Obesity: Jacob S

Jacob S, Klimm HJ, Rett K, Helsberg K, Häring HU, Gödicke J. · Albert-Schweitzer-Klinik, Parkstrasse 10, 78126 Königsfeld, Germany. · Exp Clin Endocrinol Diabetes. · Pubmed #15216449 No free full text.

Abstract: Subjects with type 2 diabetes experience an increased cardiovascular morbidity and mortality, related to a high prevalence of hypertension, dyslipidemia, and obesity. Antihypertensive treatment with beta-adrenergic receptor blockers may have deleterious metabolic consequences, including worsening of lipid profiles and insulin sensitivity. The centrally-acting sympatholytic agent moxonidine may improve these variables. In this randomised, double-blind multicenter study, the effects of two widely used antihypertensive agents--moxonidine (MOX) and the beta (1)-selective adrenergic receptor blocker metoprolol (MET)--on blood pressure and metabolic control were directly compared in hypertensive subjects with type 2 diabetes. Patients received either MOX (0.2 - 0.6 mg/d) or MET (50 - 150 mg/d) for 12 weeks, intending comparable blood pressure control. In total 200 patients were randomized. Here we report results from the per protocol population consisting of 127 patients (MOX 66, MET 61) but similar results were found in the ITT population. Reductions in systolic (SBP) and diastolic (DBP) blood pressures after 12 weeks were similar in both groups: In the MOX group, mean SBP (+/- SD) decreased from 154 +/- 12 to 142 +/- 17 mmHg and mean DBP from 91 +/- 9 to 83 +/- 9 mmHg. In the MET group, mean SBP decreased from 152 +/- 13 to 140 +/- 15 mmHg, and mean DBP from 90 +/- 8 to 84 +/- 10 mmHg. Mean HbA (1C) values did not differ between groups after 12 weeks (MOX 8.1 +/- 1.4 Hb%, MET 8.1 +/- 1.5 Hb%, intention-to-treat population). However, fasting plasma glucose decreased in the MOX group (median change - 5 mg/dl), but increased in the MET group (+ 16 mg/dl; p < 0.05). Median changes in the insulin resistance index (HOMA (IR)) were + 0.56 micro IU x mol/L (2) in the MET group, and - 0.27 micro IU x mol/L (2) in the MOX group. Correspondingly, fasting triglycerides increased with a median change of + 29.5 mg/dL in the MET group, but decreased in the MOX group (- 27.5 mg/dl; p < 0.05). These results indicate that MOX, unlike MET, may elicit beneficial adaptations in glucose and lipid metabolism in hypertensive subjects with type 2 diabetes, although mean HbA (1c) values did not differ. In long-term treatment in this high-risk population, MOX thus may decrease global vascular disease risk to a greater extent than MET.

Thamer C, Machann J, Tschritter O, Haap M, Wietek B, Dahl D, Bachmann O, Fritsche A, Jacob S, Stumvoll M, Schick F, Häring HU. · Department of Endocrinology and Metabolism, Eberhard-Karls-University, Tübingen, Germany. · Horm Metab Res. · Pubmed #12660875 No free full text.

Abstract: The recently identified adipocytokine adiponectin has been shown to improve insulin action and decrease triglyceride content in skeletal muscle (by stimulating lipid oxidation) in mice. In the present study, we tested the hypothesis that high serum concentrations of adiponectin are associated with lower intramyocellular (IMCL) fat content by promoting lipid oxidation in humans. IMCL-content in predominantly non-oxidative tibialis anterior muscle and oxidative soleus was determined by proton magnetic resonance spectroscopy in a cross- sectional study involving 63 healthy volunteers. In a second set of experiments, changes in IMCL in both muscles were measured after a three days dietary lipid challenge (n = 18) and after intravenous lipid challenge (n = 12) with suppressed lipid oxidation under hyperinsulinemia. Adiponectin serum concentrations were found to be negatively correlated with IMCL in the oxidative soleus muscle (IMCL [sol]) (r = - 0.46, p < 0.001) independent of measures of obesity, but not with IMCL in the non-oxidative tibialis anterior muscle (IMCL [tib]) (p = 0.40). Adiponectin serum concentrations were negatively correlated with the observed increase in IMCL load after dietary lipid challenge in the tibialis (r = 0.53, p = 0.03) but not in the soleus muscle. During suppression of lipid oxidation by hyperinsulinemia, no effect of adiponectin on IMCL was observed in either soleus or tibialis muscle. Overall, the presented findings are consistent with the hypothesis that adiponectin promotes lipid oxidation in humans resulting in lower intracellular lipid content in human muscle. These results are consistent with animal data, where adiponectin could be shown to enhance lipid oxidation and reduce muscle triglycerides.

Jacob S, Rabbia M, Meier MK, Hauptman J. · Cardio-metabolic Institute, Villingen-Schwenningen, Germany. · Diabetes Obes Metab. · Pubmed #19207292 No free full text.

Abstract: BACKGROUND: Both obesity and type 2 diabetes are associated with increased morbidity and mortality. Published data suggest that orlistat 120 mg, a lipase inhibitor used to treat obesity, may improve glycaemic parameters through weight loss-independent effects. AIM: To investigate the effect of orlistat 120 mg on weight loss, and assess whether changes in glycaemic parameters [fasting plasma glucose (FPG) and haemoglobin A1c (HbA1c)] are independent of weight loss. METHODS: This retrospective analysis of pooled data from seven multicentre, double-blind, placebo-controlled studies involved overweight or obese patients with type 2 diabetes (aged 18-70 years). Patients were required to have a body mass index of 27-43 kg/m2, HbA1c of 6.5 to <13%, and stable weight for > or =3 months. Subjects received orlistat 120 mg tid or placebo for 6 or 12 months. RESULTS: A total of 2550 overweight or obese patients with type 2 diabetes were enrolled and randomized to treatment with orlistat 120 mg tid (n = 1279) or placebo (n = 1271). For the whole population, patients treated with orlistat 120 mg had significantly greater mean decreases in FPG compared with placebo-treated patients (-1.39 mmol/l vs. -0.47 mmol/l; p < 0.0001). In addition, orlistat 120 mg provided significantly larger mean decreases in HbA1c compared with placebo (-0.74% vs. -0.31%; p < 0.0001). For patients with minimal weight loss (< or =1% of baseline body weight), orlistat 120 mg still provided a significantly greater decrease in the least squares mean value for both FPG (-0.83 mmol/l vs. +/-0.02 mmol/l; p = 0.0052) and HbA1c -0.29% vs. +/-0.14%; p = 0.0008). This suggested that the improvement of glycaemic control with orlistat 120 mg was independent of weight loss. Using linear regression analysis, improvement in glycaemic control (FPG and HbA1c) with orlistat 120 mg was less strongly correlated with weight loss than for placebo. CONCLUSION: Orlistat 120 mg appears to improve glycaemic control more than would be predicted by weight loss alone in overweight or obese patients with type 2 diabetes. Postulated mechanisms underlying this effect include an improvement of insulin sensitivity, a slower and incomplete digestion of dietary fat, reduction of postprandial plasma non-esterified fatty acids, decreased visceral adipose tissue, and stimulation of glucagon-like peptide-1 secretion in the lower small intestine.

Knebel B, Janssen OE, Hahn S, Jacob S, Gleich J, Kotzka J, Muller-Wieland D. · Institute of Clinical Biochemistry and Pathobiochemistry, Heinrich-Heine-University Duesseldorf, Leibniz, Germany. · Exp Clin Endocrinol Diabetes. · Pubmed #18680073 No free full text.

Abstract: The Polycystic ovary syndrome (PCOS) is the most frequent endocrine disorder in premenopausal women and is associated with features of the insulin resistance syndrome, altered glucose homeostasis, and central obesity. Inflammation appears to be a link between obesity and insulin resistance, because adipose tissue is one major source of proinflammatory cytokines. Since peroxisome proliferator-activated receptor (PPAR)gamma affects adipocyte differentiation as well as insulin sensitivity, we investigated whether the levels of proinflammatory factors in PCOS patients are related to sequence variations of the PPAR gamma gene. Proinflammatory cytokine levels, i.e. IL-1 beta, IL-6, IL-7, IL-8, IL-17 and TNFalpha, were evaluated in PCOS patients (n=21) in comparison to obese controls (n=120). Next to this the complete coding sequence of the PPAR gamma gene was investigated by resequencing all probands. We show that the levels of IL-8 and IL-17 were unchanged, IL-1 beta, IL-6 and TNFalpha were elevated and the level of IL-7 was decreased in PCOS patients compared to obese controls. Sequence analyses of the PPAR gamma gene indicated that neither the common polymorphisms P12A or H478 H, nor novel polymorphisms (E79Q, V32G, -39 T>C, c.480 +33 t > g,) or unique sequence variations (S22S, A23A, T41A, S226C, K272 T, I484I, c.819 +24 a>c) detected in this investigation revealed evidence for a direct association of PPAR gamma with altered IL-7, IL-1beta, IL-6 and TNFalpha levels in PCOS patients. So, alterations in inflammatory serum markers appear to be a feature of PCOS per se, and are independent of PPAR gamma variants.

Al-Qaoud N, Prakash P, Jacob S. · Ministry of Health, Food and Nutrition Administration, Kuwait. · Med Princ Pract. · Pubmed #17541295 No free full text.

Abstract: OBJECTIVES: To investigate the reasons for attempting to lose weight and identify weight loss perception and characteristics. METHODS: A cross-sectional survey of a sample of 526 Kuwaiti adults was carried out at the Central Medical Nutrition Clinic, Kuwait, from August to December 2003. Heights and weights were measured and body mass index (BMI) was calculated and classified according to WHO grades of obesity. A structured questionnaire used for collecting data was analyzed using SPSS version 12.0. RESULTS: Of the 526 subjects, the most commonly cited reasons for attempting to lose weight were to avoid health problems (n = 248, 47.1%) followed by improving personal appearance (n = 141, 26.8%). The weight loss perceptions of 263 (50%) of the subjects were within the accepted range (2-5 kg/month); 321 (61.0%)had previously attempted to lose weight, among them 147 (45.8%) followed the advice of doctors and dieticians. The major reason mentioned for stopping the previous dietary regime was inability to resist sweets and traditional foods (n = 99, 31.0%) followed by dissatisfaction with the dietary outcome (n = 79, 24.8%). CONCLUSION: The study confirms an awareness of the health risks of obesity,but an inability among the dieters to maintain a weight loss program. Hence, behavioral management techniques may be necessary to develop nutritional education approaches and effective weight management strategies.

Teachey MK, Taylor ZC, Maier T, Saengsirisuwan V, Sloniger JA, Jacob S, Klatt MJ, Ptock A, Kraemer K, Hasselwander O, Henriksen EJ. · Muscle Metabolism Laboratory, Department of Physiology, University of Arizona College of Medicine, Tucson 85721-0093, USA. · Metabolism. · Pubmed #14506623 No free full text.

Abstract: The fatty acid conjugated linoleic acid (CLA) and the antioxidant R-(+)-alpha-lipoic acid (R-ALA) individually enhance glucose tolerance and insulin action on skeletal muscle glucose transport in the insulin-resistant obese Zucker rat. To date, no study has assessed the potential interactions between these 2 interventions in treating insulin resistance. The present study was designed to determine whether chronic treatment with CLA and R-ALA in combination would enhance skeletal muscle glucose transport to a greater extent than either intervention individually. CLA, R-ALA, or a combination treatment of R-ALA and CLA were administered to female obese Zucker rats for 20 days at low or high doses. Whereas low-dose R-ALA (10 mg/kg body weight) alone did not alter muscle glucose transport, low-dose CLA (0.3 g/kg) induced a significant increase (38%, P <.05) in insulin-mediated glucose transport in epitrochlearis, but not in soleus. Low-dose combination therapy brought about the greatest enhancement of insulin-mediated glucose transport in epitrochlearis (77%) and soleus (54%), with the latter effect being associated with a 50% reduction in protein carbonyls (an index of tissue oxidative stress) and a 33% diminution in muscle triglycerides. High-dose treatments with CLA (1.5 g/kg), R-ALA (50 mg/kg), and the combination of CLA and R-ALA elicited increases in insulin-mediated glucose transport in epitrochlearis (57%, 58%, and 77%) and soleus (32%, 35%, and 54%). However, whereas the individual high-dose treatments with CLA and R-ALA reduced protein carbonyls (63% and 49%) and triglycerides (29% and 28%) in soleus, no further reductions were observed with the high-dose combination treatment groups. These findings support a significant interaction between low doses of CLA and R-ALA for enhancement of insulin action on skeletal muscle glucose transport, possibly via reductions in muscle oxidative stress and in lipid storage.

Thamer C, Machann J, Bachmann O, Haap M, Dahl D, Wietek B, Tschritter O, Niess A, Brechtel K, Fritsche A, Claussen C, Jacob S, Schick F, Häring HU, Stumvoll M. · Department of Endocrinology and Metabolism, Eberhard-Karls-University, D-72076 Tübingen, Germany. · J Clin Endocrinol Metab. · Pubmed #12679474 links to  free full text

Abstract: The existence of metabolically relevant intramyocellular lipids (IMCL) as assessed by the noninvasive (1)H-magnetic resonance spectroscopy (MRS) has been established. In the present studies, we analyzed the relationships between IMCL in two muscle types [the predominantly nonoxidative tibialis muscle (tib) and the predominantly oxidative soleus muscle (sol)] and anthropometric data, aerobic capacity (VO(2)max, bicycle ergometry, n = 77) and insulin sensitivity (hyperinsulinemic euglycemic clamp, n = 105) using regression analysis. In univariate regression, IMCL (tib) was weakly but significantly correlated with percentage of body fat (r = 0.28, P = 0.01), whereas IMCL (sol) was better correlated with waist-to-hip ratio (r = 0.41, P < 0.0001). No significant univariate correlation with age or maximal aerobic power was observed. After adjusting for adiposity, IMCL (tib) was positively correlated with measures of aerobic fitness. A significant interaction term between VO(2)max and percentage of body fat on IMCL (tib) (P = 0.04) existed (whole model r(2) = 0.26, P = 0.001). In contrast, aerobic fitness did not influence IMCL (sol). No correlation between insulin sensitivity as such and IMCL (tib) (r = -0.13, P = 0.2) or IMCL (sol) (r = 0.03, P = 0.72) was observed. Nethertheless, a significant interaction term between VO(2)max and IMCL on insulin sensitivity existed [P = 0.04 (tib) and P = 0.02 (sol)]; [whole model (sol) r(2) = 0.61, P < 0.0001, (tib) r(2) = 0.60, P < 0.0001]. In conclusion, obesity and aerobic fitness are important determinants of IMCL. IMCL and insulin sensitivity are negatively correlated in untrained subjects. The correlation between the two parameters is modified by the extent of aerobic fitness and cannot be found in endurance trained subjects. Thus, measurements of aerobic fitness and body fat are indispensable for the interpretation of IMCL and its relationship with insulin sensitivity.

Henriksen EJ, Teachey MK, Taylor ZC, Jacob S, Ptock A, Krämer K, Hasselwander O. · Muscle Metabolism Laboratory, Department of Physiology, University of Arizona, Tucson 85721, USA. · Am J Physiol Endocrinol Metab. · Pubmed #12618357 links to  free full text

Abstract: The fatty acid-conjugated linoleic acid (CLA) enhances glucose tolerance and insulin action on skeletal muscle glucose transport in rodent models of insulin resistance. However, no study has directly compared the metabolic effects of the two primary CLA isomers, cis-9,trans-11-CLA (c9,t11-CLA) and trans-10,cis-12-CLA (t10,c12-CLA). Therefore, we assessed the effects of a 50:50 mixture of these two CLA isomers (M-CLA) and of preparations enriched in either c9,t11-CLA (76% enriched) or t10,c12-CLA (90% enriched) on glucose tolerance and insulin-stimulated glucose transport in skeletal muscle of the insulin-resistant obese Zucker (fa/fa) rat. Animals were treated daily by gavage with either vehicle (corn oil), M-CLA, c9,t11-CLA, or t10,c12-CLA (all CLA treatments at 1.5 g total CLA/kg body wt) for 21 consecutive days. During an oral glucose tolerance test, glucose responses were reduced (P < 0.05) by 10 and 16%, respectively, in the M-CLA and t10,c12-CLA animals, respectively, whereas insulin responses were diminished by 21 and 19% in these same groups. There were no significant alterations in these responses in the c9,t11-CLA group. Insulin-mediated glucose transport activity was enhanced by M-CLA treatment in both type I soleus (32%) and type IIb epitrochlearis (58%) muscles and by 36 and 48%, respectively, with t10,c12-CLA. In the soleus, these increases were associated with decreases in protein carbonyls (index of oxidative stress, r = -0.616, P = 0.0038) and intramuscular triglycerides (r = -0.631, P = 0.0028). Treatment with c9,t11-CLA was without effect on these variables. These results suggest that the ability of CLA treatment to improve glucose tolerance and insulin-stimulated glucose transport activity in insulin-resistant skeletal muscle of the obese Zucker rat are associated with a reduction in oxidative stress and muscle lipid levels and can be specifically ascribed to the actions of the t10,c12 isomer. In the obese Zucker rat, the c9,t11 isomer of CLA is metabolically neutral.

Henriksen EJ, Jacob S, Kinnick TR, Teachey MK, Krekler M. · Muscle Metabolism Laboratory, Department of Physiology, University of Arizona College of Medicine, Tucson, AZ, USA. · Hypertension. · Pubmed #11641303 links to  free full text

Abstract: Effects of oral administration of the angiotensin II receptor antagonist (selective AT(1)-subtype) irbesartan on glucose tolerance and insulin action on skeletal-muscle glucose transport were assessed in the insulin-resistant obese Zucker rat. In the acute study, obese rats received either vehicle (water) or irbesartan 1 hour before the experiment. Although irbesartan had no effect on glucose transport (2-deoxyglucose uptake) in the epitrochlearis muscle, which consists mainly of type IIb fibers, acute angiotensin II receptor antagonism led to a dose-dependent increase in insulin action in the predominantly type I soleus muscle. Irbesartan at 25 and 50 mg/kg induced significant increases (41% and 50%, respectively; P<0.05) in insulin-mediated glucose transport. Moreover, these acute irbesartan-induced improvements in soleus-muscle glucose transport were associated with enhancements in whole-body insulin sensitivity (r=-0.732; P<0.05), as assessed during an oral glucose tolerance test. After chronic administration of irbesartan (21 days at 50 mg. kg(-1). d(-1)), glucose tolerance was enhanced further, and insulin-mediated glucose transport was significantly elevated in both epitrochlearis (32%) and soleus (73%) muscle. Chronic angiotensin II receptor antagonism was associated with significant increases in glucose transporter-4 (GLUT-4) protein expression in soleus (22%) and plantaris (20%) muscle and myocardium (15%). Chronic irbesartan-induced increases in whole-body insulin sensitivity were associated with increased insulin-mediated glucose transport in both epitrochlearis (r=-0.677; P<0.05) and soleus (r=-0.892; P<0.05) muscle. In summary, angiotensin II receptor (AT(1)-subtype) antagonism, either acutely or chronically, improves glucose tolerance, at least in part because of an enhancement in skeletal-muscle glucose transport, and the effect of chronic angiotensin II receptor antagonism on type I skeletal-muscle glucose uptake is associated with an increase in GLUT-4 protein expression.

Jacob S, Fogt DL, Dietze GJ, Henriksen EJ. · Department of Endocrinology, Eberhard-Karls University, Tübingen, Germany. · Life Sci. · Pubmed #10374932 No free full text.

Abstract: Essential hypertension is associated with an increased incidence of insulin resistance of skeletal muscle glucose transport. The present study determined if celiprolol, an antihypertensive agent with selective beta1-adrenoceptor antagonist and additional beta2-agonistic properties, administered by gavage either acutely (3 hr) or chronically (14 d), had a direct effect on improving glucose tolerance and insulin-stimulated glucose transport activity (using 2-deoxyglucose (2-DG) uptake) in isolated epitrochlearis muscles of the insulin-resistant obese Zucker rat. The effects of a selective beta1-blocker, metoprolol, were also assessed. Acute administration of celiprolol, but not metoprolol, increased insulin-stimulated 2-DG uptake in muscle by 22% (p<0.05). Chronic celiprolol treatment significantly lowered fasting plasma insulin (22%) and free fatty acids (40%) in comparison to obese control values. Moreover, chronic celiprolol administration decreased the glucose-insulin index (calculated as the product of the glucose and insulin areas under the curve during an oral glucose tolerance test), by 32% (p<0.05) compared to obese controls, indicating that peripheral insulin action was increased. Indeed, insulin-stimulated skeletal muscle 2-DG uptake was enhanced by 49% (p<0.05) in these celiprolol-treated obese animals. Metoprolol was without significant effect on any of these variables following chronic administration. These findings indicate that, in this animal model of insulin resistance, the beta1-antagonist/beta2-agonist celiprolol has a specific effect of improving insulin-stimulated skeletal muscle glucose transport that is independent of any hemodynamic alterations.

Steen MS, Foianini KR, Youngblood EB, Kinnick TR, Jacob S, Henriksen EJ. · Muscle Metabolism Laboratory, Department of Physiology, University of Arizona, Tucson, Arizona 85721-0093, USA. · J Appl Physiol. · Pubmed #10368372 links to  free full text

Abstract: Exercise training or chronic treatment with angiotensin-converting enzyme (ACE) inhibitors can ameliorate glucose intolerance, insulin resistance of muscle glucose metabolism, and dyslipidemia associated with the obese Zucker rat. The purpose of the present study was to determine the interactions of exercise training and ACE inhibition (trandolapril) on these parameters in the obese Zucker rat. Animals were assigned to a sedentary control, a trandolapril-treated (1 mg. kg-1. day-1 for 6 wk), an exercise-trained (treadmill running for 6 wk), or a combined trandolapril-treated and exercise-trained group. Exercise training, alone or with trandolapril, significantly (P < 0. 05) increased peak O2 consumption by 31-34%. Similar decreases in fasting plasma insulin (34%) and free fatty acids (31%) occurred with exercise training alone or in combination with trandolapril. Compared with control, exercise training or trandolapril alone caused smaller areas under the curve (AUC) for glucose (12-14%) and insulin (28-33%) during an oral glucose tolerance test. The largest decreases in the glucose AUC (40%) and insulin AUC (53%) were observed in the combined group. Similarly, whereas exercise training or trandolapril alone improved maximally activated insulin-stimulated glucose transport in isolated epitrochlearis (26-34%) or soleus (39-41%) muscles, the greatest improvements in insulin action (67 and 107%, respectively) were seen in the combined group and were associated with similarly enhanced muscle GLUT-4 protein and total hexokinase levels. In conclusion, these results indicate combined exercise training and ACE inhibition improve oral glucose tolerance and insulin-stimulated muscle glucose transport to a greater extent than does either intervention alone.

Volk A, Renn W, Overkamp D, Mehnert B, Maerker E, Jacob S, Balletshofer B, Häring HU, Rett K. · Department of Endocrinology and Metabolism, University of Tübingen, Germany. · Exp Clin Endocrinol Diabetes. · Pubmed #10320055 No free full text.

Abstract: It is a matter of controversy, whether insulin action or secretion - or both - are disturbed in first degree relatives of patients with type 2 diabetes. We intended to assess both the compensatory and the obesity-related part of insulin secretion. In order to dissect out the latter, matching for insulin sensitivity was mandatory to normalize for the compensatory part of hyperinsulinemia. In 154 healthy, glucose tolerant first degree relatives of patients with type 2 diabetes we directly quantified both insulin sensitivity (by euglycemic-glucose-clamp technique) and insulin secretion (oral glucose load; stimulated serum c-peptide). Insulin sensitivity was scattered over a wide range with a considerable overlap of both first degree relatives of patients with type 2 diabetes and 97 controls without a family history of diabetes. Average insulin sensitivity was higher in controls (8.0+/-0.3 vs. 7.1 + 0.2 ml x kg-l x min-1, p < 0.05). Prevalence of insulin resistance (defined as controls, lowest tertile for insulin sensitivity) was 40% in first degree relatives of patients with type 2 diabetes. Insulin secretion after oral glucose was significantly increased in insulin resistant first degree relatives of patients with type 2 diabetes compared to insulin sensitive first degree relatives of patients with type 2 diabetes. Early phase relative insulin secretion (30 min) expressed as x-fold increase above basal was smaller in insulin resistant first degree relatives of patients with type 2 diabetes than in insulin sensitive counterparts (5.3+/-0.4 vs. 7.3+/-0.5; p < 0.01). Body mass index was distributed over the whole range in insulin resistant first degree relatives of patients with type 2 diabetes. In the insulin sensitive subgroup absolute and relative secretion did not differ in obese (Body mass index >25 kg/m2) and insulin sensitivity-matched lean. In obese insulin resistant first degree relatives of patients with type 2 diabetes absolute hyperinsulinemia was combined with reduced and delayed relative early insulin release. In summary, degree and prevalence of insulin resistance is higher in first degree relatives of patients with type 2 diabetes than in controls. However, both groups are of heterogenous metabolic composition and family history as major discriminator should not be overestimated. Our data suggest, that hyperinsulinemia cannot simply be explained as a compensatory event to balance insulin resistance. Hypersecretion is associated with insulin resistance predominantly in combination with obesity. It might be speculated that adipose tissue derived signals to the beta-cell might lead to hypersecretion only in the genetic background that also leads to insulin resistance.

Jacob S. · No affiliation provided · MMW Fortschr Med. · Pubmed #15794356 No free full text.

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Jacob S. · No affiliation provided · Drugs. · Pubmed #15161330 No free full text.

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Stumvoll M, Wahl HG, Jacob S, Rettig A, Machicao F, Häring H. · Department of Endocrinology and Metabolism, Eberhard-Karls-Universität, D-72076 Tübingen, Germany. · J Lipid Res. · Pubmed #11714847 links to  free full text

Abstract: Free fatty acids released during triglyceride lipolysis play an important role in obesity-associated insulin resistance of glucose disposal. Individual sensitivity of lipolysis to the suppressive effect of insulin varies greatly among healthy subjects. It is possible that genetic factors contribute to this variation. Among the many proteins involved in the regulation of lipolysis, hormone-sensitive lipase (HSL) represents a prime candidate for genetic variants contributing to the biological variation of insulin sensitivity of lipolysis. We determined the insulin sensitivity of lipolysis (suppression of isotopically [primed-continuous infusion of d5 glycerol] measured glycerol rate of appearance) and of glucose disposal, using a three-step (n = 20) or standard (n = 53) hyperinsulinemic euglycemic clamp in 73 healthy, unrelated subjects. To assess the possible role of genetic polymorphisms, we directly sequenced the coding region of the HSL gene and the noncoding exon B from these subjects. We identified two silent mutations and three amino acid polymorphisms: Arg262Met (prevalence, 5%), Glu620Asp (prevalence, 31%) and Ser681Ile (prevalence, 22%). The latter two are located in the regulatory domain of HSL but neither had a significant impact on insulin sensitivity of lipolysis or glucose disposal (with and without adjustment for obesity and age as covariates; all P values > 0.20). We conclude that a number of genetic polymorphisms in HSL exist, some of which are highly prevalent. Neither of the polymorphisms we identified in the coding region, however, contributed measurably to the biological variation of insulin sensitivity in our lean, healthy population.