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:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Obese gold thioglucose injected mice were reduced to lean control weight by food restriction. When pair fed with lean controls these animals then gained weight (were metabolically more efficient). Serum glucose was also elevated in this group (14.5 +/- 0.4 (14) vs 12.1 +/- 0.3 mmol/L, p less than 0.001). If previously obese animals were weight maintained with lean controls (by mild food restriction), serum glucose remained at control levels. The activity of the pyruvate dehydrogenase complex in heart muscle was decreased in both obese and pair fed previously obese, whilst it was similar to that of lean controls in the weight maintained previously obese and in obese mice actually dieted. In all obese and previously obese animals serum insulin was elevated. In hearts from control animals subjected to mild food restriction the pyruvate dehydrogenase complex was activated (11.53 +/- 1.80 (5) vs 3.34 +/- 0.62 (9) U/g dry weight), despite a reduced serum insulin level (42 +/- 2 vs 74 +/- 10 microU/ml, p less than 0.01). These diverse changes in the proportion of the pyruvate dehydrogenase complex in the active form and insulin levels argue for a persistent alteration in the sensitivity of the pyruvate dehydrogenase complex to insulin in obesity, as well as indicating that glucose metabolism in obese animals is altered by both body weight and diet amount.
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PMID:The activity of the pyruvate dehydrogenase complex in heart muscle in the previously obese mouse model. 310 27

The proportion of pyruvate dehydrogenase complex in the active, dephosphorylated form was decreased (compared with lean controls) in heart muscle in gold thioglucose-treated obese hyperinsulinaemic mice, and the extent of enzyme inactivation was significantly linearly correlated with both body weight and body fat content. A single oral dose (25 mg/kg body wt.) of the beta-oxidation inhibitor 2-tetradecylglycidic acid to obese animals restored pyruvate dehydrogenase complex activity to that of lean controls. It is suggested that increased fatty acid oxidation may be a major factor in mediating the phosphorylation and inactivation of pyruvate dehydrogenase complex in mouse heart muscle in obesity, and this may represent an important mechanism in the development and/or expression of insulin resistance in respect of abnormalities of cellular glucose homoeostasis in these animals.
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PMID:The effect of body weight and the fatty acid-oxidation inhibitor 2-tetradecylglycidic acid on pyruvate dehydrogenase complex activity in mouse heart. 639 58

The proportion of active, dephosphorylated, pyruvate dehydrogenase complex was decreased in the mouse heart by obesity (by 56%), and this decrease in enzyme activity persisted during preparation and extraction of heart mitochondria. Phosphorylation and inactivation of pyruvate dehydrogenase may be a major factor in mediating the inhibitory effects of obesity on glucose oxidation in muscle, and this may represent an important mechanism in the development and/or expression of cellular insulin-resistance.
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PMID:Proportion of active dephosphorylated pyruvate dehydrogenase complex in heart and isolated heart mitochondria is decreased in obese hyperinsulinaemic mice. 642 Dec 78

Changes of the pyruvate dehydrogenase complex in liver and epididymal fat pad were examined longitudinally in obese mice (C57BL/6J-ob/ob) and their lean controls as a function of age. Total pyruvate dehydrogenase in liver was expressed on several reference bases because of differences in hepatic cellularity and protein content between obese mice and their age-matched lean controls. When total hepatic pyruvate dehydrogenase was expressed on a protein basis, the enzyme activity was elevated in obese mice older than 28 weeks in age when compared to lean controls of a similar age. However, when expressed on a DNA basis, total pyruvate dehydrogenase activity in livers of obese mice up to 10 weeks in age was increased when compared to the age-matched lean control. The proportion of hepatic pyruvate dehydrogenase in the active form was also augmented significantly in obese mice from 5 to 28 weeks of age. In 18-week-old obese mice, the proportion of total pyruvate dehydrogenase in the active form of adipose tissue was significantly higher than that of the lean controls. When expressed on a DNA basis, total pyruvate dehydrogenase in the fat pad was also increased in obese mice up to 10 weeks in age when compared to age-matched controls. Total pyruvate dehydrogenase activity in the epididymal fat pad was higher in obese mice than the lean controls in animals as old as 32 weeks in age when the enzyme activity was expressed per 100 g body weight. The increase in the active form and total activity of pyruvate dehydrogenase in both liver and epididymal fat pad during the dynamic early phase of obesity would augment the capacity for acetyl-coenzyme A formation necessary in the support of an accelerated lipogenesis and fat deposition.
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PMID:Age-related changes in liver and adipose tissue pyruvate dehydrogenase of genetically obese mice. 671 96

The diurnal pattern of the activity of the pyruvate dehydrogenase complex (PDHC) was studied in the heart and liver of gold-thioglucose (GTG)-obese mice and age-matched controls. The diurnal pattern of lipogenesis was also measured in the liver. Both lean and obese mice had one main eating period, from 20:00 to 24:00 h. Eating produced no change in serum glucose of control mice but there was a significant rise in serum insulin and triacylglycerols. There was also a 3-fold increase in cardiac PDHC activity and a 3-fold increase in hepatic lipogenesis in the control mice, but little change in hepatic PDHC activity. GTG-obese mice were hyperglycaemic, hyperinsulinaemic and hypertriglyceridaemic at all times studied, with significant increases in these parameters being seen in response to eating. Eating produced little change in cardiac PDHC activity, but there was a 5-fold increase in hepatic PDHC activity, paralleled by a 10-fold increase in hepatic lipogenesis. Hepatic PDHC activity was significantly higher in GTG-obese mice at all times except 16:00 h. The simultaneous rise of hepatic PDHC activity, lipogenesis and serum triacylglycerols in GTG-obese mice suggests an increased utilization of glucose for lipogenesis. The lack of change in heart PDHC activity in GTG-obese mice over 24 h suggests that a general decrease in PDHC activity may contribute to the development of the glucose intolerance and insulin resistance of obesity and non-insulin-dependent diabetes. However, it appears that a different level of metabolic control allows hepatic PDHC activity of the same obese animals to increase in response to hyperinsulinaemia and contribute to the higher rates of lipogenesis seen in obese mice.
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PMID:Diurnal patterns of cardiac and hepatic pyruvate dehydrogenase complex activity in gold-thioglucose-obese mice. 824 Feb 85

The current study was undertaken to examine the impact that obesity and non-insulin-dependent diabetes mellitus (NIDDM) have on the ability of glucose to stimulate its own uptake and oxidation in muscle. Euglycemic and hyperglycemic clamp experiments were performed with somatostatin infusions so that insulin could be replaced to basal levels or to physiological hyperinsulinemia. Arteriovenous leg balance methods were used to measure the pathways of leg muscle glucose uptake, oxidation, and storage. Percutaneous biopsies of the vastus lateralis muscle were taken to determine the pyruvate dehydrogenase complex or glycogen synthase activities. During basal insulin replacement, obese compared with lean nondiabetic subjects had higher values for glucose uptake, respiratory quotient, and glucose oxidation (all P<0.05) and a higher proportion of leg energy expenditure derived from glucose. Obese NIDD patients had a greater reliance on fat calories than lean diabetics during basal insulin replacement (P< 0.05). Hyperinsulinemia increased leg glucose metabolism (P<0.001) in all groups, but obese NIDD patients were significantly more insulin resistant. Hyperglycemia in NIDDM compensated for insulin resistance to the extent that rates of glucose metabolism were the same as those for nondiabetics studied at euglycemia. When nondiabetics were studied at hyperglycemia matched to the diabetics, the insulin resistance was still readily apparent.
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PMID:Interaction of carbohydrate and fat fuels in human skeletal muscle: impact of obesity and NIDDM. 863 94

The tissue-specific expression of the mitochondrial pyruvate dehydrogenase complex (PDHc) has been studied in an animal model of obesity with hyperinsulinemia, the obese (fa/fa) Zucker rat. Liver and heart were obtained from 4 and 8 week-old obese rats and age-matched lean animals, and in each tissue the following parameters were analyzed: (1) total activity of the mitochondrial PDHc; (2) abundance of the mitochondrial PDHc subunits on Western blots; and (3) abundance of the E1alpha and E1beta subunit mRNAs on Northern blots and semi-quantitative RT-PCR. Regardless of age, obese rats showed an increase in liver total PDHc activity and a coordinate increase in liver E1alpha and E1beta PDHc subunit abundance. At 4 weeks, obese rats also showed an increase in liver PDH E1alpha mRNA level, but regardless of age E1beta mRNA level was unchanged. In contrast, neither total PDHc activity nor the concentration of its protein subunits were increased in heart of obese rats. Thus, obese Zucker rats display a liver-specific early increase in PDHc which results from a selective up-regulation of the E1alpha gene expression.
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PMID:Longitudinal study of tissue- and subunit-specific obesity-induced regulation of the pyruvate dehydrogenase complex. 986 34

Measurements have been made, in adult male diabetic patients and control subjects, of the urinary content of inositol phosphoglycans (IPGs), the IPG A-type and IPG P-type forms, which, among other actions, regulate pathways of glucose utilization, lipogenesis, triglyceride formation, and pyruvate dehydrogenase (PDH) activity. Urine samples from the entire diabetic group showed a 2- to 3-fold increase in IPG A-type, and a fall in the IPG P-type:IPG A-type ratio relative to the control group. Subdivision of the diabetic patients into lean IDDM and obese NIDDM groups revealed significant differences in the IPG P-type:IPG A-type ratio between these groups, this ratio decreasing with increases in the body mass index (BMI). Analysis of the relationships among IPGs and HbA1, blood pressure, and BMI indicated that a fall in the IPG P-type:IPG A-type ratio correlated with a rise in the HbA1 (indicative of impaired glycemic control), with increased systolic blood pressure and increased obesity, all factors linked to Syndrome X. There was a parallism between the profile of the IPG P-type:IPG A-type ratio and the well-established pattern of insulin resistance and BMI. In vitro studies of the effects of alterations in the IPG P-type:IPG A-type ratio on the activation of the pyruvate dehydrogenase complex (PDH complex) at the PDH phosphatase reaction demonstrated that IPG A-type forms antagonized the stimulation of the PDH phosphatase by IPG P-type forms, thus having a negative effect on the conversion of PDH to the active, dephosphorylated, form. This observation could provide a mechanism whereby the shifts in the IPG P-type:IPG A-type ratio reported above could change the metabolic pattern from one directed to glucose oxidation to one more directed toward energy conservation and lipid storage.
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PMID:Inositol phosphoglycans in diabetes and obesity: urinary levels of IPG A-type and IPG P-type, and relationship to pathophysiological changes. 1060 79

The effect of pyruvate dehydrogenase kinase-4 (PDK4) deficiency on glucose homeostasis was studied in mice fed a high-fat diet. Expression of PDK4 was greatly increased in skeletal muscle and diaphragm but not liver and kidney of wild-type mice fed the high-fat diet. Wild-type and PDK4(-/-) mice consumed similar amounts of the diet and became equally obese. Insulin resistance developed in both groups. Nevertheless, fasting blood glucose levels were lower, glucose tolerance was slightly improved, and insulin sensitivity was slightly greater in the PDK4(-/-) mice compared with wild-type mice. When the mice were killed in the fed state, the actual activity of the pyruvate dehydrogenase complex (PDC) was higher in the skeletal muscle and diaphragm but not in the liver and kidney of PDK4(-/-) mice compared with wild-type mice. When the mice were killed after overnight fasting, the actual PDC activity was higher only in the kidney of PDK4(-/-) mice compared with wild-type mice. The concentrations of gluconeogenic substrates were lower in the blood of PDK4(-/-) mice compared with wild-type mice, consistent with reduced formation in peripheral tissues. Diaphragms isolated from PDK4(-/-) mice oxidized glucose faster and fatty acids slower than diaphragms from wild-type mice. Fatty acid oxidation inhibited glucose oxidation by diaphragms from wild-type but not PDK4(-/-) mice. NEFA, ketone bodies, and branched-chain amino acids were elevated more in PDK4(-/-) mice, consistent with slower rates of oxidation. These findings show that PDK4 deficiency lowers blood glucose and slightly improves glucose tolerance and insulin sensitivity in mice with diet-induced obesity.
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PMID:Pyruvate dehydrogenase kinase-4 deficiency lowers blood glucose and improves glucose tolerance in diet-induced obese mice. 1843 Sep 68

Liver X receptors (LXRs) are nuclear receptors with established roles in cholesterol, lipid, and carbohydrate metabolism, although their function in adipocytes is not well characterized. Increased adipose tissue mass in obesity is associated with increased adipocyte lipolysis. Fatty acids (FA) generated by lipolysis can be oxidized by mitochondrial beta-oxidation, reesterified, or released from the adipocyte. The latter results in higher circulating levels of free FAs, in turn causing obesity-related metabolic complications. However, mitochondrial beta-oxidation can at least in part counteract an increased output of FA into circulation. In this study, we provide evidence that activation of LXRs up-regulates mitochondrial beta-oxidation in both human and murine white adipocytes. We also show that the expression of a kinase regulating the cellular fuel switch, pyruvate dehydrogenase kinase 4 (PDK4), is up-regulated by the LXR agonist GW3965 in both in vitro differentiated human primary adipocytes and differentiated murine 3T3-L1 cells. Moreover, activation of LXR causes PDK4-dependent phosphorylation of the pyruvate dehydrogenase complex, thereby decreasing its activity and attenuating glucose oxidation. The specificity of the GW3965 effect on oxidation was confirmed by RNA interference targeting LXRs. We propose that LXR has an important role in the regulation of substrate oxidation and the switch between lipids and carbohydrates as cellular fuel in both human and murine white adipocytes.
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PMID:Activation of liver X receptor regulates substrate oxidation in white adipocytes. 1955 20


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