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 amino acid composition of proteins from liver mitochondrial membranes has been studied in patients with normal liver, with biliary diseases and fatty liver, with obstructive jaundice or liver cirrhosis. A characteristic pattern of the amino acid composition in patients with normal liver has been found. In the mitochondrial membranes of patients with fatty liver tryptophan and lysine were decreased while [aspartic acid plus asparagine] and [glutamic acid plus glutamine] were increased compared to their counterpart in the normal liver. In patients with obstructive jaundice of short duration (less than two months) only a slight decrease in methionine content was found, while in the case of liver cirrhosis amino acid composition was markedly changed.
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PMID:Amino acid composition of human liver mitochondrial membranes in normal and pathological conditions. 186 76

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

Rats fed an elemental, enteral diet (STD) developed pancreatic atrophy and hepatic steatosis following 60% jejunoileal intestinal resection. An isonitrogenous, isocaloric 2 g/100 ml glutamine-supplemented diet (GLN) significantly attenuated the development of pancreatic atrophy and hepatic steatosis associated with elemental feeding. Pancreatic weight, DNA, and protein were 27, 22, and 40% increased, respectively, in GLN animals. The pancreata of all animals appeared normal by light and electron microscopic examination. GLN animals had 12% less total liver wet weight, 3% less hepatic water content, and 47% less hepatic fat relative to STD rats. Histologic examination of the liver revealed extensive centrilobular fatty vacuolization in STD animals whereas GLN rats had normal looking hepatic parenchyma. Glutamine should be viewed as an important nutrient in elemental diets with trophic effects on the pancreas and protective effects against the development of hepatic steatosis.
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PMID:Glutamine prevents pancreatic atrophy and fatty liver during elemental feeding. 197 Oct 31

Infusion of total parenteral nutrition (TPN) with excess carbohydrate calories leads to hepatic steatosis in rats and is associated with an elevated portal insulin/glucagon molar ratio. Previously we have shown that adding glucagon to TPN prevents and reverses hepatic steatosis in rats, possibly by increasing hepatic lipid export. It has been reported that steatosis is eliminated in rats by the addition of L-glutamine to TPN. In this study, we examined the effect of glutamine on portal insulin and glucagon levels and the development of hepatic steatosis. Adult rats (n = 19) received internal jugular catheters: Group 1 (n = 6), saline (3 cc/hr) and chow ad libitum; Group 2 (n = 7), 25% dextrose base TPN; Group 3 (n = 6), 25% dextrose base TPN with 2% glutamine. The infusion rate of TPN was 1.2 cc/100 g body wt/hr. Daily nitrogen balance was determined and at 7 days, portal venous blood was drawn for insulin and glucagon radioimmunoassay, livers were removed for histology and lipid content determination, and the small intestines were removed for mucosal protein and DNA content determination. Panlobular vacuolization of the hepatocytes was noted on histology in Group 2 (TPN) while Group 1 (chow) and Group 3 (TPN + glutamine) showed normal liver morphology. Hepatic lipid content was significantly elevated in Group 2 (P less than 0.05). The portal insulin/glucagon molar ratio was increased because of excessive portal venous insulin in Group 2 (TPN). In contrast, portal glucagon was significantly elevated while the insulin/glucagon ratio and hepatic lipid content did not increase above control levels in the glutamine-supplemented Group 3 rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Addition of L-glutamine to total parenteral nutrition and its effects on portal insulin and glucagon and the development of hepatic steatosis in rats. 211 67

Despite provision of adequate calories, defined formula diets in rats lead to bacterial translocation (BT), fatty infiltration of the liver, and an increased susceptibility to endotoxin. These deleterious effects may be due in part to a loss of intestinal barrier integrity resulting from bowel atrophy. Defined formula diets lack both glutamine and fiber, substances which may help maintain intestinal mass. To determine whether supplementation of defined formula diets with either glutamine or fiber might prevent bowel atrophy and, thus, BT, hepatic steatosis, and the altered response to endotoxin, Wistar rats were fed (1) defined formula diet ad libitum (DFD), (2) (DFD + 2% (w/v) glutamine, (GLUT), or (3) DFD + 2% (w/v) psyllium (FIBER). Rats given standard food isocalorically pair-fed to DFD were used as controls. Nutritional status was assessed by daily weight gain, as well as the ability to maintain serum albumin, hematocrit and white blood counts. After 2 weeks of these feeding regimens, animals were sacrificed, and organ weights and composition were determined, with rates of bacterial translocation determined by mesenteric lymph node, abdominal viscera, and cecal cultures. Additional animals receiving the same experimental diets were subsequently challenged with endotoxin and observed for mortality with rates of post-endotoxin BT and the responses of acute phase proteins and cytokines measured. All dietary regimens resulted in equivalent weight gain and other nutritional parameters. Both glutamine and fiber supplementation maintained small bowel mass, but only GLUT preserved normal jejunal mucosal architecture. Neither fiber nor glutamine supplementation prevented cecal bacterial overgrowth or BT, resulting from the DFD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Harry M. Vars award. Glutamine or fiber supplementation of a defined formula diet: impact on bacterial translocation, tissue composition, and response to endotoxin. 216 35

Mitochondrial long chain fatty acid beta-oxidation provides the major source of energy in the heart. Deficiencies of human beta-oxidation enzymes produce sudden, unexplained death in childhood, acute hepatic encephalopathy, skeletal myopathy, or cardiomyopathy. Long chain 3-hydroxyacyl-CoA dehydrogenase [LCHAD; long-chain-(S)-3-hydroxyacyl-CoA:NAD+ oxidoreductase, EC 1.1.1.211] catalyzes the third step in beta-oxidation, and this activity is present on the C-terminal portion of the alpha subunit of mitochondrial trifunctional protein. We used single-stranded conformation variance analysis of the exons of the human LCHAD (alpha subunit) gene to determine the molecular basis of LCHAD deficiency in three families with children presenting with sudden unexplained death or hypoglycemia and abnormal liver enzymes (Reye-like syndrome). In all families, the mothers had acute fatty liver and associated sever complications during pregnancies with the affected infants. The analysis in two affected children revealed a G to C mutation at position 1528 (G1528C) of the alpha subunit of the trifunctional protein on both alleles. This is in the LCHAD domain and substitutes glutamine for glutamic acid at position 474 of mature alpha subunit. The third child had this G1528C mutation on one allele and a different mutation (C1132T) creating a premature termination codon (residue 342) on the second allele. Our results demonstrate that mutations in the LCHAD domain of the trifunctional protein alpha subunit in affected offspring are associated with maternal acute fatty liver of pregnancy. This is the initial delineation of the molecular basis of isolated LCHAD deficiency.
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PMID:The molecular basis of pediatric long chain 3-hydroxyacyl-CoA dehydrogenase deficiency associated with maternal acute fatty liver of pregnancy. 784 63

The effect of glutamine on hepatic steatosis and serum amino acid pattern was studied in rats receiving total parenteral nutrition (TPN) with different levels of caloric intake. Rats were divided into four groups; a control group (n = 10) was fed a chow diet and infused with saline only. Three experimental groups (n = 8 to 10) received TPN solutions at energy levels of 25 kcal, 30 kcal, and 35 kcal/100 g body weight, respectively. The experimental groups were maintained with TPN for a period of 6 days. Each experimental group was divided into two subgroups, one of which was supplemented with glutamine, replacing 40% of the total amino acid nitrogen. All of the basal TPN solutions were isonitrogenous and identical in nutrient composition, except for the difference in energy level, which was adjusted with glucose. The results demonstrated that liver fat increased in accordance with the increase of glucose supply, and this increase was mainly due to triglyceride accumulation. Very-low-density lipoprotein-triglyceride and serum free fatty acid were significantly higher in the 30-kcal groups. There were no differences in hepatic lipid content, very-low-density lipoprotein-triglyceride secretion, or hepatic uptake of fatty acids between subgroups with and without glutamine supplementation. It was concluded that glutamine enrichment of a TPN solution did not have any effect on hepatic steatosis in normal rats.
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PMID:Effect of L-glutamine on hepatic lipids at different energy levels in rats receiving total parenteral nutrition. 816 2

Glutamine (Gln) supplementation in total parenteral nutrition (TPN) has been shown to have a preventive effect on high glucose induced hepatic steatosis. This animal study was undertaken to evaluate whether Gln could prevent hepatic steatosis induced by high fat or high glucose infusion. After placement of internal jugular catheters, rats were divided into three groups: control (n = 8), high fat (n = 13) and high glucose (n = 14) groups. The control group was fed with a chow diet and infused with saline alone. The experimental groups were infused with either a high fat (65% of nonprotein calories) or high glucose (83% of total kilocalories) solution. Energy intake was 35 kcal/100 g body weight per day. TPN solutions were isocaloric, isonitrogenous and isovolemic. Each experimental group was divided into two subgroups, with one receiving a Gln supplement to replace 40% of total amino acid nitrogen. The results demonstrated obvious fatty infiltration in the experimental groups, mainly from triglyceride (TG) accumulation. Plasma very low density lipoprotein-triglyceride (VLDL-TG) was significantly lower in the experimental groups than in the control group, suggesting that liver secretion of TG may have been inhibited in the experimental groups. Liver fatty acid synthetase (FAS) activity and plasma free fatty acid were lower in the high fat group than in the control and high glucose groups. There was no difference in hepatic lipids content, FAS activity, VLDL-TG, hepatic uptake of fatty acids and liver histologic change in the subgroups with and without Gln supplementation. Thus, Gln supplementation in a TPN solution has no effect in preventing hepatic steatosis induced by either high glucose or high fat infusion in rats under these experimental conditions.
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PMID:Effects of L-glutamine on induced hepatosteatosis in rats receiving total parenteral nutrition. 852 58

Dunnigan-type familial partial lipodystrophy (FPLD) is a rare monogenic adipose tissue disorder in which the affected subjects have increased predisposition to insulin resistance and related metabolic complications, such as glucose intolerance, diabetes, dyslipidemia, and hepatic steatosis. Our patient was a 35-year-old female who had been receiving insulin injection therapy for diabetes mellitus and was transferred to our hospital. She was diagnosed with FPLD on the basis of the following symptoms: increase in subcutaneous fat in the face, neck, and upper trunk; loss of subcutaneous fat in the lower limbs and the gluteal region. We found a heterozygous CGG to CAG transition in codon 482 of exon 8 in the gene encoding lamin A/C (LMNA), which leads to an arginine to glutamine substitution (R482Q). At the time of admission, her serum creatinine level was 8.4 mg/dl, and her blood urea nitrogen (BUN) level was 81 mg/dl. Her serum creatinine level was elevated and hemodialysis was performed twice every week. However, she died of cerebral hemorrhage 9 months after hemodialysis. Although it is uncommon for patients with FPLD to exhibit renal dysfunction and require hemodialysis, this case suggests the need for careful analysis of renal function in a patient with FPLD.
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PMID:A case of Dunnigan-type familial partial lipodystrophy (FPLD) due to lamin A/C (LMNA) mutations complicated by end-stage renal disease. 1901 97

Hepatic encephalopathy is a reversible neuro-psychiatric syndrome that complicates liver insufficiency. The changes are complex and disorders are detected in digestive and neural systems. Disturbed consciousness and intellectual deterioration, particularly communicative difficulties are observed: speech is slurred, voice monotonous, writing disturbances, amimic face and rigid posture. Difficulties of socialization and tendency to self-isolation are observed. Memory, attention and perception are decreased. We suppose that disorders of cognitive functions are determined by impairment of speech and other communicative abilities. According to the theories of linguistic determinism and linguistic relativity thought categories move through the mould of native language. That means, speech impairment causes misperception of the real world. To confirm this hypothesis we investigated 106 patients with following diseases: peptic ulcer - 46, fatty liver - 30, liver cirrhosis - 19, viral hepatitis - 11 and 19 controls. Brain magnetic resonance tomography was carried out and psychometric tests were performed to patients with symptoms of hepatic encephalopathy. Atrophic changes in frontal, temporal and insular area of brain cortex were revealed in most cases. Those regions are responsible for actor observation, imitation and emotion, i.e. for empathy and sociability. They are very sensitive to the increased levels of ammonia and glutamine. In case of early treatment only slight atrophic changes are presented but without treatment atrophic processes become stable and expressed by impairments of speech and entire communicative ability. Human beings are very much at the mercy of the particular language which has become the medium of expression for their society. They do not live in the objective world alone, or in the world of social activity alone. Accordingly, damage of speech in hepatic encephalopathy is primary and predisposes to cognitive dysfunction.
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PMID:[Speech impairment predisposes to cognitive deterioration in hepatic encephalopathy]. 2049 25


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