of liver disruption. HSCs also produce substances which inhibit protease activities, such as TIMPs,which enhance ECM deposition in the liver. On the molecular level, HSCs are activated by cytokines,growth factors, and oxidative stress, which are abundant in afflicted liver. These factors induce intracellular signals transmitted by many kinases, the most important of which are JNK,ERK1/2, p38, TAK-1, PKC, FAK, and P3IK. Signals transmitted via these pathways change the activities of transcription factors such as Smad, AP-1, and NF-kB. This in turn causes changes in gene transcription and ultimately alters the whole cell's behavior and morphology. The cell begins the production collagen type I, TIMP-1, and alphaSMA. Activated HSCs can sustain their own activation by producing growth factors such as PDGF and TGF-beta. Despite the vast knowledge about the mechanisms causing liver fibrosis and cirrhosis, there is still no effective cure. Further studies are therefore needed to solve this problem.
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PMID:[Role of stellate cells in alcoholic liver fibrosis]. 1959 40

Accumulating evidence suggests that plasminogen activator inhibitor (PAI)-1 plays an important role in the development of hepatic fibrosis via its involvement in extracellular matrix remodeling. We previously reported that alpha-lipoic acid (ALA), a naturally occurring thiol antioxidant, prevents hepatic steatosis by inhibiting the expression of sterol regulatory element binding protein-1c. The aim of the present study was to determine whether ALA prevents hepatic PAI-1 expression and fibrosis through the inhibition of multiple TGF-beta-mediated molecular mediators. We investigated whether ALA inhibited the development of hepatic fibrosis in mice following bile duct ligation (BDL), an established animal model of liver fibrosis. We found that ALA markedly inhibited BDL-induced hepatic fibrosis and PAI-1 expression. We also found that ALA attenuated TGF-beta-stimulated PAI-1 mRNA expression, and inhibited PAI-1 promoter activity in liver cells; this effect was mediated by Smads and the JNK and ERK pathways. The results of the present study indicate that ALA inhibits hepatic PAI-1 expression through inhibition of TGF-beta-mediated molecular mediators, including Smad3, AP1, and Sp1, and prevents the development of BDL-induced hepatic fibrosis. These findings suggest that ALA may have a clinical application in preventing the development and progression of hepatic fibrosis.
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PMID:Alpha-lipoic acid inhibits hepatic PAI-1 expression and fibrosis by inhibiting the TGF-beta signaling pathway. 2015 26


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