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)

Chronic hepatitis C virus (HCV) infection is very common among HIV-positive patients who were infected through intravenous drugs use or contaminated blood products (e.g., hemophiliacs). An increase in liver-related deaths among HIV-positive subjects co-infected with HCV has been acknowledged over the last years. HIV infection has a negative impact on the natural history of chronic hepatitis C, accelerating the progression of liver fibrosis. Moreover, interactions between anti-HIV and anti-HCV drugs are of concern, and a lower response to anti-HCV therapy limits its benefit in the HIV/HCV-coinfected population. Regarding treatment monitoring, the stopping rule at week 12 recommended for HCV-monoinfected individuals, seems to be equally valid in HIV-infected patients. This finding is of great value, since it allows to offer treatment in the absence of contraindication (e.g., low CD4 counts, alcohol abuse, etc), discontinuing it as soon as at 12 weeks after initiation when no chances of cure are anticipated, saving costs and deleterious side effects. There are important barriers to HCV treatment in HIV/HCV-coinfected patients, which are necessary to be addressed in order to increase the eligibility and applicability of HCV therapy in this population. In addition, strategies aimed to improve tolerance of the HCV medication with adequate support as well as to enhance the response to current available therapies, including individualized tailoring of drug dosages and length of treatment, should be pursuit to enhance the rate of treatment success. Finally, new anti-HCV drugs currently under development are eagerly awaited for the growing number of HCV/HIV-coinfected patients non-responders or relapsers to the current therapy.
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PMID:Current concepts in the management and treatment of hepatitis C in HIV-infected patients. 1617 54

Fibrosis, defined as the excessive deposition of extracellular matrix in an organ, is the main complication of chronic liver damage. Its endpoint is cirrhosis, which is responsible for significant morbidity and mortality. The accumulation of extracellular matrix observed in fibrosis and cirrhosis is due to the activation of fibroblasts, which acquire a myofibroblastic phenotype. Myofibroblasts are absent from normal liver. They are produced by the activation of precursor cells, such as hepatic stellate cells and portal fibroblasts. These fibrogenic cells are distributed differently in the hepatic lobule: the hepatic stellate cells resemble pericytes and are located along the sinusoids, in the Disse space between the endothelium and the hepatocytes, whereas the portal fibroblasts are embedded in the portal tract connective tissue around portal structures (vessels and biliary structures). Differences have been reported between these two fibrogenic cell populations, in the mechanisms leading to myofibroblastic differentiation, activation and "deactivation", but confirmation is required. Second-layer cells surrounding centrolobular veins, fibroblasts present in the Glisson capsule surrounding the liver, and vascular smooth muscle cells may also express a myofibroblastic phenotype and may be involved in fibrogenesis. It is now widely accepted that the various types of lesion (e.g., lesions caused by alcohol abuse and viral hepatitis) leading to liver fibrosis involve specific fibrogenic cell subpopulations. The biological and biochemical characterisation of these cells is thus essential if we are to understand the mechanisms underlying the progressive development of excessive scarring in the liver. These cells also differ in proliferative and apoptotic capacity, at least in vitro. All this information is required for the development of treatments specifically and efficiently targeting the cells responsible for the development of fibrosis/cirrhosis.
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PMID:Hepatic fibrosis and cirrhosis: the (myo)fibroblastic cell subpopulations involved. 1625 64

Alcohol abuse is a main cause of liver fibrosis and cirrhosis in the western world. Although the major mechanisms of fibrogenesis are independent of the origin of liver injury, alcoholic liver fibrosis features distinctive characteristics, including the pronounced inflammatory response of immune cells due to elevated gut-derived endotoxin plasma levels, increased formation of reactive oxygen species (ROS), ethanol-induced pericentral hepatic hypoxia or formation of cell-toxic and pro-fibrogenic ethanol metabolites (e.g., acetaldehyde or lipid oxidation products). These factors are together responsible for increased hepatocellular cell death and activation of hepatic stellate cells (HSCs), the key cell type of liver fibrogenesis. To date, removing the causative agent is the most effective intervention to prevent the manifestation of liver cirrhosis. A novel experimental approach in fibrosis therapy is the selective induction of cell death in HSCs. Substances such as gliotoxin, anandamide or antibody against tissue inhibitor of metalloproteinase (TIMP)-1 can selectively induce cell death in activated HSCs. These new results in basic science are encouraging for the search of new antifibrotic treatment.
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PMID:Molecular pathogenesis of alcohol-induced hepatic fibrosis. 1634 93

Permanent alcohol abuse may lead to chronic liver injury with deleterious sequelae such as liver cirrhosis and hepatocellular carcinoma. Mechanisms of fibrogenesis encompass recruitment of inflammatory cells at the site of injury and cytokine mediated activation of hepatic stellate cells (HSC) with accumulation of interstitial collagens. HSC transdifferentiation and accompanying apoptosis result in destruction of liver architecture and are therefore key steps of disease progression. TGF-beta represents the main profibrogenic cytokine in liver fibrosis and other fibroproliferative disorders by inducing extracellular matrix deposition as part of the wound healing response. In parallel, TGF-beta triggers hepatocytes that are strongly responsive for this cytokine, to undergo apoptosis, thereby providing space for HSC proliferation and generation of a collagenous matrix. Anti TGF-beta approaches were established and successfully utilized for the treatment of experimental fibrogenesis. Dominant negative TGF-beta receptors (TbetaR), generated by fusing the Fc domain of human IgG and the N-terminal (extracellular) fragment of TbetaRII (Fc:TbetaRII) were applied to suppress fibrosis. Similarly TGF-beta binding proteins like decorin, antagonistic cytokines such as bone morphogenetic protein-7, hepatocyte growth factor, IL-10, or IFN-gamma were as efficient as camostat mesilate, a protease inhibitor that possibly abrogated proteolytic activation of TGF-beta. Further, our group recently overexpressed Smad7 in bile duct ligation induced liver fibrosis and achieved efficient inhibition of intracellular TGF-beta signaling, thereby counteracting profibrogenic effects in cultured HSC and in vivo. A direct link between the effect of alcohol and TGF-beta exists through reactive oxygen species that are generated in liver cells by alcohol metabolism and represent activators of TGF-beta signaling. Thus, soluble TbetaRII expression reduced experimental fibrogenesis in vitro and in vivo partially by decreasing intracellular ROS and inhibiting NADH oxidase. Approaches that specifically target profibrogenic TGF-beta signaling are promising to treat alcoholic liver disease in the future. However, to ensure safety for the patients to be treated, approaches with strong specificity need to be established. Therefore, it is essential to delineate the profibrogenic actions of TGF-beta and the influence of alcohol abuse in molecular detail.
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PMID:Anti-TGF-beta strategies for the treatment of chronic liver disease. 1634 96

The course of hepatosplenic schistosomiasis after mass chemotherapy with oxamniquine has been rarely reported. We report the effect of treatment in patients with advanced schistosomiasis mansoni living in area of Brazil highly endemic for this disease. A total of 739 inhabitants of a village were subjected to clinical and abdominal ultrasound examinations and were treated with oxamniquine. We have identified 84 individuals with hepatosplenic schistosomiasis. Alcohol abuse was associated with periportal thickening. Four years after treatment, 42 of the 84 individuals were re-examined and regression of splenomegaly was observed in 59% and of periportal thickening in 32%. Our data indicate that mass chemotherapy can lead to reduction of schistosomiasis morbidity but a significant group of patients (68%) will not improve. The association with alcohol abuse should be further evaluated. Thickening of the gallbladder wall can be a useful predictor of no involution of liver fibrosis after treatment.
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PMID:Ultrasound and clinical investigation of hepatosplenic schistosomiasis: evaluation of splenomegaly and liver fibrosis four years after mass chemotherapy with oxamniquine. 1640 52

Alcohol abuse is a major cause of liver fibrosis and cirrhosis in developed countries. Before alcoholic liver fibrosis becomes evident, the liver undergoes several stages of alcoholic liver disease including steatosis and steatohepatitis. Although the main mechanisms of fibrogenesis are independent of the etiology of liver injury, alcoholic liver fibrosis is distinctively characterized by a pronounced inflammatory response due to elevated gut-derived endotoxin plasma levels, an augmented generation of oxidative stress with pericentral hepatic hypoxia and the formation of cell-toxic and profibrogenic ethanol metabolites (e.g. acetaldehyde or lipid oxidation products). These factors, based on a complex network of cytokine actions, together result in increased hepatocellular damage and activation of hepatic stellate cells, the key cell type of liver fibrogenesis. Although to date removal of the causative agent, i.e. alcohol, still represents the most effective intervention to prevent the manifestation of alcoholic liver disease, sophisticated molecular approaches are underway, aiming to specifically blunt profibrogenic signaling pathways in liver cells or specifically induce cell death in activated hepatic stellate cells to decrease the scarring of the liver.
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PMID:Molecular mechanisms of alcohol-induced hepatic fibrosis. 1650 91

Non-alcoholic fatty liver disease represents a set of liver lesions similar to those induced by alcohol that develop in individuals with no alcohol abuse. When lesions consist of fatty and hydropic degeneration, inflammation, and eventually fibrosis, the condition is designated non-alcoholic steatohepatitis (NASH). The pathogenesis of these lesions is not clearly understood, but they are associated with insulin resistance in most cases. As a result, abdominal fat tissue lipolysis and excessive fatty acid uptake by the liver occur. This, together with a disturbance of triglyceride export as VLDL, results in fatty liver development. Both the inflammatory and hepatocellular degenerative components of NASH are attributed to oxidative stress. Mitochondrial respiratory chain loss of activity plays a critical role in the genesis of latter stress. This may be initiated by an increase in the hepatic TNFalpha, iNOS induction, peroxynitrite formation, tyrosine nitration and inactivation of enzymes making up this chain. Consequences of oxidative stress include: lipid peroxidation in cell membranes, stellate cell activation in the liver, liver fibrosis, chronic inflammation, and apoptosis.
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PMID:Non-alcoholic fatty liver disease. From insulin resistance to mitochondrial dysfunction. 1719 77

Liver fibrosis is a chronic disease that results from hepatitis B and C infections, alcohol abuse or metabolic and genetic disorders. Ultimately, progression of fibrosis leads to cirrhosis, a stage of the disease characterized by failure of the normal liver functions. Currently, the treatment of liver fibrosis is mainly based on the removal of the underlying cause of the disease and liver transplantation, which is the only treatment for patients with advanced fibrosis. Hepatic stellate cells (HSC) are considered to be key players in the development of liver fibrosis. Chronically activated HSC produces large amounts of extracellular matrix and enhance fibrosis by secreting a broad spectrum of cytokines that exert pro-fibrotic actions in other cells, and in an autocrine manner perpetuate their own activation. Therefore, therapeutic interventions that inhibit activation of HSC and its pro-fibrotic activities are currently under investigation worldwide. In the present study we applied targeted liposomes as drug carriers to HSC in the fibrotic liver and explored the potential of these liposomes in antifibrotic therapies. Moreover, we investigated effects of bioactive compounds delivered by these liposomes on the progression of liver fibrosis. To our knowledge, this is the first study demonstrating that lipid-based drug carriers can be selectively delivered to HSC in the fibrotic liver. By incorporating the bioactive lipid DLPC, these liposomes can modulate different processes such as inflammation and fibrogenesis in the fibrotic liver. This dual functionality of liposomes as a drug carrier system with intrinsic biological effects may be exploited in new approaches to treat liver fibrosis.
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PMID:Addressing liver fibrosis with liposomes targeted to hepatic stellate cells. 1802 41

Non-alcoholic steatohepatitis (NASH), the metabolic syndrome of the liver, characterised by the consequences of obesity (insulin resistance, production of free radicals, chronic inflammation) has become a new epidemic in the United States as in Europe. Diagnosis is suspected in patients with obesity, denying alcohol abuse, having typical co-morbitities (Hypertension, Diabetes mellitus, Hyperlipidemia). Liver histology confirms the diagnosis of NASH. Fatty liver without inflammation bears a good prognosis. Liver fibrosis, however, in NASH patients signalizes progression to liver cirrhosis and even HCC. Treatment modalities are limited. Reduction of body weight, physical activity, treatment of co-morbitities, specially Hypertension and Diabetes are of paramount importance. At the moment it remains unclear whether glitazone treatment could be introduced in the therapeutic armentarium.
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PMID:[Non-alcoholic steatohepatitis--a new epidemic]. 1806 58

Alcohol abuse is one of the major causes of liver fibrosis worldwide. Although the pathogenesis of liver fibrosis is a very complex phenomenon involving different molecular and biological mechanisms, several lines of evidence established that the first ethanol metabolite, acetaldehyde, plays a key role in the onset and maintenance of the fibrogenetic process. This review briefly summarizes the molecular mechanisms underlying acetaldehyde pro-fibrogenic effects. Liver fibrosis represents a general wound-healing response to a variety of insults. Although mortality due to alcohol abuse has been constantly decreasing in the past 20 years in Southern Europe and North America, in several Eastern-European countries and Great Britain Alcoholic Liver Disease (ALD) shows a sharply increasing trend [Bosetti, C., Levi, F., Lucchini, F., Zatonski, W.A., Negri, E., La, V.C., 2007. Worldwide mortality from cirrhosis: an update to 2002. J. Hepatol. 46, 827-839]. ALD has a complex pathogenesis, in which acetaldehyde (AcCHO), the major ethanol metabolite, plays a central role. Ethanol is mainly metabolized in the liver by two oxidative pathways. In the first one ethanol is oxidized to acetaldehyde by the cytoplasmic alcohol dehydrogenase enzyme (ADH), acetaldehyde is then oxidized to acetic acid by the mitochondrial acetaldehyde dehydrogenase (ALDH). The second pathway is inducible and involves the microsomal ethanol-oxidizing system (MEOS), in which the oxidation of ethanol to acetaldehyde and acetic acid also leads to generation of reactive oxygen species (ROS). Chronic ethanol consumption significantly inhibits mitochondrial ALDH activity while the rate of ethanol oxidation to acetaldehyde is even enhanced, resulting in a striking increase of tissue and plasma acetaldehyde levels [Lieber, C.S., 1997. Ethanol metabolism, cirrhosis and alcoholism. Clin. Chim. Acta 257, 59-84]. This review will focus on the molecular mechanisms by which acetaldehyde promote liver fibrosis.
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PMID:Alcohol induced hepatic fibrosis: role of acetaldehyde. 1816 54


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