Paradoxical Increase in TAG and DAG Content Parallel the Insulin Sensitizing Effect of Unilateral DGAT1 Overexpression in Rat Skeletal Muscle

BACKGROUND: The involvement of muscle triacylglycerol (TAG) storage in the onset of insulin resistance is questioned and the attention has shifted towards inhibition of insulin signalling by the lipid intermediate diacylglycerol (DAG). The enzyme 1,2-acylCoA:diacylglyceroltransferase-1 (DGAT1) esterifies a fatty acyl-CoA on DAG to form TAG. Therefore, the aim of the present study was to investigate if unilateral overexpression of DGAT1 in adult rat Tibialis anterior (TA) muscle will increase conversion of the lipid intermediate DAG into TAG, thereby improving muscle insulin sensitivity. METHODOLOGY/PRINCIPAL FINDINGS: The DGAT1 gene construct was injected in the left TA muscle of male rats on chow or high-fat (45% kcal) diet for three weeks, followed by application of one 800 V/cm and four 80 V/cm pulses, using the contralateral leg as sham-electroporated control. Seven days after electroporation, muscle specific insulin sensitivity was assessed with a hyperinsulinemic euglycemic clamp using 2-deoxy-[3H]glucose. Here, we provide evidence that unilateral overexpression of DGAT1 in TA muscle of male rats is associated with an increased rather than decreased DAG content. Strikingly, this increase in DAG content was accompanied by improved muscle insulin sensitivity. Interestingly, markers of muscle lipolysis and mitochondrial function were also increased in DGAT1 overexpressing muscle. CONCLUSIONS/SIGNIFICANCE: We conclude that unilateral DGAT1 overexpression can rescue insulin sensitivity, possibly by increasing DAG and TAG turnover in skeletal muscle. In case of a proper balance between the supply and oxidation of fatty acids in skeletal muscle, the lipid intermediate DAG may not exert harmful effects on insulin signalling

Spierbehoud bij ouderen met obesitas tijdens afvallen

Introductie Gewichtsverlies bij obese ouderen is een risicofactor voor spiermassaverlies en sarcopenie. Deze studie evalueert het effect van een hoog wei-eiwitsupplement met toegevoegd leucine en vitamine D op spiermassabehoud tijdens een gewichtsverliesperiode van 13 weken met krachttraining bij ouderen met obesitas. De resultaten van deze studie worden gepresenteerd en in een breder perspectief geplaatst. Methoden In deze gerandomiseerde gecontroleerde trial werden tachtig obese ouderen geïncludeerd. Alle deelnemers kregen gedurende 13 weken een hypocalorisch dieet (-600 kcal) en namen 3x/week deel aan een krachttrainingsprogramma. Deelnemers in de interventiegroep kregen 10x/week een hoog wei-eiwitsupplement met toegevoegd leucine en vitamine D (150 kcal, 21 g eiwit). Deelnemers in de controlegroep kregen een isocalorisch controlesupplement. De primaire uitkomstmaat was verandering in de spiermassa in armen en benen (DXA). Secundaire uitkomstmaten waren lichaamssamenstelling, handknijpkracht en fysiek functioneren. Resultaten Bij baseline was de gemiddelde leeftijd (±SD) 63±6 jaar en de BMI 33±4. Tijdens het gewichtsverliesprogramma was de eiwitinname in de interventiegroep 1,11±0,28 vs. 0,85±0,24 g/kg in de controlegroep. Zowel de interventie- als de controlegroep verloor gewicht (-3,4±3,6 vs. -2,8±2,8 kg) en vetmassa (-3,2±3,1 vs. -2,5±2,4 kg), zonder verschillen tussen de groepen. De verandering in spiermassa in armen en benen was wel verschillend (+0,4±1,2 vs. -0,5±2,1 kg, p=0,03). Spierkracht en spierfunctie verbeterden over de tijd, zonder verschillen tussen de groepen. Conclusie Een hoog wei-eiwitsupplement met toegevoegd leucine en vitamine D zorgt in vergelijking met een controlesupplement voor spiermassabehoud tijdens een gewichtsverliesperiode met krachttraining bij obese ouderen. Op basis van literatuur lijkt er voor deze doelgroep voldoende onderbouwing voor het adviseren van minimaal 1,0-1,2 g/kg hoogwaardige eiwitten en mogelijk zelfs hoger dan 1,2 g/kg in combinatie met een (kracht)trainingsprogramma

Traiter ou ne pas traiter?

La décision de traiter ou non repose sur le risque fracturaired'un patient, son adhésion à la prise en charge, l'efficacité dutraitement et son profil d'effets indésirables, et sur le remboursementde ce dernier. Différents algorithmes, dont l'outil FRAX,permettent d'évaluer le risque fracturaire. Ce dernier outil aquelques limites: absence de quantification du type de fracturesantérieures, mauvaise appréciation du risque lié à une corticothérapiesystémique active, absence de validation prospective.Le seuil thérapeutique peut être fixe indépendant de l'âgeou varier avec l'âge. Les analyses coût-efficacité montrent quepour un même profil de risque, plus la personne est âgée, plusgrand est le bénéfice économique. Le jugement clinique peutnous guider dans certaines situations. La fracture non traumatique,l'âge avancé, la corticothérapie, un T-score abaissé sontles principaux facteurs de risque utilisés en pratique. Dans l'approchediagnostique, la recherche de la fracture vertébrale sousjacenteest impérative, idéalement par IVA. Les quelques exemplesci-dessous montrent les limites des algorithmes et dujugement clinique.Sans facteur de risque pour l'ostéoporose, mais avec un T-scoreà -3.2 DS, à quel âge va-t-on débuter un traitement chez cettefemme ? Avant ou après 60 ans ? Certaines situations cliniquessemblent claires et posent l'indication à traiter: la fracture de lahanche, la fracture vertébrale spontanée, la corticothérapie aulong cours. Mais si pour ces trois situations la densitométrieosseuse donne un T-score à -0.5 DS, ou si le patient a 35 ans,est-ce que chaque clinicien sera d'accord de traiter ? On saitpar exemple que le risque fracturaire sous corticothérapie aulong cours semble faible chez la femme préménopausée et chezl'homme avant 50 ans. Que faire après une fracture du poignetà 50 ans : ne pas traiter si le T-score est à -1.5 DS et traiter si leT-score est à -3 DS ? L'antécédent de fracture du poignet n'estpas un facteur de risque aussi fort de la fracture subséquenteque la hanche, la vertèbre ou l'humérus. Et chez cette femme de80 ans ayant eu une fracture de côte sur un effort de toux, avecun T-score à -2.5 DS ? Ou cette autre femme de 83 ans, sansfacteur de risque particulier pour l'ostéoporose mais avec unT-score à -3.1 DS ? Ces deux dernières femmes bénéficient d'untraitement en terme économique et le praticien respecte les indicationsau remboursement. Mais certains modèles préconisentde ne pas traiter les personnes très âgées si leur risque fracturairen'est pas très élevé.Dans toutes ces situations, le partage de la décision entre lepraticien et son patient prime sur les éventuelles propositionsissues d'algorithmes qui doivent encore être améliorés

Glycaemic response after intake of a high energy, high protein, diabetes-specific formula in older malnourished or at risk of malnutrition type 2 diabetes patients

Background & aims: Several studies with diabetes-specific formulas (DSFs) for hyperglycaemic patients in need of nutritional support have been conducted in non-malnourished patients, mainly comparing products with varying macronutrient compositions. Here, the effect of a high energy, high protein DSF on postprandial responses was compared to a product with a similar macronutrient composition in malnourished or at risk of malnutrition patients with type 2 diabetes.Methods: In this randomised, double-blind cross-over study, 20 patients were included. After overnight fasting, patients consumed 200 mL of a DSF or standard supplement (control) (19.6 g protein, 31.2 g carbohydrates and 10.6 g fat), while continuing their anti-diabetic medication. The formulas differed in type of carbohydrates and presence of fibre. The postprandial glucose, insulin and glucagon responses were monitored over 4 h. Data were analysed with a Linear Mixed Model, and results of the modified ITT population (n = 19) are shown.Results: Postprandial glucose response as incremental area under the curve (iAUC), was lower after consumption of DSF compared with control (489.7 ± 268.5 (mean ± SD) vs 581.3 ± 273.9 mmol/L min, respectively; p = 0.008). Also, the incremental maximum concentration of glucose (iCmax) was lower for DSF vs control (3.5 ± 1.4 vs 4.0 ± 1.4 mmol/L; p = 0.007). Postprandial insulin and glucagon levels, expressed as iAUC or iCmax, were not significantly different between groups.Conclusions: Consumption of a high energy, high protein DSF by older malnourished or at risk of malnutrition type 2 diabetes patients resulted in a significantly lower glucose response compared to control. These data suggest that the use of a DSF is preferred for patients with diabetes in need of nutritional support

A high whey protein-, leucine-, and vitamin D-enriched supplement preserves muscle mass during intentional weight loss in obese older adults: a double-blind randomized controlled trial.

BACKGROUND: Intentional weight loss in obese older adults is a risk factor for muscle loss and sarcopenia. OBJECTIVE: The objective was to examine the effect of a high whey protein-, leucine-, and vitamin D-enriched supplement on muscle mass preservation during intentional weight loss in obese older adults. DESIGN: We included 80 obese older adults in a double-blind randomized controlled trial. During a 13-wk weight loss program, all subjects followed a hypocaloric diet (-600 kcal/d) and performed resistance training 3×/wk. Subjects were randomly allocated to a high whey protein-, leucine-, and vitamin D-enriched supplement including a mix of other macro- and micronutrients (150 kcal, 21 g protein; 10×/wk, intervention group) or an isocaloric control. The primary outcome was change in appendicular muscle mass. The secondary outcomes were body composition, handgrip strength, and physical performance. Data were analyzed by using ANCOVA and mixed linear models with sex and baseline value as covariates. RESULTS: At baseline, mean ± SD age was 63 ± 5.6 y, and body mass index (in kg/m(2)) was 33 ± 4.4. During the trial, protein intake was 1.11 ± 0.28 g · kg body weight(-1) · d(-1) in the intervention group compared with 0.85 ± 0.24 g · kg body weight(-1) · d(-1) in the control group (P < 0.001). Both intervention and control groups decreased in body weight (-3.4 ± 3.6 kg and -2.8 ± 2.8 kg; both P < 0.001) and fat mass (-3.2 ± 3.1 kg and -2.5 ± 2.4 kg; both P < 0.001), with no differences between groups. The 13-wk change in appendicular muscle mass, however, was different in the intervention and control groups [+0.4 ± 1.2 kg and -0.5 ± 2.1 kg, respectively; β = 0.95 kg (95% CI: 0.09, 1.81); P = 0.03]. Muscle strength and function improved over time without significant differences between groups. CONCLUSION: A high whey protein-, leucine-, and vitamin D-enriched supplement compared with isocaloric control preserves appendicular muscle mass in obese older adults during a hypocaloric diet and resistance exercise program and might therefore reduce the risk of sarcopenia. This trial was registered at the Dutch Trial Register (http://www.trialregister.nl) as NTR2751

Obese older type 2 diabetes mellitus patients with muscle insulin resistance benefit from an enriched protein drink during combined lifestyle intervention: The probe study

(1) Background: Recent research showed that subtypes of patients with type 2 diabetes may differ in response to lifestyle interventions based on their organ-specific insulin resistance (IR). (2) Methods: 123 Subjects with type 2 diabetes were randomized into 13-week lifestyle intervention, receiving either an enriched protein drink (protein+) or an isocaloric control drink (control). Before and after the intervention, anthropometrical and physiological data was collected. An oral glucose tolerance test was used to calculate indices representing organ insulin resistance (muscle, liver, and adipose tissue) and β-cell functioning. In 82 study-compliant subjects (per-protocol), we retrospectively examined the intervention effect in patients with muscle IR (MIR, n = 42) and without MIR (no-MIR, n = 40). (3) Results: Only in patients from the MIR subgroup that received protein+ drink, fasting plasma glucose and insulin, whole body, liver and adipose IR, and appendicular skeletal muscle mass improved versus control. Lifestyle intervention improved body weight and fat mass in both subgroups. Furthermore, for the MIR subgroup decreased systolic blood pressure and increased VO2 peak and for the no-MIR subgroup, a decreased 2-h glucose concentration was found. (4) Conclusions: Enriched protein drink during combined lifestyle intervention seems to be especially effective on increasing muscle mass and improving insulin resistance in obese older, type 2 diabetes patients with muscle IR

Obese older Type 2 Diabetes Mellitus patients with muscle insulin resistance benefit from an enriched protein drink during combined lifestyle intervention: the PROBE study

(1) Background: Recent research showed that subtypes of patients with type 2 diabetes may differ in response to lifestyle interventions based on their organ-specific insulin resistance (IR). (2) Methods: 123 Subjects with type 2 diabetes were randomized into 13-week lifestyle intervention, receiving either an enriched protein drink (protein+) or an isocaloric control drink (control). Before and after the intervention, anthropometrical and physiological data was collected. An oral glucose tolerance test was used to calculate indices representing organ insulin resistance (muscle, liver, and adipose tissue) and β-cell functioning. In 82 study-compliant subjects (per-protocol), we retrospectively examined the intervention effect in patients with muscle IR (MIR, n = 42) and without MIR (no-MIR, n = 40). (3) Results: Only in patients from the MIR subgroup that received protein+ drink, fasting plasma glucose and insulin, whole body, liver and adipose IR, and appendicular skeletal muscle mass improved versus control. Lifestyle intervention improved body weight and fat mass in both subgroups. Furthermore, for the MIR subgroup decreased systolic blood pressure and increased VO2peak and for the no-MIR subgroup, a decreased 2-h glucose concentration was found. (4) Conclusions: Enriched protein drink during combined lifestyle intervention seems to be especially effective on increasing muscle mass and improving insulin resistance in obese older, type 2 diabetes patients with muscle IR