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)

In vitro hepatic synthesis of lipids starting from 1-(14)C-acetate was studied in rats made diabetic by subcutaneous alloxan administration (175 mg/kg b.w.). A second group of diabetic rats was treated with lente insulin. In the alloxan-treated rats, a decrese was observed in hepatic incorporation of 1-(14)C-acetate into phospholipids, triglycerides and esterified cholesterol; there was an increased incorporation into nonesterified fatty acids (NEFA) and free cholesterol. Insulin administration restored lipid synthesis values to normal. On histologic examination, an intranuclear glycogenesis was observed in the hepatocytes of the alloxan-treated rats, along with severe hepatic necrosis; the latter however, only in rats sacrified on the 3rd day. Hepatic steatosis with small, medium and large droplets was present in the insulin-treated rats; signs of cellular degeneration were less evident.
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PMID:Effects of insulin on hepatic lipid synthesis in alloxan diabetic rats. 39 74

Plasma lipids and lipoproteins, glucose tolerance, plasma insulin response to glucose load, and liver function were examined in 81 relatives of 12 index cases with primary endogenous hypertriglyceridemia, hyperinsulinemia, and hepatic steatosis, as well as in 90 nonrelatives, including the spouses, as controls. Insulin hypersecretion (with or without glucose intolerance), endogenous hypertriglyceridemia, and abnormal liver function suggesting hepatic steatosis were shown to exist in the relatives mostly in combined fashion. Correlation analysis and stepwise multiple regression analysis revealed that the combined disorder developed on the basis of obesity. The incidence of diabetes mellitus was significantly high in the relatives (14.8 per cent) as compared with the normal Japanese population (3.5 per cent). Although the vertical transmission of the combined disorder was noted in almost all pedigrees, the frequency distribution analysis of insulin response, glucose tolerance, and plasma triglyceride showed the histograms of these variables similarly skewed to the right as compared with those of the controls, with no apparent bimodality. In view of the hitherto suggested role of insulin in triglyceride metabolism, it is concluded that hyperinsulinemia coupled with obesity seems to be the basic trait of this form of familial hypertriglyceridemia and hepatic steatosis, though the mode of transmission remains to be elucidated.
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PMID:Interactions of obesity and glucose-stimulated insulin secretion in familial hypertriglyceridemia. 65 14

In order to investigate the combined effects of diabetes and hypertension on the pathogenesis of cardiovascular disease, adult male and female SHR rats which develop hypertension spontaneously were given a single, 10 mg or 15 mg/100 g body wt. injection of alloxan s.c. to induce moderate or severe diabetes. Insulin was deliberately withheld. Animals were examined by autopsy daily for 7 days post-alloxan and after 4 and 8 weeks. Mortality was high--only 52% of the males survived as against 80% of the females. Most deaths occurred on Day 5 and were associated with adrenal haemorrhage and hyperplasia, thymus galnd involution, fatty liver and marked hypotension despite elevated aldosterone levels. During the first week, corticosterone levels increased significantly in the male; in females they showed little change. After 4 weeks, the severly diabetic animals became emaciated and moribund; corticosterone and aldosterone levels fell to very low levels despite adrenal hyperplasia. The beta cells of the moderately diabetic animals eventually lost their ability to secrete insulin and these animals too became cachetic and moribund with concomitant elevation of lipid, glucose and BUN levels, as well as myocardial infarction, fatty liver, and generalized hyalin arteriolo-, arterio-, and nephrosclerosis. It is suggested that the combined hormonal and metabolic alterations of diabetes and hypertension reinforced one another in these spontaneously hypertensive rats, leading to intense stimulation of the hypothalamic-pituitary-adrenal system, the exacerbation of those cardiovascular degenerative changes known to be associated with uncontrolled diabetes or hypertension, eventual impaired adrenocortical steroidogenesis, hypotension and death.
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PMID:Alloxan diabetes in spontaneously hypertensive rats: gravimetric, metabolic and histopathological alterations. 86 Nov 67

The hepatic toxicity of TPN that is seen clinically appears to be multifactorial in origin. Most patients develop a combination of hepatic steatosis with evidence of cholestasis and abnormalities in liver function. The model that we have studied is one of pure hepatic steatosis since, on repeated study, these rats do not develop any liver function abnormalities. It is unclear whether this is related to the fact that these are short-term experiments, that rat livers respond differently from humans, or that rats do not have gallbladders. It has not been possible to carry these experiments out beyond 3 weeks since the rats develop bacterial colonization of the central lines as well as evidence of line sepsis. thus confounding the issue of hepatic toxicity being due to the TPN or to sepsis. One hypothesis is that hepatic steatosis is an early marker of liver toxicity and that prevention or reversal of hepatic steatosis may protect the liver from further abnormality. Insulin and glucagon seem to play a critical role in the development of TPN-associated hepatic steatosis. Specifically, an elevated portal venous insulin-glucagon molar ratio appears to be the primary stimulus and any treatment that lowers this ratio should diminish hepatic steatosis. The use of glucagon as a treatment modality is new. We have found no evident side effects of low dose glucagon in rats when it is added to the TPN solution. Glutamine has received much attention recently as a nutritional pharmacological agent in ameliorating some of the intestinal complications of parenteral nutrition and is well tolerated when administered appropriately. Intravenous lipid administration is an important nonprotein calorie source, especially when a high dextrose base cannot be used, and plays a role as well in preventing the development of hepatic steatosis. Thus, it is suggested that the clinical treatment of hepatic steatosis during TPN can be safely performed using any one, or a combination, of these modalities and without having to discontinue the TPN infusions. Since we observed no deterioration of liver function in rats receiving TPN for up to 2 weeks, we cannot completely relate these findings and recommendations to the hepatic dysfunction seen clinically with the use of TPN. Additional study will be required before this can be conclusively determined.
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PMID:Pathogenesis of hepatic steatosis during total parenteral nutrition. 190 28

Hepatic steatosis is one of the two principal hepatic complications of total parenteral nutrition (TPN), the other being cholestasis. While the cause is uncertain, an excess of carbohydrate calories in rats leads to an elevated portal insulin/glucagon (I/G) molar ratio, periportal fatty infiltration, and increased total hepatic lipid content. Insulin causes fatty acid biosynthesis, whereas glucagon causes hepatic release and inhibition of fatty acid synthesis. Thus we attempted to add glucagon to lower the I/G to see if this would affect the degree of hepatic fatty infiltration by encouraging hepatic fat mobilization. Adult rats (n = 21) received internal jugular catheters; Group 1 (n = 7) was given saline solution (3 ml/h) and chow ad libitum; Group 2 (n = 7), 25% dextrose-base (D25W) TPN solution; Group 3 (n = 7), D25W TPN + 33 micrograms/100 gm/day glucagon. At 7 days portal and peripheral venous blood samples were drawn for insulin and glucagon radioimmunoassay and blood glucose determination; livers were removed for histologic study and lipid determination. Blood glucose did not differ in any group. Hepatic lipid and peripheral and portal venous I/G were increased and periportal fatty infiltration was extensive in Group 2, whereas hepatic lipid and I/G were decreased and periportal fatty infiltration was absent in glucagon-infused rats (Group 3). An abnormally high I/G ratio in portal blood elicited by high-glucose TPN may be responsible, at least in part, for hepatic steatosis. By increasing hepatic lipid export, addition of glucagon to TPN may play a major role in decreasing hepatic steatosis.
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PMID:Addition of glucagon to total parenteral nutrition (TPN) prevents hepatic steatosis in rats. 313 27

Coexistence of hyperinsulinemia and normal or impaired carbohydrate tolerance indicates insulin resistance which is frequently observed in patients with liver diseases such as liver cirrhosis, fatty liver, acute and chronic hepatitis and idiopathic haemochromatosis. Insulin resistance in liver diseases can be due to circulating insulin antagonists or a target tissue defect in insulin action, either due to changes in the state of the insulin receptor or due to a postreceptor defect, that means any abnormality in the insulin action sequence following the initial binding step. High insulin levels in liver diseases are caused by diminished degradation of insulin by the liver whereas hypersecretion only plays a minor role under basal conditions. High levels of glucagon, free fatty acids and growth hormone are well known in liver diseases but until now there is no evidence of the pathogenetic importance of these factors. Conflicting results on insulin binding, methodological criticism on binding data and the question whether or not diminished insulin binding on peripheral blood cells plays any physiological role make it unlikely that studies on insulin receptors of peripheral blood cells contribute to the revelation of insulin resistance in liver diseases. The clamp technique allows to quantify the sensitivity of the body to exogenous insulin. The results on liver cirrhosis in connection with studies on glucose metabolism show that under basal conditions insulin insensitivity is due to peripheral resistance (primarily muscle) according to a postreceptor defect. Finally the causes of insulin resistance in liver diseases are still not known.
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PMID:[Insulin resistance in liver diseases]. 353 94

Insulin responses to oral glucose loads were studied in patients with obstructive jaundice and compared with those of other liver diseases (fatty liver, chronic hepatitis and liver cirrhosis), pancreatic diseases, and definite diabetes mellitus. Compared with their corresponding glucose intolerance, high insulin responses were characteristic in fatty liver, chronic hepatitis and liver cirrhosis, and insulin responses and insulinogenic index decreased in chronic hepatitis and liver cirrhosis as glucose intolerance progressed. In obstructive jaundice with the pancreatic ducts stenotic or obstructed, insulin responses were suppressed in comparison with their corresponding glucose intolerance, and also insulinogenic index were below 0.5 in most of the cases. However, in obstructive jaundice with the pancreatic ducts intact, high insulin responses were observed in almost half of the cases with insulinogenic index above 0.5, and insulin response and insulinogenic index decreased as glucose intolerance progressed. While most cases of fatty liver, chronic hepatitis and liver cirrhosis with insulinogenic index above 0.5 were distributed in non-diabetes zone in sigma BS-sigma IRI plane (Kosaka's), those with insulinogenic index below 0.5 were distributed in intermediate zone. Most cases with obstructive jaundice with pancreatic ducts stenotic or obstructed, had insulinogenic index below 0.5 and were distributed in diabetes zone. However, half of cases with obstructive jaundice with pancreatic ducts intact, had insulinogenic index above 0.5 and their distribution in non-diabetes zone, while the other half had insulinogenic index below 0.5 and their distribution in diabetes zone. Therefore, it may be concluded that insulin responses increase at the early stage of obstructive jaundice mainly under influence of liver dysfunction itself, but that insulin response is suppressed at later stage of obstructive jaundice as pancreatic islets are affected.
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PMID:[Clinical study on glucose intolerance and insulin response in obstructive jaundice]. 388 96

Insulin and C-peptide in venous blood were determined during oral glucose tolerance testing in 59 non-manifest diabetics with histologically established chronic liver disease (fatty degeneration, chronic aggressive hepatitis, cirrhosis). Glucose tolerance was pathologic in 60-80% of patients. When compared to a control group patients with chronic liver disease showed significantly increased values of blood glucose (after glucose intake), of insulin and of C-peptide (fasting and after glucose intake). The C-peptide/insulin ratio, a measure of hepatic insulin degradation, was significantly decreased after glucose uptake. There were no significant differences of blood sugar, insulin and C-peptide among the various liver diseases. In chronic aggressive hepatitis and in cirrhosis the C-peptide/insulin ratio was partly significantly lower than in fatty degeneration. From the increased C-peptide values increased insulin secretion in chronic liver diseases can be deducted. In addition, the decreased C-peptide/insulin ratios show an impairment of insulin degradation in liver cirrhosis and other chronic hepatic diseases. However, in fatty liver degeneration this is clearly less pronounced than in more serious liver diseases.
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PMID:[Insulin and C-peptide in chronic liver diseases during oral glucose tolerance testing]. 636 4

Oxidative stress in the course of diabetes mellitus can cause disturbance of lipid membranes of cellular organelles. The study is aimed at the determination of oxidative phosphorylation in mitochondria in rats with experimentally induced acute and chronic insulin-dependent diabetes mellitus (IDDM). IDDM was induced by single dose of streptozotocin (45 mg per kg-1). Insulin Interdep (6 U per kg-1) was administered once a day subcutaneously. The authors investigated glycaemia, cholesterol and triacylglycerol concentrations in the blood and liver. Isolation of mitochondria was succeeded by measurement of oxidative phosphorylation indicators after 8 days (acute IDDM) or after 8 weeks (chronic IDDM) from streptozotocin administration. The authors found out that both acute and chronic IDDM were concommited by hyperglycaemia. The group with acute IDDM yielded an increase in cholesterol and triacyglycerols concentrations in the blood, as well as that of cholesterol in the liver. The group with chronic IDDM yields an increase in cholesterol in the blood. Trialcylglycerols in the liver increased in none of the investigated groups. Liver steatosis did not occur. Indicators of oxidative phosphorylation in the liver mitochondria of rats with acute and with chronic IDDM decreased in contrast to healthy controls from NAD substrates glutamate and pyruvate and also form FAD substrate of succinate. Significant decrease in consumption of oxygen in the 3 state occurred, while in acute IDDM the decrease was more significant than in chronic IDDM. Phosphorylation rate significantly decreased in contrast to controls, but there was no difference between IDDM groups. The investigation results imply that in both acute and chronic IDDM there are decreased effectivity of energetic metabolism in liver mitochondria. (Tab. 5, Ref. 29.).
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PMID:[Bioenergetics of liver mitochondria in rats in experimental insulin-dependent diabetes]. 901 45

The accumulation of triglycerides in the liver has been associated with reduced hepatic function; however, direct evidence that fat accumulation causes decreased liver function is lacking. Hepatocyte monolayers isolated from ruminating calves with an initial low triglyceride concentration were either loaded or not loaded with triglycerides by incubation with 1.5 or 0 mM exogenous nonesterified fatty acids from 12 to 48 h after plating. Basal rates of synthesis of albumin and protein were not affected by triglycerides in the cell. Inclusion of insulin and glucagon from 12 to 72 h after plating increased rates of albumin and protein synthesis. Hepatocytes loaded with triglycerides were less sensitive to the hormonal stimulation of albumin and protein synthesis than were normal hepatocytes. Insulin clearance rates were also lower in hepatocytes loaded with triglycerides than in normal hepatocytes. Decreased insulin clearance and hormonal control of protein synthesis could contribute to the etiology of metabolic disorders that are associated with periparturient fatty liver in dairy cows.
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PMID:Relationship of triglyceride accumulation to insulin clearance and hormonal responsiveness in bovine hepatocytes. 956 77


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