Nazha Hamdani1, Anne-Sophie Hervent2, Leni Vandekerckhove2, Veerle Matheeussen3, Marc Demolder2, Lesley Baerts3, Ingrid De Meester3, Wolfgang A Linke4, Walter J Paulus5, Gilles W De Keulenaer6. 1. Department of Physiology, Institute for Cardiovascular Research, VU University Medical Center Amsterdam, Amsterdam, the Netherlands Department of Cardiovascular Physiology, Institute of Physiology, Ruhr University, Bochum, Germany. 2. Laboratory of Physiopharmacology (Building T2), University of Antwerp, Universiteitsplein 1, Antwerp 2610, Belgium. 3. Laboratoy of Medical Biochemistry, University of Antwerp, Antwerp, Belgium. 4. Department of Cardiovascular Physiology, Institute of Physiology, Ruhr University, Bochum, Germany. 5. Department of Physiology, Institute for Cardiovascular Research, VU University Medical Center Amsterdam, Amsterdam, the Netherlands. 6. Laboratory of Physiopharmacology (Building T2), University of Antwerp, Universiteitsplein 1, Antwerp 2610, Belgium gilles.dekeulenaer@ua.ac.be.
Abstract
AIMS: Obesity and Type 2 diabetes mellitus (DM) induce left ventricular (LV) diastolic dysfunction, which contributes to an increasing prevalence of heart failure with a preserved LV ejection fraction. We investigated the effects of sitagliptin (SITA), an inhibitor of dipeptidylpeptidase-4 (DPP-4) and anti-diabetic drug, on LV structure and function of obese mice with Type 2 DM. METHODS AND RESULTS: Obese Type 2 diabetic mice (Lepr(db/db), BKS.Cg-Dock7(m)+/+ Lepr(db)/J), displaying increased cardiomyocyte and LV stiffness at the age of 16 weeks, were treated with SITA (300 mg/kg/day) or vehicle for 8 weeks. SITA severely impaired serum DPP-4 activity, but had no effect on glycaemia. Invasive haemodynamic recordings showed that SITA reduced LV passive stiffness and increased LV stroke volume; LV end-systolic elastance remained unchanged. In addition, SITA reduced resting tension of isolated single cardiomyocytes and intensified phosphorylation of the sarcomeric protein titin. SITA also increased LV concentrations of cGMP and increased activity of protein kinase G (PKG). In vitro activation of PKG decreased resting tension of cardiomyocytes from vehicle-treated mice, but had no effect on resting tension of cardiomyocytes from SITA-treated mice. CONCLUSIONS: In obese Type 2 diabetic mice, in the absence of hypoglycaemic effects, inhibition of DPP-4 decreases LV passive stiffness and improves global LV performance. These effects seem at least partially mediated by stimulatory effects on the myocardial cGMP-PKG pathway and, hence, on the phosphorylation status of titin and the hereto coupled cardiomyocyte stiffness modulus. Published on behalf of the European Society of Cardiology. All rights reserved.
AIMS: Obesity and Type 2 diabetes mellitus (DM) induce left ventricular (LV) diastolic dysfunction, which contributes to an increasing prevalence of heart failure with a preserved LV ejection fraction. We investigated the effects of sitagliptin (SITA), an inhibitor of dipeptidylpeptidase-4 (DPP-4) and anti-diabetic drug, on LV structure and function of obesemice with Type 2 DM. METHODS AND RESULTS:Obese Type 2 diabeticmice (Lepr(db/db), BKS.Cg-Dock7(m)+/+ Lepr(db)/J), displaying increased cardiomyocyte and LV stiffness at the age of 16 weeks, were treated with SITA (300 mg/kg/day) or vehicle for 8 weeks. SITA severely impaired serum DPP-4 activity, but had no effect on glycaemia. Invasive haemodynamic recordings showed that SITA reduced LV passive stiffness and increased LV stroke volume; LV end-systolic elastance remained unchanged. In addition, SITA reduced resting tension of isolated single cardiomyocytes and intensified phosphorylation of the sarcomeric protein titin. SITA also increased LV concentrations of cGMP and increased activity of protein kinase G (PKG). In vitro activation of PKG decreased resting tension of cardiomyocytes from vehicle-treated mice, but had no effect on resting tension of cardiomyocytes from SITA-treated mice. CONCLUSIONS: In obese Type 2 diabeticmice, in the absence of hypoglycaemic effects, inhibition of DPP-4 decreases LV passive stiffness and improves global LV performance. These effects seem at least partially mediated by stimulatory effects on the myocardial cGMP-PKG pathway and, hence, on the phosphorylation status of titin and the hereto coupled cardiomyocyte stiffness modulus. Published on behalf of the European Society of Cardiology. All rights reserved.
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