Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0015695 (fatty liver)
 13,941 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of insulin resistance in non-alcoholic fatty liver disease is suggested by laboratory data (hyperinsulinemia and decreased sensitivity to endogenous and exogenous insulin). The clinical association with features of the metabolic syndrome, particularly in the most aggressive stages of the disease, further confirms a causative role. Fat accumulation in the liver may stem either from genetic defects, primarily responsible for insulin resistance, or excessive calorie intake and visceral obesity, and is mediated by adipocytokines (leptin, adiponectin, tumour necrosis factor-alpha). Progression of fatty liver to steatohepatitis may be the result of an imbalance between pro-inflammatory and anti-inflammatory cytokines, triggering the formation of reactive oxygen species and intrahepatic lipid peroxidation. This process may also be promoted or accelerated by pro-oxidant xenobiotics or environmental factors. Insulin resistance provides a target for specific treatment of non-alcoholic fatty liver, and insulin-sensitising agents (metformin or thiazolidinediones) as well as lifestyle changes to reduce visceral adiposity are the most promising therapeutic options. Future trials need to be performed in order to test the long-term effectiveness of these treatments on the basis of clinically relevant histological outcomes.
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PMID:Non-alcoholic fatty liver and insulin resistance: a cause-effect relationship? 1504 83

Nuclear receptors and their coactivators have been shown to function as key regulators of adipose tissue biology. Here we show that a ligand-dependent transcriptional repressor for nuclear receptors plays a crucial role in regulating the balance between energy storage and energy expenditure. Mice devoid of the corepressor protein RIP140 are lean, show resistance to high-fat diet-induced obesity and hepatic steatosis, and have increased oxygen consumption. Although the process of adipogenesis is unaffected, expression of certain lipogenic enzymes is reduced. In contrast, genes involved in energy dissipation and mitochondrial uncoupling, including uncoupling protein 1, are markedly increased. Therefore, the maintenance of energy homeostasis requires the action of a transcriptional repressor in white adipose tissue, and ligand-dependent recruitment of RIP140 to nuclear receptors may provide a therapeutic target in the treatment of obesity and related disorders.
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PMID:Nuclear receptor corepressor RIP140 regulates fat accumulation. 1515 5

Mitochondrial generation of reactive oxygen species (ROS) is increased in mice with fatty livers induced by genetic obesity, chronic consumption of ethanol, or methionine/choline-deficient diets. Both nuclear and mitochondrial (mt) DNA are targets for ROS-induced damage and accumulate hydroxylated bases, such as 8-hydroxy-2'-deoxyguanosine (8-oxoG) and base substitution of adenine with 8-oxoG (A*8-oxoG), that introduce mutations that promote cancer as well as cell death. The mammalian homolog of the bacterial DNA mismatch repair enzyme MutY (MYH) removes A*8-oxoG from nuclear and mtDNA, reduces 8-oxoG accumulation, and restores genomic stability after ROS exposure. Cumulative damage to mtDNA occurs as fatty liver disease progresses. Therefore, differences in hepatic MYH activity may influence the severity of fatty liver disease. To evaluate this hypothesis, we compared mtH2O2 production, MYH expression, oxidative DNA damage, and hepatocyte death in healthy mice and different mouse models of fatty liver disease. The results show that diverse causes of steatohepatitis increase mtROS production, limit repair of mtDNA, and oxidatively damage DNA. However, there are important differences in the DNA repair response to oxidant stress among mouse models of fatty liver disease. Independent of the degree of mtROS generation, models with the least MYH exhibit the greatest accumulation of 8-oxoG and the most hepatocyte death. These findings raise the intriguing possibility that inherited or acquired differences in DNA repair enzyme activity may underlie some of the interindividual differences in fatty liver disease outcomes.
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PMID:Oxidative DNA damage and DNA repair enzyme expression are inversely related in murine models of fatty liver disease. 1523 85

Hepatic steatosis is a consequence of both obesity and ethanol use. Nonalcoholic steatosis (NASH) resemble alcoholic steatosis and steatohepatitis. Both exhibit increased hepatocellular triglycerides(TG), reflecting an increase in long chain fatty acids (LCFA). LCFA enter cells by both facilitated transport and passive diffusion. A driving force for both is the plasma unbound LCFA concentration ([LCFAu]). In both obese rodents and obese patients, adipocyte LCFA uptake via both facilitated transport and diffusion is increased. However, the LCFA uptake Vmax in hepatocytes is not increased in obese animals. Nevertheless, total LCFA uptake in obese rodents is increased ~3-fold, reflecting increased plasma LCFA concentrations. With advancing obesity, resistance to the antilipolytic effects of insulin results in increased lipolysis within the omental fat depot, a consequent further rise in portal venous LCFA, and an even greater rise in portal [LCFAu]. This causes a further increase in hepatocellular LCFA uptake, increased intracellular generation of reactive oxygen species (ROS), and transition from simple steatosis to NASH. By contrast, in rodent hepatocytes and in human hepatoma cell lines, ethanol up-regulates the LCFA uptake Vmax. Consequently, although plasma LCFA are unaltered, hepatocellular LCFA uptake in ethanol-fed rats is also increased~3-fold, leading to increased ROS generation and evolution of alcoholic hepatitis. Thus, while increased hepatic LCFA uptake contributes to the pathogenesis of both NASH and alcoholic hepatitis,the underlying mechanisms differ. Recognizing these mechanistic differences is important in developing strategies for both prevention and treatment of these conditions.
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PMID:Lipid metabolism in hepatic steatosis. 1533 Oct 68

Liver-specific phosphoenolpyruvate carboxykinase (PEPCK) null mice, when fasted, maintain normal whole body glucose kinetics but develop dramatic hepatic steatosis. To identify the abnormalities of hepatic energy generation that lead to steatosis during fasting, we studied metabolic fluxes in livers lacking hepatic cytosolic PEPCK by NMR using 2H and 13C tracers. After a 4-h fast, glucose production from glycogenolysis and conversion of glycerol to glucose remains normal, whereas gluconeogenesis from tricarboxylic acid (TCA) cycle intermediates was nearly absent. Upon an extended 24-h fast, livers that lack PEPCK exhibit both 2-fold lower glucose production and oxygen consumption, compared with the controls, with all glucose production being derived only from glycerol. The mitochondrial reduction-oxidation (red-ox) state, as indicated by the NADH/NAD+ ratio, is 5-fold higher, and hepatic TCA cycle intermediate concentrations are dramatically increased in the PEPCK null livers. Consistent with this, flux through the TCA cycle and pyruvate cycling pathways is 10- and 40-fold lower, respectively. Disruption of hepatic cataplerosis due to loss of PEPCK leads to the accumulation of TCA cycle intermediates and a nearly complete blockage of gluconeogenesis from amino acids and lactate (an energy demanding process) but intact gluconeogenesis from glycerol (which contributes to net NADH production). Inhibition of the TCA cycle and fatty acid oxidation due to increased TCA cycle intermediate concentrations and reduced mitochondrial red-ox state lead to the development of steatosis.
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PMID:Impaired tricarboxylic acid cycle activity in mouse livers lacking cytosolic phosphoenolpyruvate carboxykinase. 1534 77

The traditional concept of adipose tissue as a passive reservoir for energy storage is no longer valid because it has been demonstrated that adipose tissue is a complex, essential, and highly active metabolic and endocrine organ that not only responds to afferent signals from traditional hormone systems and the central nervous system (CNS), but also expresses and secretes factors with important endocrine functions. These factors include leptin and other cytokines. Adipose tissue is also a major site for metabolism of sex steroids and glucocorticoids. The important endocrine function of adipose tissue is emphasized by adverse metabolic consequences of both adipose tissue excess and deficiency. Adipose tissue excess, particularly in visceral compartment, is associated with insulin resistance, hyperglycemia, dyslipidemia, hypertension, and prothrombotic and proinflammatory states. Liver is one of the principal targets of lipid-associated damage by mechanisms that involve apoptosis activation by source of tumoral necrosis factor-alpha and caspase activation and liberation of oxygen-reactive species by oxidative stress and enzymatic chains such as P450, CYP2E1, and CYP3A4, resulting in a continuum involving non alcohol-related fatty liver, non-alcoholic steatohepatitis with or without fibrosis, and liver cirrhosis. This work presents an overview of endocrine functions of adipose tissue and its influence on mechanisms of liver damage.
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PMID:[Obesity and steatohepatitis. Histologic aspects]. 1564 70

Insights provided by molecular biology, immunohistochemistry, and transmission electron microscopy have increased our understanding of the pathogenesis and histopathology of hepatitis C virus (HCV) infection, nonalcoholic steatohepatitis (NASH), and bile ductular proliferative reactions in a number of liver diseases. Human and chimpanzee liver infected with HCV showed viral-like particles (50 to 60 nm in diameter) as well as aggregates of short tubules that represent viral envelope material. Interactions of HCV core protein with apolipoproteins have a role in the pathogenesis of HCV-related steatosis. Pathologists should be aware of the spectrum of liver pathology described with the use of highly active antiretroviral therapy (HAART) agents for the human immunodeficiency virus infection, which includes microvesicular steatosis and more severe hepatic injury with confluent necrosis. Proliferation of bile ductular structures is influenced by specific molecules and proteins (eg, the mucin-associated trefoil proteins and estrogens). The interplay between Notch receptors and Jagged 1 protein, as expressed by many cells of the liver (including bile duct epithelium) varies in primary sclerosing cholangitis (PSC) and primary biliary cirrhosis (PBC). Cholangiocarcinoma does not appear to be a long-term complication of small duct PSC. The fatty liver diseases, both alcoholic and nonalcoholic, are characterized by production of reactive oxygen species that have detrimental effects such as opening mitochondrial permeability transition pores with resultant release of cytochrome c into the cytosol. Hepatocellular carcinoma is now a recognized late complication of NASH. The derivation of hepatic stem cells, the roles of HFE protein and other hepatic and intestinal transport proteins in hemochromatosis, and the histopathologic interpretive challenge of centrilobular lesions in posttransplant liver biopsies are among other recent studies considered in this review.
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PMID:Hepatobiliary pathology. 1570 59

The challenges of growing prevalence and evident trend to progressive damage of primary nonalcoholic fatty liver disease confront a poorly understood pathogenesis. It appears to develop in two steps. First, a high adipocyte protein production in the context of a silent inflammatory background causes insulin resistance in adipose tissue. It leads both to lipolysis, with increase of the circulating and hepatic uptake of free fatty acids, and hyperinsulinemia. Within hepatocytes, the subsequent lipogenesis, together with a decreased secretion of lipoproteins, induces an accumulation of excessive hepatic triglycerides (steatosis), impliying some oxidative damage, but it remain balanced by uncoupling protein upregulation and antioxidant systems activation. Second, a more forceful fat catabolism by beta and omega oxidation results in respiratory chain hyperactivity with overproduction of free radicals and reactive oxygen species that exceed the antioxidant capacity. These agents lead to hepatocellular injury and necrosis, inflammatory infiltration and fibrosis (steatohepatitis) through induction of Fas ligand and cytokines (tumor necrosis factor alpha, transforming growth factor beta, interleukin-8), and lipid peroxidation and by-products (malondialdehyde and 4-hydroxynonenal). Other mechanisms (hepatic iron, Kupffer cells dysfunction or endotoxemia) play uncertain roles.
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PMID:[Pathogenesis of primary nonalcoholic fatty liver disease]. 1588 16

The metabolic syndrome is strongly associated with insulin resistance and has been recognized as a cluster of risk factors for cardiovascular diseases such as visceral obesity, hypertension, and diabetes. There is a growing body of evidence to show that nonalcoholic steatohepatitis (NASH) is the hepatic manifestation of insulin resistant patients with the metabolic syndrome. Indeed, insulin resistance increases adipocyte lipolysis and subsequently elevates circulating free fatty acids, thus stimulating the accumulation of fatty acids in the liver (hepatic steatosis). Fatty acids elicit reactive oxygen species generation, thereby promoting disease progression to NASH by both lipid peroxidation and inflammatory cytokine production. Postprandial hyperglycemia, one of the characteristic features of insulin resistance, also induces oxidative stress generation, being involved in dysfunction of pancreatic beta cells and vascular wall cells in the metabolic syndrome. Recently, STOP-NIDDM trial revealed that acarbose (Glucobay), an alpha-glucosidase inhibitor, improved postprandial hyperglycemia and subsequently reduced the risk of development of type 2 diabetes and newly diagnosed hypertension in patients with impaired glucose tolerance. In this study, acarbose treatment was also found to reduce body mass index and waist circumference in these patients. Furthermore, a meta-analysis of seven long-term studies has also shown that intervention with acarbose improved triglyceride levels, body weight and systolic blood pressure and subsequently prevented myocardial infarction in type 2 diabetic patients. Since acarbose improves postprandial hyperglycemia by delaying the release of glucose from complex carbohydrates in the absence of an increase in insulin secretion, the beneficial aspects of acarbose could be ascribed to improvement of insulin sensitivity in these patients. Given the pathological link between NASH and insulin resistance, we would like to hypothesize here that acarbose may become a promising therapeutic strategy for the treatment of patients with NASH. Does acarbose treatment improve steatohepatitis histologically? Is the extent of histological improvement by acarbose parallel to that of insulin sensitivity in these patients? Large clinical trials will provide us with more definite information whether acarbose treatment can improve insulin sensitivity and resultantly reduce the risk of progression of liver diseases in patients with NASH.
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PMID:Acarbose is a promising therapeutic strategy for the treatment of patients with nonalcoholic steatohepatitis (NASH). 1592 16

Non-alcoholic steatohepatitis (NASH) represents only a part of a wide spectrum of non-alcoholic fatty liver disease (NAFLD) and its prevalence is only 2 - 3% in the general population. Obesity, diabetes, hyperlipidemia and female sex are important risk factors for NASH. Two hit theory describes very well the pathogenesis of NASH wherein hepatic steatosis, the first hit is followed up by the second hit, one of which may be reactive oxygen species. Mitochondria is the main source of reactive oxygen species which may trigger steatohepatitis by lipid peroxidation, cytokine induction or induction of fas-ligand. Insulin resistance syndrome is the only metabolic syndrome that has been consistently associated with NASH. The diagnosis rests on the hallmark histological features and rigorous exclusion of significant alcohol consumption. Most patients are asymptomatic, have mild-to-moderate elevations of serum aminotransferase levels, clinical hepatomegaly and features of fatty liver on imaging. Liver biopsy is essential for positive diagnosis and prognostication of NASH. Histologically, fat deposition is typically macrovesicular and inflammation of steatohepatitis is predominantly lobular. Neutrophilic cells in lobular inflammatory infilterate are a distinguishing feature of steatohepatitis and differentiate it from other chronic hepatitis. The pattern of collagen deposition is perivenular & peri-sinusoidal spaces in zone 3. NASH is a progressive disease in more than one in four and has spontaneous regression in less than one in six. Therapy options include weight reduction in obese, good control in diabetics and exercise. Ursodeoxycholic acid has membrane stabilizing, cytoprotective and immunological effect and normalizes raised transaminases. Liver transplantation has been done in NASH but transplanted liver shows re-development in more than two thirds. Many more therapies are in the pipeline and show promise for the future.
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PMID:Non-alcoholic steatohepatitis. 1592 3


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