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:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients with chronic hepatitis C virus (HCV) infection have a significantly increased prevalence of type 2 diabetes mellitus compared to controls or HBV-infected patients. Moreover, the incidence rate of post-liver transplantation diabetes mellitus (PTDM) also appears to be higher among patients with HCV infection. PTDM is often associated with direct viral infection, autoimmune disorders, and immunosuppressive regimen. Activation of tumor necrosis factor-alpha may be the link between HCV infection and diabetes. In this article, we reviewed the epidemiologic association between HCV infection and PTDM, highlighting the most recent pathophysiologic insights into the mechanisms underlying this association.
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PMID:Chronic hepatitis C virus infection and post-liver transplantation diabetes mellitus. 1627 31

We report on a patient whose type 2 diabetes mellitus resolved during IFN-alpha therapy for hepatitis C virus (HCV). A 40-year-old man was diagnosed with type II diabetes in year 2000. His body mass index (BMI) was 30.8 kg/m and glycosylated haemoglobin (HbA1c) was 10.7%. He was treated with metformin. Later, his glycaemic control deteriorated despite additional dietary and lifestyle advice and the addition of glibenclamide. He was started on subcutaneous insulin in 2002 with the continuation of metformin. In 2003 he was diagnosed with chronic hepatitis caused by HCV. In September 2003 he was started on IFN-alpha and ribavirin. After 24 weeks of treatment his HCV polymerase chain reaction remained positive and treatment was stopped as per guidelines. At the commencement of antiviral therapy, HbA1c was 7.7%. In April 2004 his BMI of 29.38 kg/m had reduced and he then stopped insulin therapy because of repeated hypoglycaemia. After stopping insulin his HbA1c was 4.7%. Fasting plasma glucose of 6.2 mmol/l and anti-glutamic acid decarboxylase antibodies were negative. Urea and creatinine levels were normal. Most of the earlier literature describes diabetes developing in the course of IFN-alpha therapy for a variety of diseases. More recent research has described a relationship between hepatitis C infection and the development of diabetes and insulin resistance. Responders to IFN-alpha treatment manifest an improvement in insulin sensitivity compared with non-responders after the completion of IFN-alpha therapy. Our case shows the resolution of pre-existing diabetes in a patient with chronic HCV infection, which did not respond to IFN-alpha therapy. Whether this occurred as a direct result of IFN-alpha on insulin sensitivity or indirectly as a result of weight loss because the therapy for HCV precipitated additional lifestyle changes in the patient is as yet unclear.
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PMID:Resolution of diabetes in type 2 diabetic patient treated with IFN-alpha and ribavirin for hepatitis C. 1646 44

Steatosis is a common histological feature of chronic hepatitis C. Two distinct mechanisms seem to be involved in the pathogenesis of hepatic steatosis in chronic hepatitis C virus (HCV) infection. In HCV genotype 3-infected patients, steatosis is likely viral-induced, and represents a direct cytopathic effect of HCV, whereas in patients infected with other genotypes, host metabolic risk factors for insulin resistance such as obesity, type 2 diabetes and hyperlipidemia play a major role in intracellular lipids accumulation. Interestingly, the outcome of steatosis matches the virological response to treatment in HCV genotype 3-infected patients who have purely virus-induced steatosis but not in patients with metabolic causes of steatosis. Suspected molecular underlying mechanisms include interactions between the HCV core protein and intracellular lipid metabolism pathways as well as induction of insulin resistance. Steatosis is of clinical importance as it appears to be associated with more rapid liver fibrosis progression and impaired response to antiviral therapy. However, whether metabolic and host factors associated with steatosis, steatosis per se or both, may be responsible for this association remains to be clarified. This review is aimed at describing the current knowledge of steatosis, insulin resistance and fibrosis progression in chronic hepatitis C.
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PMID:Steatosis, insulin resistance and fibrosis progression in chronic hepatitis C. 1655 84

Non-alcoholic fatty liver disease (NAFLD) is now recognized as one of the most important causes of chronic liver disease in Western Countries, and is the hepatic manifestation of metabolic syndrome. The prevalence of NAFLD has increased with the global epidemic of obesity and type 2 diabetes mellitus. The pathophysiological hallmark of NAFLD is insulin resistance, associated with mediators of oxidative stress and inflammatory cytokines. Although simple steatosis by itself is generally benign, patients with histologically proven non-alcoholic steatohepatitis (NASH) can progress to cirrhosis. Hepatitis C (HCV) is another common cause of liver disease with some potential for progression to cirrhosis. Steatosis is present in almost 50% of patients infected by HCV. Hepatic steatosis in the setting of another liver disease (such as HCV) is associated liver disease progression. In particular, significant fibrosis is observed in patients with HCV whose liver biopsies show significant steatosis or superimposed NASH. This article reviews the host and viral factors potentially involved in the interaction between NAFLD and HCV. These factors include mediators of metabolic syndrome such as adipokines, inflammatory cytokines, factors associated with oxidative stress, lipid peroxidation products, as well as apoptosis and hepatic stellate cell activation with the resultant deposition of extracellular matrix. In addition to the mediators of metabolic syndrome (host factors), hepatic steatosis can be influenced by viral factors. The most important viral factor is HCV genotype 3, which has been independently associated with hepatic steatosis. Finally, superimposed NAFLD and visceral fat are associated with lower response rates to antiviral therapy in non-genotype 3 patients. Furthermore, viral clearance is associated with the resolution of hepatic steatosis in HCV genotype 3 but not other HCV genotypes. In these genotypes, hepatic steatosis and its impact on response to therapy are related to metabolic syndrome. Thus, the management of obesity and metabolic syndrome in patients with chronic hepatitis C may be important for reducing the risk of progression as well as improving the efficacy of antiviral therapy.
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PMID:Non-alcoholic fatty liver disease and hepatitis C infection. 1655 85

Hepatocellular cancer is the fifth most frequent cancer in men and the eighth in women worldwide. Established risk factors are chronic hepatitis B and C infection, chronic heavy alcohol consumption, obesity and type 2 diabetes, tobacco use, use of oral contraceptives, and aflatoxin-contaminated food. Almost 90% of all hepatocellular carcinomas develop in cirrhotic livers. In Western countries, attributable risks are highest for cirrhosis due to chronic alcohol abuse and viral hepatitis B and C infection. Among those with alcoholic cirrhosis, the annual incidence of hepatocellular cancer is 1-2%. An important mechanism implicated in alcohol-related hepatocarcinogenesis is oxidative stress from alcohol metabolism, inflammation, and increased iron storage. Ethanol-induced cytochrome P-450 2E1 produces various reactive oxygen species, leading to the formation of lipid peroxides such as 4-hydroxy-nonenal. Furthermore, alcohol impairs the antioxidant defense system, resulting in mitochondrial damage and apoptosis. Chronic alcohol exposure elicits hepatocyte hyperregeneration due to the activation of survival factors and interference with retinoid metabolism. Direct DNA damage results from acetaldehyde, which can bind to DNA, inhibit DNA repair systems, and lead to the formation of carcinogenic exocyclic DNA etheno adducts. Finally, chronic alcohol abuse interferes with methyl group transfer and may thereby alter gene expression.
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PMID:Risk factors and mechanisms of hepatocarcinogenesis with special emphasis on alcohol and oxidative stress. 1660 31

Insulin resistance is the major feature of the metabolic syndrome and depends on insulin secretion and insulin sensitivity. In chronic hepatitis C, insulin resistance and type 2 diabetes mellitus are more often seen than in healthy controls or chronic hepatitis B patients. Hepatitis C virus (HCV) infection promotes insulin resistance, mainly by increased TNF production together with enhancement of suppressor of cytokine (SOC-3); both events block PI3K and Akt phosphorylation. Two types of insulin resistance could be found in chronic hepatitis C patients: "viral" and "metabolic" insulin resistance. Insulin resistance in chronic hepatitis C is relevant because it promotes steatosis and fibrosis. The mechanisms by which insulin resistance promotes fibrosis progression include: (1) steatosis, (2) hyperleptinemia, (3) increased TNF production, (4) impaired expression of PPARgamma receptors. Lastly, insulin resistance has been found as a common denominator in patients difficult-to-treat like cirrhotics, overweight, HIV coinfected and Afro-American. Insulin resistance together with fibrosis and genotype has been found to be independently associated with impaired response rate to peginterferon plus ribavirin. Indeed, in genotype 1, the sustained response rate was twice (60%) in patients with HOMA < or = 2 than patients with HOMA > 2. In experiments carried out on Huh-7 cells transfected by full length HCVRNA, interferon alpha blocks HCV replication. However, when insulin (at doses of 128 microU/mL, similar that seen in the hyperinsulinemic state) was added to interferon, the ability to block HCV replication disappeared, and the PKR synthesis was abolished. In summary, hepatitis C promotes insulin resistance and insulin resistance induces interferon resistance, steatosis and fibrosis progression.
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PMID:Insulin resistance and hepatitis C. 1713 67

Worldwide approximately 200 million people are chronically infected with hepatitis C virus (HCV). Chronic HCV infection represents the leading cause of liver cirrhosis and the main indication for liver transplantation in the western world. In addition, chronic HCV infection is associated with numerous clinical manifestations, including type 2 diabetes. An obvious and frequently suggested explanation for the connection between HCV infection and type 2 diabetes is that cirrhosis by itself causes insulin resistance. However, the prevalence of type 2 diabetes in HCV cirrhosis is higher than in HBV cirrhosis (23.6% vs 9.4%). This suggests that HCV infection by itself can lead to insulin resistance and predispose to the onset of type 2 diabetes. First, HCV core protein induces hepatic steatosis by inhibition of microsomal triglyceride transfer protein and hepatic steatosis causes insulin resistance. Secondly, HCV core protein inhibits, through elevation of TNF-alfa and other factors, the insulin-signalling pathways causing insulin resistance. Moreover, recent data strongly suggest that insulin resistance is an important predictor of poor response to antiviral therapy in chronic hepatitis patients treated with peginterferon plus ribavirin.
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PMID:Hepatitis C and insulin resistance: mutual interactions. A review. 1754 92

Diabetes is a risk factor for the progression of liver fibrosis and development of hepatocellular carcinoma in chronic hepatitis C. However, the impact of diabetes on the long-term prognosis and the synergistic interactions of various host factors for diabetes to the progression of liver fibrosis are unknown. In the present study, we examined the host factors associated with the progression of hepatitis C in 68 patients with a posttransfusion hepatitis (PTH) and analyzed the relationships. Multivariate analysis showed that age of PTH, being male, and type 2 diabetes mellitus were risk factors for the progression of liver fibrosis. By the Kaplan-Meier method, the cirrhosis-free survival rates after the onset of PTH were significantly lower in the diabetic group than in the nondiabetic group (P < .01). Diabetes also had a great impact on the long-term prognosis of chronic hepatitis C by reducing the time from PTH to the occurrence of hepatocellular carcinoma (P < .01) and to liver-related death (P < .05). Coexistence of obesity (body mass index > or =25 kg/m(2)) or hypertriglyceridemia (> or =150 mg/dL) with diabetes had a synergistic effect on liver fibrosis progression in patients with chronic hepatitis C. Thus, the treatment of diabetes, obesity, and hypertriglyceridemia may hold the key to improving the prognosis of chronic hepatitis.
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PMID:Impact of diabetes mellitus on prognosis of patients infected with hepatitis C virus. 1799 21

Hepatitis C virus (HCV) is a major cause of chronic liver diseases, including steatosis, cirrhosis and hepatocellular carcinoma, and epidemiological studies indicate that HCV is also associated with insulin resistance and type 2 diabetes mellitus. The HCV core protein is not only a viral structural component but also a pathogenic factor, since its expression leads to the development of liver steatosis, insulin resistance and hepatocellular carcinoma in mice. The nuclear proteasome activator PA28gamma/REGgamma, which specifically binds to the core protein, is required for the virulence of the core protein. Elucidation of the mechanisms by which HCV core protein participates in the above conditions may provide clues toward the development of novel therapeutic measures for chronic hepatitis C.
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PMID:Hepatitis C virus core protein: its coordinate roles with PA28gamma in metabolic abnormality and carcinogenicity in the liver. 1832 62

Insulin resistance is extremely common and frequently is associated with comorbid conditions such as cardiovascular disease, hypertension, obesity, infertility, and neurodegeneration. In addition, insulin resistance is the driving force for type 2 diabetes mellitus. Interestingly, co-existence of insulin resistance and chronic hepatitis C occurs more often than predicted by chance, with recent estimates indicating that 30% to 70% of patients with chronic hepatitis C display some evidence of insulin resistance. Recent research revealed several molecules, including tumor necrosis factor alpha, suppressor of cytokine signaling 1 and 3 proteins, insulin-receptor substrates 1 and 2, and other adipocytokines, potentially are involved in the development of insulin resistance in patients with chronic hepatitis C. Unfortunately, baseline insulin resistance has a negative impact on treatment outcomes in patients with chronic hepatitis C. However, successfully managing insulin resistance or diabetes mellitus in these patients may improve patients' likelihoods of successful outcomes with antiviral therapy. Likewise, eradication of hepatitis C virus in patients with insulin resistance or diabetes mellitus appears to improve glucose metabolism. Although adjunctive therapies such as insulin sensitizers and weight loss often are recommended, their ability to improve antiviral treatment response in patients with chronic hepatitis C is unproven. Studies are under way to determine whether improving insulin sensitivity results in better outcomes in patients receiving pegylated interferon alfa plus ribavirin therapy for chronic hepatitis C.
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PMID:Insulin resistance among patients with chronic hepatitis C: etiology and impact on treatment. 1858 70


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