OBJECTIVE: Transition from obesity to metabolic-syndrome (MetS) promotes cardiovascular diseases, but the underlying cardiac pathophysiological mechanisms are incompletely understood. We tested the hypothesis that development of insulin resistance and MetS is associated with impaired myocardial cellular turnover. METHODS AND RESULTS: MetS-prone Ossabaw pigs were randomized to 10 weeks of standard chow (lean) or to 10 (obese) or 14 (MetS) weeks of atherogenic diet (n=6 each). Cardiac structure, function, and myocardial oxygenation were assessed by multidetector computed-tomography and Blood Oxygen Level-Dependent-MRI, the microcirculation with microcomputed-tomography, and injury mechanisms by immunoblotting and histology. Both obese and MetS showed obesity and dyslipidemia, whereas only MetS showed insulin resistance. Cardiac output and myocardial perfusion increased only in MetS, yet Blood Oxygen Level-Dependent-MRI showed hypoxia. Inflammation, oxidative stress, mitochondrial dysfunction, and fibrosis also increased in both obese and MetS, but more pronouncedly in MetS. Furthermore, autophagy in MetS was decreased and accompanied by marked apoptosis. CONCLUSIONS: Development of insulin resistance characterizing a transition from obesity to MetS is associated with progressive changes of myocardial autophagy, apoptosis, inflammation, mitochondrial dysfunction, and fibrosis. Restoring myocardial cellular turnover may represent a novel therapeutic target for preserving myocardial structure and function in obesity and MetS.
OBJECTIVE: Transition from obesity to metabolic-syndrome (MetS) promotes cardiovascular diseases, but the underlying cardiac pathophysiological mechanisms are incompletely understood. We tested the hypothesis that development of insulin resistance and MetS is associated with impaired myocardial cellular turnover. METHODS AND RESULTS: MetS-prone Ossabaw pigs were randomized to 10 weeks of standard chow (lean) or to 10 (obese) or 14 (MetS) weeks of atherogenic diet (n=6 each). Cardiac structure, function, and myocardial oxygenation were assessed by multidetector computed-tomography and Blood Oxygen Level-Dependent-MRI, the microcirculation with microcomputed-tomography, and injury mechanisms by immunoblotting and histology. Both obese and MetS showed obesity and dyslipidemia, whereas only MetS showed insulin resistance. Cardiac output and myocardial perfusion increased only in MetS, yet Blood Oxygen Level-Dependent-MRI showed hypoxia. Inflammation, oxidative stress, mitochondrial dysfunction, and fibrosis also increased in both obese and MetS, but more pronouncedly in MetS. Furthermore, autophagy in MetS was decreased and accompanied by marked apoptosis. CONCLUSIONS: Development of insulin resistance characterizing a transition from obesity to MetS is associated with progressive changes of myocardial autophagy, apoptosis, inflammation, mitochondrial dysfunction, and fibrosis. Restoring myocardial cellular turnover may represent a novel therapeutic target for preserving myocardial structure and function in obesity and MetS.
Authors: Stefan Hein; Eyal Arnon; Sawa Kostin; Markus Schönburg; Albrecht Elsässer; Victoria Polyakova; Erwin P Bauer; Wolf-Peter Klövekorn; Jutta Schaper Journal: Circulation Date: 2003-02-25 Impact factor: 29.690
Authors: James Harris; Sergio A De Haro; Sharon S Master; Joseph Keane; Esteban A Roberts; Monica Delgado; Vojo Deretic Journal: Immunity Date: 2007-09 Impact factor: 31.745
Authors: Hilary P Glazer; Robert M Osipov; Richard T Clements; Frank W Sellke; Cesario Bianchi Journal: Cell Cycle Date: 2009-06-03 Impact factor: 4.534
Authors: Michaela Diamant; Hildo J Lamb; Ymte Groeneveld; Edwin L Endert; Jan W A Smit; Jeroen J Bax; Johannes A Romijn; Albert de Roos; Jasper K Radder Journal: J Am Coll Cardiol Date: 2003-07-16 Impact factor: 24.094
Authors: Xiang-Yang Zhu; Elena Daghini; Alejandro R Chade; Daniele Versari; James D Krier; Kyle B Textor; Amir Lerman; Lilach O Lerman Journal: Cardiovasc Res Date: 2009-05-07 Impact factor: 10.787
Authors: Hwi Jin Ko; Zhiyou Zhang; Dae Young Jung; John Y Jun; Zhexi Ma; Kelly E Jones; Sook Y Chan; Jason K Kim Journal: Diabetes Date: 2009-08-18 Impact factor: 9.461
Authors: Arash Aghajani Nargesi; Lihong Zhang; Hui Tang; Kyra L Jordan; Ishran M Saadiq; Stephen C Textor; Lilach O Lerman; Alfonso Eirin Journal: J Hypertens Date: 2019-10 Impact factor: 4.844
Authors: Alfonso Eirin; Barbara J Williams; Behzad Ebrahimi; Xin Zhang; John A Crane; Amir Lerman; Stephen C Textor; Lilach O Lerman Journal: J Hypertens Date: 2014-01 Impact factor: 4.844
Authors: Jing Li; Andreas J Flammer; Martin K Reriani; Yoshiki Matsuo; Rajiv Gulati; Paul A Friedman; Randal J Thomas; Nicole P Sandhu; Lilach O Lerman; Amir Lerman Journal: Circ J Date: 2012-12-06 Impact factor: 2.993