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Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chicks were overfed a basic diet supplemented isocalorically by soyabean oil or glucose 1, 2 and 10 days after 1 day of starvation. Carcass lipids resumed the prestarvation level 1 and 2 days after overfeeding with oil or glucose, respectively. After 10 days, an equal amount of lipid, mainly triglycerides, accumulated in the carcasses of both supplement groups. In the liver a transient accumulation of lipid was noticed in the oil-supplemented groups while a continuous increase was found in the glucose-supplemented ones. Hyperlipemia, due essentially to very low density lipoprotein (VLDL), was concomitant to liver lipid concentration. After 1 day, oil overfeeding raised plasma VLDL 6-fold, while the same level of VLDL was obtained within 2 days with glucose supplement. After 10 days, hyperlipemia was reduced in the oil-supplemented group, while it increased in the glucose-supplemented one. The fatty acid fluctuation caused by the treatments in liver lipids and plasma VLDL were grossly similar: the level of linoleic acid was reduced by glucose and increased by oil supplementation; the linoleic acid increase in VLDL preceeded that of liver lipids in the oil-supplemented groups. The results indicate a delayed transport of newly synthesized hepatic lipids in glucose-supplemented animals.
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PMID:Effects of isocaloric supplements of glucose or soyabean oil on lipids in tissues and plasma lipoproteins of starved and overfed chicks. 22 1

Detailed studies of hepatic metabolism of lipemic BHE and nonlipemic Wistar rats were conducted. Hepatic lipogenic capacity was varied through the use of starvation or meal feeding. Livers were clamped in precooled copper plates and used for the assay of glycolytic, gluconeogenic, and lipogenic metabolites. Redox and phosphorylation states were calculated. Mitochondrial metabolism was evaluated through studies of the oxygen consumption of isolated mitochondria and through the study of the activities of the alpha-glycerophosphate and malate aspartate shuttles and ATPase. BHE rats have higher phosphorylation states, higher redox ratios, and lower shuttle activities and oxygen consumption by isolated mitochondria than their Wistar cohorts. The differences in oxidative phosphorylation, redox and phosphorylation states, and in the various shuttle activities suggest that BHE liver cells are geared towards lipogenesis at the expense of oxidative phosphorylation. It appears that the activity of the shuttles is controlled in part by phosphorylation state which in turn appears to affect respiration. We theorize from these data that genetically determined differences in the structure and function of the mitochondrial membrane (and perhaps the cell membrane as well) may affect the communication (via metabolites and adenine nucleotides) between the cytosol and mitochondria. Subtle differences in the exchange of metabolites and/or adenine nucleotides across the mitochondrial membrane could thus explain the lipogenic tendency of the liver of the BHE rat and the subsequent development of maturity onset hyperlipemia and hyperglycemia in this strain of rat.
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PMID:Studies on the control of lipogenesis: strain differences in hepatic metabolism. 43 Feb 26

Medial hypothalamic isolation in the rat occurring under free food acces or after 24 hours starvation determines a significant increase in serum lipemia, serum esterified fatty acids and carcass fat. A significant rise in carcass fat was evident in rats made hyperphagic by medial hypothalamus isolation and maintained on limited food intake. It has been concluded that the VMH nuclei are involved in the control of the lipid metabolism primarily through the inhibitory effect exerted on the lateral hypothalamic parasympathetic area.
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PMID:The effect of partial or total medial hypothalamic isolations on lipid metabolism in rats. 59 29

Tumor growth and the incorporation of [3H]thymidine into tumor DNA in vivo are increased about 3 times in adult rats (greater than 250 g) after 1 to 2 days of starvation or the induction of diabetes with streptozotocin. These tumor growth responses require hyperlipemia and are reversed by refeeding or insulin treatment, respectively. They do not occur in young tumor-bearing rats (less than about 150 g) that lack appreciable fat stores. A direct relationship between the increased rates of both [3H]thymidine incorporation and tumor growth and host hyperlipemia suggests that tumor cell renewal in vivo in fed rats is limited by substances that are present in hyperlipemic blood. In this study we used a procedure for perfusion of solid tumors in situ to measure the sensitivity of tumor [3H]thymidine incorporation to hyperlipemic blood and to identify the rate-limiting substances. Tissue-isolated Morris hepatomas (7288CTC) growing in young or adult Buffalo rats were perfused with blood from donor rats. Hyperlipemic blood for perfusion was obtained from 2-day starved tumor-bearing (Buffalo) or non-tumor-bearing (Buffalo or Lewis) rats. At the end of the perfusions the tumors were labeled with a pulse of [3H]thymidine (2 microCi/g estimated tumor wet weight). [3H]Thymidine incorporation in tumors growing in fed adult rats was increased from 80 +/- 5 (SD) dpm/micrograms DNA at zero time (before perfusion) to 209 +/- 9 dpm/micrograms DNA (n = 3) after perfusion for 3 h. Tumors growing in fed or starved young rats showed similar responses, and hyperlipemic blood from non-tumor-bearing rats was as effective as hyperlipemic blood from tumor-bearing rats. Perfusion of tumors growing in starved rats with normolipemic blood from fed adult rats decreased [3H]thymidine incorporation from 211 +/- 13 dpm/micrograms DNA before perfusion to 68 +/- 9 dpm/micrograms DNA (n = 3) after perfusion for 3 h. Cells, plasma, and plasma subfractions from hyperlipemic blood were reconstituted to whole blood using plasma, cells, and whole blood, respectively, from fed rats and the mixtures were perfused into tumors growing in fed adult rats. Mixtures containing hyperlipemic plasma, lipid extracts (ethanol:acetone, 1:1) of hyperlipemic plasma, or albumin from hyperlipemic plasma increased tumor [3H]thymidine incorporation. Free fatty acid concentrations were increased about five times in hyperlipemic plasma and perfusion of tumors with normolipemic blood containing added linoleic and arachidonic acids increased [3H]thymidine incorporation. Blood mixtures containing palmitic, stearic, and oleic acids were inactive.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Identification of linoleic and arachidonic acids as the factors in hyperlipemic blood that increase [3H]thymidine incorporation in hepatoma 7288CTC perfused in situ. 313 Jan 86

Obesity, a well-known phenomenon in Western society, is frequently associated with cardiovascular and endocrine disease. Strokes, myocardial infarction, diabetes and hyperlipidemia are classical reasons for the high mortality and morbidity of overweight people. For this reason, intensive weight-reduction programs have been proposed: low-calorie diets, total starvation, drugs and even surgery. Total starvation and some low-calorie diets are, however, also associated with sudden death, most probably of cardiac origin. Experimental data from our laboratory show that total starvation is accompanied by a severe depletion of magnesium in myocardial tissue. Protein-sparing modified low-calorie diets, however, can protect against this mineral loss even if magnesium supplementation alone cannot obtain this goal. Applying these principles in overweight man show weight reduction without mineral loss or cardiac disturbance. Surgery with 'ileal bypass' procedures gives rise to severe hypomagnesemia and hypocalcemia with tetany and spasmophilia. New procedures, derived from experimental surgery, are 'gastric bypass' and 'gastroplasty'. These methods, only applied in very obese patients (body mass index greater than 40, normal 23-27) show no change in mineral concentrations of calcium and magnesium and no clinical symptoms suggestive for mineral loss. A good, controlled weight-reduction program under strict medical surveillance can, in this way, offer new perspectives in the treatment of one of our most frequent 'culture-induced' diseases.
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PMID:Magnesium and obesity: effects of treatment on magnesium and other parameters. 382 Nov 74

The absence of ketoacidosis is thought to be characteristic of generalized lipoatrophic diabetes. It is widely believed that lipoatrophic diabetic patients are able to tolerate starvation and therapeutic insulin withdrawal, due to absence of subcutaneous body fat, the substrate essential for ketogenesis. In this article, we document nine episodes of acidosis and accelerated ketone body formation in a 24-yr-old woman whose deterioration followed episodes of dietary excesses without evidence of intercurrent infection or other identifiable forms of metabolic stress. Serum C-peptide measurements demonstrated that an absolute insulin deficiency did not exist. During short-term, experimental, dietary manipulations, excess dietary calories worsened the hyperglycemia and hyperlipidemia but did not reproduce the ketoacidotic state. Excess fat added to the diet was the most poorly tolerated of the food groups, causing ketonuria, hypertriglyceridemia, and abdominal pain. Our experience with this patient suggests that increased food consumption, insufficient insulin relative to an insulin-resistant state, and increased amounts of insulin counterregulatory hormones (stress), acted in concert to cause acidosis and increased ketone body formation.
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PMID:Recurrent ketoacidosis in acquired, total lipodystrophy (lipoatrophic diabetes). 643 2

Statistical associations of insulin resistance, type II diabetes, hypertension and hyperlipidemia have been well documented, but the pathophysiology of the 'insulin resistance syndrome' is unknown. This article explores the hypothesis that intracellular starvation plays a central role in the development of type II diabetes, hypertension and hyperlipidemia. According to this hypothesis, insulin resistance leads to inadequate intracellular glucose, which in turn leads to insufficient amounts of adenosine triphosphate needed for ion transfer, and to drive energy-requiring reactions. Indirect evidence supporting this hypothesis is presented. Intracellular starvation is also discussed as an alternative to the 'glucose hypothesis' to explain certain complications of diabetes.
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PMID:Intracellular starvation in the insulin resistance syndrome and type II diabetes mellitus. 988 13

Nutritional alterations are common in HIV infection. Early studies documented weight loss and protein depletion, a finding associated with body cell mass depletion in untreated patients. The application of highly active antiretroviral therapy has led to a decreased incidence of malnutrition, although altered body fat distribution and metabolic alterations, including hyperlipidemia and insulin resistance, are common sequelae. The development of malnutrition is multifactorial and occurs through changes in caloric intake, nutrient absorption, or energy expenditure. Clinically, malnutrition develops as a result of either starvation or cachexia. Other hormonal and endocrinologic alterations include hypercortisolemia and hypogonadism. The rationale for providing nutritional support to AIDS patients is based upon the assumptions that nutrition status can be improved and that such improvements have clinical benefits. The results of hypercaloric feeding studies, including the use of appetite stimulants, indicate that weight gain is possible but that the weight gained is predominantly fat. In contrast, anabolic agents and resistance training exercise have been shown to promote body cell mass repletion and skeletal muscle gain. Cytokine inhibitors also have been evaluated for the treatment of wasting in HIV infection. Development of combination therapies, preventive therapies, and efficient and cost-effective therapies are current tasks in the field.
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PMID:Nutritional alterations associated with HIV infection. 1112 32

Adipokinetic hormones (AKHs) are metabolic neuropeptides, mediating mobilization of energy substrates from the fat body in many insects. In delving into the roles of the Drosophila Akh (dAkh) gene, its developmental expression patterns were examined and the physiological functions of the AKH-producing neurons were investigated using animals devoid of AKH neurons and ones with ectopically expressing dAkh. The dAkh gene is expressed exclusively in the corpora cardiaca from late embryos to adult stages. Projections emanating from the AKH neurons indicated that AKH has multiple target tissues as follows: the prothoracic gland and aorta in the larva and the crop and brain in the adult. Studies using transgenic manipulations of the dAkh gene demonstrated that AKH induced both hypertrehalosemia and hyperlipemia. Starved wild-type flies displayed prolonged hyperactivity prior to death; this novel behavioral pattern could be associated with food-searching activities in response to starvation. In contrast, flies devoid of AKH neurons not only lacked this type of hyperactivity, but also displayed strong resistance to starvation-induced death. From these findings, we propose another role for AKH in the regulation of starvation-induced foraging behavior.
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PMID:Hemolymph sugar homeostasis and starvation-induced hyperactivity affected by genetic manipulations of the adipokinetic hormone-encoding gene in Drosophila melanogaster. 1516 57

Forkhead transcription factors FoxOs are conserved beyond species and regulated by insulin signaling pathway. FoxOs have diverse functions on differentiation, proliferation and cell survival. In calorie restriction (CR) or starvation, FoxOs are in nucleus, active transcriptionally, and increase hepatic glucose production, decrease insulin secretion, increase food intake and cause degradation of skeletal muscle for supplying substrates for glucose production. However, even in insulin resistance due to excessive calorie intake, FoxOs are active and causes type 2 diabetes and hyperlipidemia. The understanding of molecular mechanism how FoxOs affect glucose or lipid metabolism will shed light on the novel therapy of type 2 diabetes and the metabolic syndrome.
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PMID:The FoxO transcription factors and metabolic regulation. 1802 95


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