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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The incorporation of [3H]myo-inositol into individual phosphoinositides and of [3H]glycerol into glycerolipids was determined in sciatic nerve obtained from normal and streptozotocin diabetic rats and incubated in vitro. The uptake of inositol into lipid was approximately linear with time. More than 80% of the label was present in phosphatidylinositol with the remainder divided about equally between phosphatidylinositol phosphate and phosphatidylinositol-4,5-bisphosphate. Labeling was unchanged 2 weeks after induction of diabetes, but was reduced by 32% after 20 weeks of the disease. Glycerol incorporation occurred primarily into phosphatidylcholine and triacylglycerol and was depressed up to 45% into major phosphoglycerides in nerves from both 2- and 20-week diabetic animals. Triacylglycerol labeling was also substantially decreased, and the reduction was comparable in intact and epineurium free nerve, suggesting that a metabolically active pool of this compound, which is sensitive to hyperglycemia and/or insulin deficiency, is located in or immediately adjacent to the nerve fibers. The considerable decline in incorporation of these lipid precursors in diabetic nerve may be related to impaired inositol transport and to decrease overall energy utilization by the tissue.
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PMID:Decreased incorporation of [3H]inositol and [3H]glycerol into glycerolipids of sciatic nerve from the streptozotocin diabetic rat. 298 29

In order to elucidate the response of plasma glicentin to fat ingestion, butter, glycerol or palmitate was administered into the duodenum of piglets in a fully conscious state and plasma glicentin and glucagon were determined. Butter instillation did not change blood glucose. Plasma triglyceride rose gradually 120 min after butter loading. Plasma insulin and glucagon measured by antiserum specific to the C-terminal slightly increased following butter administration and plasma total glucagon and glicentin increased gradually and significantly. The increments of total glucagon and glicentin were 179 and 158%, respectively. However, chromatography of porcine plasma obtained during fat loading revealed heterogeneity of glicentin-related peptides. Glycerol ingestion induced a slight rise of plasma total glucagon. Administration of palmitate revealed an increase in plasma total glucagon and glicentin. The present study clearly demonstrates the secretion of glicentin following fat ingestion, which might be caused by the hydrolysates of triglyceride, as suggested in previous dog experiments.
Diabetes Res Clin Pract
PMID:Response of plasma glicentin to fat ingestion in piglets. 355 36

The levels of isometric developed tension (IDT) in portal veins from starved and diabetic rats in glucose medium were of the same magnitude but significantly reduced compared with veins from normal rats. Glucose removal led to contractile depression, more marked in starved veins (-74%; p < 0.001 vs. diabetics and normals). Addition of glucose, pyruvate, acetate, lactate, or butyrate counteracted this depression in all groups but in diabetics butyrate significantly stimulated IDT over controls whereas in starved veins lactate overcame IDT reduction only partially. Added insulin significantly enhanced contractile recovery with glucose in normal and diabetic preparations but was ineffective in starved veins. Glycogen content was significantly lower in diabetics; however, in no group did changes occur in incubated veins as compared with unincubated ones. Glycerol production was significantly higher in diabetic veins. It would appear that, although experimental diabetes induces a shift to fatty acid utilization, aerobic glycolysis and mitochondrial respiration are somehow preserved as reflected by the IDT recovery with pyruvate or lactate.
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PMID:Alterations induced by alloxan-diabetes and starvation on functional activity of the rat portal vein perfused in vitro. 742 91

Type 2 diabetes is characterized by resistance to insulin action of glucose metabolism and lipolysis. First-degree relatives of diabetic patients are at increased risk of developing diabetes themselves and early metabolic abnormalities in these relatives may represent primary defects in the pathogenesis of diabetes. Our previous work has demonstrated impaired suppression of lipolysis after an oral glucose load in glucose-tolerant relatives of Asian origin, but not in European relatives. To investigate whether a more subtle defect exists in the European population we studied 8 first-degree relatives of European patients and 9 matched control subjects. All had normal glucose tolerance. Glycerol and glucose turnovers were measured using a primed constant infusion of the stable isotopic tracers [1,1,1,2,3(2)H5] glycerol and [6,6(2)H] glucose, basally and in response to a very low dose insulin infusion (0.005 units kg-1 h-1). The relatives had higher basal insulin concentrations (median (range): 49 (30 to 113) vs 28 (18 to 66) pmol 1(-1), p < 0.05) compared to controls, but basal glycerol and glucose turnovers and plasma concentrations of glycerol, glucose, and non-esterifed fatty acids (NEFA) were similar. Following insulin, the suppression of glycerol appearance in the circulation measured isotopically was significantly less complete in the relatives compared with controls (mean change +/- SEM: + 0.06 +/- 0.21 vs - 0.51 +/- 0.16 mumol kg-1 min-1, p < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin resistance with respect to lipolysis in non-diabetic relatives of European patients with type 2 diabetes. 771 8

Fish-oil supplementation decreases serum triacylglycerols but may worsen hyperglycemia in patients with non-insulin-dependent diabetes mellitus. The reason for the possible deterioration of glycemia is unclear. We examined whether inhibition of triacylglycerol synthesis by n-3 fatty acids changes lipolysis, glycerol gluconeogenesis, or fatty acid oxidation. Nine obese patients with non-insulin-dependent diabetes mellitus participated in a randomized double-blind crossover study in which 6 wk of n-3 fatty acid supplementation (12 g fish oil) was compared with 6 wk of corn plus olive oil. Serum triacylglycerols decreased by 30% during n-3 fatty acid supplementation. Glycerol gluconeogenesis ([U-14C]glycerol) increased by 32%. However, overall glucose production ([3-3H]glucose), glycemic control, and fatty acid oxidation remained unchanged. Thus, 6 wk of n-3 fatty acid supplementation lowers triacylglycerols in patients with non-insulin-dependent diabetes mellitus without worsening glycemic control. However, n-3 fatty acid supplementation increases glycerol gluconeogenesis, which could contribute to deterioration of glycemic control during long-term treatment with high doses of fish-oil supplements.
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PMID:Dietary supplementation with n-3 fatty acids increases gluconeogenesis from glycerol but not hepatic glucose production in patients with non-insulin-dependent diabetes mellitus. 782 23

The glycerol phosphate shuttle consists of FAD-linked mitochondrial glycerol 3-phosphate dehydrogenase (mGPDH) and its cytosolic NAD-linked isoform (cGPDH). Impaired mGPDH activity has recently been suggested to be one of the primary causes of insulin secretory defects in beta-cells. We found that mGPDH and cGPDH activities in MIN6 cells are comparable to those of isolated islets and higher than those in HIT cells by eightfold and threefold, respectively. Therefore, we selected the MIN6 cell line as a beta-cell model with normally regulated insulin secretion and normal shuttle enzyme activities and the HIT cell line as a beta-cell model with impaired insulin secretion and lower activities of these enzymes. The role of these dehydrogenases in glucose-stimulated insulin secretion was addressed by examining the effects of overexpression of mGPDH and/or cGPDH via recombinant adenoviruses in these cells. Infection with recombinant adenovirus with a cDNA encoding the Escherichia coli beta-galactosidase gene resulted in expression of its gene in 90% of MIN6 and HIT cells. Infection with a recombinant adenovirus with mGPDH cDNA (Adex1CAmGPDH) caused 2.1-fold and 5.7-fold increases in dehydrogenase activity as compared with those of control MIN6 and HIT cells, respectively. Infection with a recombinant adenovirus with cGPDH cDNA (Adex1CAcGPDH) caused a more than 50-fold increase in activity in both cell lines. Glycerol phosphate shuttle flux, as estimated by [2-3H]glycerol conversion to [3H]H2O, was increased to 120-130% by infection with Adex1CAmGPDH, but not with Adex1CAcGPDH infection, in both MIN6 and HIT cells. No further increase in flux through the glycerol phosphate shuttle was detected when the cells were infected with Adex1CAmGPDH together with Adex1CAcGPDH. Furthermore, neither [U-14C]glucose oxidation nor the insulin secretory response to glucose was affected in either cell line. Thus, mGPDH abundance in MIN6 and HIT cells is not directly related to their insulin secretory capacity in response to glucose, and reduced expression of mGPDH is not the primary cause of abnormal insulin secretory responses in HIT cells. The present data indicate that the emerging hypothesis pointing to mGPDH deficiency as a possible cause of NIDDM needs to be carefully evaluated.
Diabetes 1996 Sep
PMID:Effect of mitochondrial and/or cytosolic glycerol 3-phosphate dehydrogenase overexpression on glucose-stimulated insulin secretion from MIN6 and HIT cells. 877 29

The onset of NIDDM in obese Zucker diabetic fatty (fa/fa) rats is preceded by a striking increase in the plasma levels of free fatty acids (FFAs) and by a sixfold rise in triglyceride content in the pancreatic islets. The latter finding provides clear evidence of elevated tissue levels of long-chain fatty acyl CoA, which can impair beta-cell cell function. To determine if the triglyceride accumulation is entirely the passive consequence of high plasma FFA levels or if prediabetic islets have an increased lipogenic capacity that might predispose to NIDDM, the metabolism of long-chain fatty acids was compared in islets of obese prediabetic and nonprediabetic Zucker diabetic fatty (ZDF) rats and of lean Wistar and lean ZDF rats. When cultured in 1 or 2 mmol/l FFA, islets of both female and male obese rats accumulated, respectively, 7 and 15 times as much triglyceride as islets from lean rats exposed to identical FFA concentrations. The esterification of [14C]palmitate and 9,10-[3H]palmitate was increased in islets of male obese rats and could not be accounted for by defective oxidation of 9,10-[3H]-palmitate. Glycerol-3-PO4 acyl-transferase (GPAT) activity was 12 times that of controls. The mRNA of GPAT was increased in islets of obese rats. We conclude that, in the presence of comparable elevations in FFA concentrations, the islets of obese prediabetic rats have a higher lipogenic capacity than controls. This could be a factor in their high risk of diabetes.
Diabetes 1997 Mar
PMID:Increased lipogenic capacity of the islets of obese rats: a role in the pathogenesis of NIDDM. 903 96

The objective of this study was to assess the role of free fatty acids (FFAs) as insulin secretagogues in patients with type 2 diabetes. To this end, basal insulin secretion rates (ISR) in response to acute increases in plasma FFAs were evaluated in patients with type 2 diabetes and in age- and weight-matched nondiabetic control subjects during 1) intravenous infusion of lipid plus heparin (L/H), which stimulated intravascular lipolysis, and 2) the FFA rebound, which followed lowering of plasma FFAs with nicotinic acid (NA) and was a consequence of increased lipolysis from the subject's own adipose tissue. At comparable euglycemia, diabetic patients had similar ISR but higher plasma beta-hydroxybutyrate (beta-OHB) levels during L/H infusion and higher plasma FFA and beta-OHB levels during the FFA rebound than nondiabetic control subjects. Correlating ISR with plasma FFA plus beta-OHB levels showed that in response to the same changes in FFA plus beta-OHB levels, diabetic patients secreted approximately 30% less insulin than nondiabetic control subjects. In addition, twice as much insulin was secreted during L/H infusion as during the FFA rebound in response to the same FFA/beta-OHB stimulation by both diabetic patients and control subjects. Glycerol, which was present in the infused lipid (272 mmol/l) did not affect ISR. We concluded that 1) assessment of FFA effects on ISR requires consideration of effects on ISR by ketone bodies; 2) ISR responses to FFA/beta-OHB were defective in patients with type 2 diabetes (partial beta-cell lipid blindness), but this defect was compensated by elevated plasma levels of FFAs and ketone bodies; and 3) approximately two times more insulin was released per unit change in plasma FFA plus beta-OHB during L/H infusion than during the FFA rebound after NA. The reason for this remains to be explored.
Diabetes 1999 Mar
PMID:Effects of fatty acids and ketone bodies on basal insulin secretion in type 2 diabetes. 1007 59

Very low birth weight (VLBW) infants are dependent on total parenteral nutrition (TPN) to prevent hypoglycemia and provide a sufficient energy intake. However, diminished tolerance for parenteral glucose delivered at high rates frequently provokes hyperglycemia. We hypothesized that when their glucose supply is reduced to prevent hyperglycemia, VLBW infants can maintain normoglycemia via gluconeogenesis from glycerol and amino acids. Twenty infants born at 27 +/- 0.2 (mean +/- SE) gestational weeks and having a birth weight of 996 +/- 28 g, received lipids (1.6 +/- 0.1 mg x kg(-1) x min(-1)), protein (2.2 +/- 0.1 mg x kg(-1) x min(-1)), and glucose (3.1 +/- 0.1 mg x kg(-1) x min(-1) [17.1 +/- 0.2 micromol x kg(-1) x min(-1)]) parenterally over a period of 8-12 h on day 5.0 +/- 0.2 of life. Gluconeogenesis was estimated using [U-13C]glucose (n = 8) or [2-(13)C] glycerol (n = 6) and mass isotopomer distribution analysis (MIDA), or 2H2O (n = 6) and the rate of deuterium incorporation in carbon 6 of glucose. Blood glucose averaged 3.0 +/- 0.1 mmol/l; plasma glucose appearance rate (glucose Ra), 28.8 +/- 1.1 micromol x kg(-1) x min(-1); and glucose production rate (GPR), 10.7 +/- 1.0 micromol x kg(-1) x min(-1). The [U-13C]glucose and [2-(13)C]glycerol tracers provided similar estimates of gluconeogenesis, averaging 28 +/- 2 and 26 +/- 2% of glucose Ra and 72 +/- 5 and 73 +/- 9% of GPR, respectively. Glycerol contributed 64 +/- 5% of total gluconeogenesis. Gluconeogenesis measured by 2H2O, which does not include the contribution from glycerol, was comparable to the nonglycerol fraction of gluconeogenesis derived by the [2-(13)C]glycerol MIDA. We conclude that in VLBW infants receiving TPN, normoglycemia was maintained during reduced glucose infusion by glucose production primarily derived from gluconeogenesis, and that glycerol was the principal gluconeogenic substrate.
Diabetes 1999 Apr
PMID:Gluconeogenesis in very low birth weight infants receiving total parenteral nutrition. 1010 96

The acylation of glycerol-3-phosphate by acyl-CoA is regarded as the first committed step for the synthesis of the lipoidal moiety in glycerolipids. The direct acylation of glycerol in mammalian tissues has not been demonstrated. In this study, lipid biosynthesis in myoblasts and hepatocytes was reassessed by conducting pulse-chase experiments with [1,3-(3)H]glycerol. The results demonstrated that a portion of labeled glycerol was directly acylated to form monoacylglycerol and, subsequently, diacylglycerol and triacylglycerol. The direct acylation of glycerol became more prominent when the glycerol-3-phosphate pathway was attenuated or when exogenous glycerol levels became elevated. Glycerol:acyl-CoA acyltransferase activity, which is responsible for the direct acylation of glycerol, was detected in the microsomal fraction of heart, liver, kidney, skeletal muscle, and brain tissues. The enzyme from pig heart microsomes displayed optimal activity at pH 6.0 and the preference for arachidonyl-CoA as the acyl donor. The apparent K(m) values for glycerol and arachidonyl-CoA were 1.1 mM and 0.17 mM, respectively. The present study demonstrates the existence of a novel lipid biosynthetic pathway that may be important during hyperglycerolemia produced in diabetes or other pathological conditions.
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PMID:A novel pathway for lipid biosynthesis: the direct acylation of glycerol. 1173 70


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