In Muscle-Specific Lipoprotein Lipase−Overexpressing Mice, Muscle Triglyceride Content Is Increased Without Inhibition of Insulin-Stimulated Whole-Body and Muscle-Specific Glucose Uptake
Peter J. VosholMiek C. JongVivian E.H. DahlmansDagmar KratkySanja Levak‐FrankRudolf ZechnerJohannes A. RomijnLouis M. Havekes
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In patients with type 2 diabetes, a strong correlation between accumulation of intramuscular triclycerides (TGs) and insulin resistance has been found. The aim of the present study was to determine whether there is a causal relation between intramuscular TG accumulation and insulin sensitivity. Therefore, in mice with muscle-specific overexpression of human lipoprotein lipase (LPL) and control mice, muscle TG content was measured in combination with glucose uptake in vivo, under hyperinsulinemic-euglycemic conditions. Overexpression of LPL in muscle resulted in accumulation of TGs in skeletal muscle (85.5 ± 33.3 vs. 25.7 ± 23.1 μmol/g tissue in LPL and control mice, respectively; P < 0.05). During the hyperinsulinemic clamp study, there were no differences in plasma glucose, insulin, and FFA concentrations between the two groups. Moreover, whole-body, as well as skeletal muscle, insulin-mediated glucose uptake did not differ between LPL-overexpressing and wild-type mice. Surprisingly, whole-body glucose oxidation was decreased by ∼60% (P < 0.05), whereas nonoxidative glucose disposal was increased by ∼50% (P < 0.05) in LPL-overexpressing versus control mice. In conclusion, overexpression of human LPL in muscle increases intramuscular TG accumulation, but does not affect whole-body or muscle-specific insulin-mediated uptake, findings that argue against a simple causal relation between intramuscular TG content and insulin resistance.Keywords:
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We assessed glucose uptake in different tissues in type 2 diabetes (T2D), prediabetes, and control subjects to elucidate its impact in the development of whole-body insulin resistance and T2D. Thirteen T2D, 12 prediabetes, and 10 control subjects, matched for age and BMI, underwent OGTT and abdominal subcutaneous adipose tissue (SAT) biopsies. Integrated whole-body 18F-FDG PET and MRI were performed during a hyperinsulinemic euglycemic clamp to asses glucose uptake rate (MRglu) in several tissues. MRglu in skeletal muscle, SAT, visceral adipose tissue (VAT), and liver was significantly reduced in T2D subjects and correlated positively with M-values (r=0.884, r=0.574, r=0.707 and r=0.403, respectively). Brain MRglu was significantly higher in T2D and prediabetes subjects and had a significant inverse correlation with M-values (r=-0.616). Myocardial MRglu did not differ between groups and did not correlate with the M-values. A multivariate model including skeletal muscle, brain and VAT MRglu best predicted the M-values (adjusted r2=0.85). In addition, SAT MRglu correlated with SAT glucose uptake ex vivo (r=0.491). In different stages of the development of T2D, glucose uptake during hyperinsulinemia is elevated in the brain in parallel with an impairment in peripheral organs. Impaired glucose uptake in skeletal muscle and VAT together with elevated glucose uptake in brain were independently associated with whole-body insulin resistance, and these tissue-specific alterations may contribute to T2D development.
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ABSTRACT—The purpose of the present study was to determine whether insulin-like growth factor (IGF)-I would increase whole body and muscle glucose uptake in septic rats that are known to be insulin resistant. Animals were infused with either saline, low-dose IGF-I, high-dose IGF-I, or a maximally stimulating dose of insulin for 2 h, and the glucose metabolic response was assessed using a euglycemic clamp in combination with [3-3H]glucose. Under basal conditions, sepsis increased the rates of whole body glucose uptake, glycolysis, and hepatic glucose production. Under euglycemic hyperinsulinemic conditions, septic rats demonstrated a marked insulin resistance as evidenced by the impaired rate of insulin-stimulated glucose uptake and muscle glycogen synthesis. In contrast, the infusion of either dose of IGF-I increased total glucose uptake, glycolysis, and glycogen synthesis in both control and septic rats to the same extent. Furthermore, there was no difference in the IGF-I stimulation of glucose uptake (as determined by [14C]-2-deoxyglucose) in the gastrocnemius, soleus, and heart between control and septic rats. These results indicate that the glucose metabolic response to IGF-I is intact in insulin-resistant septic rats.
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To determine the tissue localization of insulin resistance in type 1 diabetic patients, whole body and regional glucose uptake rates were determined under euglycemic hyperinsulinemic conditions. Leg, arm, and heart glucose uptake rates were measured using positron emission tomography-derived 2-deoxy-2-[18F]-fluoro-D-glucose kinetics and the three-compartment model described by Sokoloff et al. (L. Sokoloff, M. Reivich, C. Kennedy, M.C. DesRosiers, C.S. Patlak, K.D. Pettigrew, O. Sakurada, and M. Shinohara. J. Neurochem. 28: 897–916, 1977) in eight type 1 diabetic patients and eight matched normal subjects. Whole body glucose uptake was quantitated by the euglycemic insulin clamp technique. Whole body glucose uptake was approximately 31% lower in the diabetic patients (P < 0.01) than in the normal subjects, thus confirming the presence of whole body insulin resistance. The rate of glucose uptake was approximately 45% lower in leg muscle when measured in the femoral region (55 +/- 7 vs. 102 +/- 13 mumol.kg muscle-1.min-1, diabetic patients vs. normal subjects, P < 0.05) and approximately 27% lower in the arm muscles (66 +/- 4 vs. 90 +/- 13 mumol.kg muscle-1.min-1, respectively, P < 0.05), whereas no difference was observed in heart glucose uptake [789 +/- 80 vs. 763 +/- 58 mumol.kg muscle-1.min-1 not significant (NS)]. Whole body glucose uptake correlated with glucose uptake in femoral (r = 0.93, P < 0.005) and arm muscles (r = 0.66, P < 0.05) but not with glucose uptake in the heart (r = 0.04, NS). We conclude that insulin resistance in type 1 diabetic patients is localized to skeletal muscle, whereas heart glucose uptake is unaffected.(ABSTRACT TRUNCATED AT 250 WORDS)
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It is unclear if insulin-mediated vasodilatation is altered by ageing and if this affects insulin-mediated glucose uptake.A 2-h euglycaemic hyperinsulinaemic clamp (56 mU m(-2) min(-1)) was performed in 10 healthy, nonobese elderly men (70-75 years) and 13 young men (23-28 years). Forearm blood flow (FBF) was measured by venous occlusion plethysmography and forearm glucose uptake was calculated by arterial and venous serum glucose determinations in the forearm.Insulin induced an increase in FBF in the younger men (from 3.9 +/- 1.1 SD to 5.9 +/- 2.2 mL min(-1) 100(-1)mL tissue, P < 0.001), but this insulin-mediated vasodilatation was completely blunted in the elderly subjects. Glucose extraction during the clamp was significantly higher in the elderly subjects (1.2 +/- 0.76 vs. 0.82 +/- 0.37 mmol L(-1) at 120 min, P < 0.01), resulting in a similar forearm glucose uptake in the two groups. On the other hand, whole-body glucose uptake was significantly decreased in the elderly subjects (5.3 +/- 1.8 vs. 8.0 +/- 1.1 mg kg(-1) min(-1), P < 0.001).The present study showed that the ability of insulin to induce vasodilatation is blunted in the forearm in healthy, nonobese elderly subjects. However, the elderly compensate for this impairment with an increased glucose extraction from arterial blood to maintain an unaltered forearm glucose uptake.
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Lipoprotein lipase (LPL) is a key enzyme in lipid metabolism.This study investigated LPL gene expression, LPL enzyme activity, and the correlation of each with intramuscular fat (IMF) in Chinese Guangxi san-huang (GXSH) and Arbor Acres (AA) chickens.The results showed that age and breed had significant effects on LPL expression and enzyme activity.Correlation analyses showed significant positive correlations between LPL expression levels and IMF contents in the breast and thigh tissues of both GXSH (r = 0.712, P = 0.001; r = 0.792, P < 0.001, respectively) and AA (r = 0.644, P < 0.001; r = 0.545, P < 0.001, respectively) chickens.The results also indicated a significant positive correlation between LPL enzyme activity and IMF contents in the breast and thigh tissues of both GXSH (r = 0.615, P = 0.001; r = 0.685, P < 0.001, respectively) and AA (r = 0.600, P = 0.001; r = 0.528, P = 0.003, respectively) chickens.The results indicated that the LPL gene was significantly correlated with IMF in these two breeds.The results presented here could contribute to knowledge of ©FUNPEC-RP www.funpecrp.com.brGenetics and Molecular Research 15 (2): gmr.15027414LPL mRNA developmental expression patterns and enzyme activity, and it could facilitate further research on the molecular mechanisms underlying IMF deposition in chickens.
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To test whether early, insulin-mediated microvascular recruitment in skeletal muscle predicts steady-state glucose metabolism in the setting of physiological elevation of free fatty acid concentrations.We measured insulin's microvascular and metabolic effects in 14 healthy young adults during a 2-h euglycemic insulin clamp. Plasma free fatty acid concentrations were raised (Intralipid and heparin infusion) for 3 h before the clamp and maintained at postprandial concentrations during the clamp. Microvascular blood volume (MBV) was measured by contrast-enhanced ultrasound (CEU) continuously from baseline through the first 30 min of the insulin clamp. Muscle glucose and insulin uptake were measured by the forearm balance method.The glucose infusion rate (GIR) necessary to maintain euglycemia during the clamp varied by fivefold across subjects (2.5-12.5 mg/min/kg). The early MBV responses to insulin, as indicated by CEU video intensity, ranged widely, from a 39% decline to a 69% increase. During the clamp, steady state forearm muscle glucose uptake and GIR each correlated significantly with the change in forearm MBV (P < 0.01). To explore the basis for the wide range of vascular and metabolic insulin sensitivity observed, we also measured V(O(2max)) in a subset of eight subjects. Fitness (V(O(2max))) correlated significantly with the GIR, the forearm glucose uptake, and the percentage change in MBV during the insulin clamp (P < 0.05 for each).Early microvascular responses to insulin strongly associate with steady state skeletal muscle insulin-mediated glucose uptake. Physical fitness predicts both metabolic and vascular insulin responsiveness.
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We compared estimates of in vivo insulin action derived from insulin tolerance tests (ITT) and euglycemic and hyperglycemic glucose clamp studies in 17 normal subjects and 19 patients with various diseases characterized by insulin resistance. Fifteen subjects underwent an ITT and a euglycemic clamp study, 17 subjects underwent an ITT and a hyperglycemic clamp study, and 4 subjects underwent all 3 tests. The ITT consisted of a bolus iv injection of regular insulin (0.1 U/kg BW). The plasma glucose disappearance rate during the 3- to 15-min period following the insulin injection was taken as a measure of insulin action. In both euglycemic and hyperglycemic clamp studies, which were carried out with standard techniques, the ratio between the amount of glucose infused to maintain glycemia at the desired level and the mean plasma insulin concentration from 60-120 min (M) (euglycemic clamp studies) or 20-120 min (I) (hyperglycemic clamp studies) was used as a measure of insulin action. A close correlation was found between plasma glucose disappearance rate and the M/I ratio during either the euglycemic (r = 0.811; P less than 0.001) or the hyperglycemic (r = 0.826; P less than 0.001) clamp studies. These results suggest that the 15-min ITT is suitable as a simple and rapid estimation of in vivo insulin action when glucose clamp studies are not feasible, as in large series of subjects or serial studies.
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