Abstract
We have previously shown that pentoxifylline (PTX) protects from vascular complications associated with insulin resistance (IR). Here, we investigated the protective effect of PTX against cardiac ischemia and dysfunction following experimental angina in IR. IR, along with its accompanying cardiac dysfunction, was induced in rats by a high-fructose (10% in drinking water) high-fat diet for 12 weeks. PTX was administered daily (30 mg⋅kg−1) during the last 4 weeks of the study. Experimental angina was induced by isoproterenol (10 µg⋅kg−1) administered by intravenous injection. Both before (baseline) and after the experimental angina, cardiac contractility was assessed by continuous recording in anesthetized rats via a microtip catheter inserted in the left ventricle, and cardiac conductivity was determined by a surface electrocardiograph. Serum glucose, insulin, tumor necrosis factor-α (TNFα), and adiponectin levels and lipid profile were also determined. Feeding the rats a high-fructose high-fat diet produced IR, as evidenced by significant hyperinsulinemia and hyperglycemia, and PTX administration did not affect this IR. When subjected to experimental angina, IR hearts were less resistant to the ischemia following induction of angina (reflected by the large ST height depression) compared with controls, and PTX completely prevented the excessive ST height depression in IR animals. In addition, left ventricular pressure development was largely attenuated during and after induction of angina in IR animals compared with controls. PTX administration prevented the excessive attenuation in ventricular pressure development in IR animals. IR was associated with elevated levels of the inflammatory cytokine TNFα, whereas PTX treatment elevated the serum level of the anti-inflammatory cytokine adiponectin. PTX alleviates cardiac ischemia and dysfunction following experimental angina in IR directly through inhibition of the low-grade inflammation that accompanies IR.
Highlights
Insulin resistance (IR) is a major and growing healthcare problem throughout the world and is a key component of the metabolic syndrome, which represents a major risk factor for cardiovascular diseases development [1]
IR parameters The high-fructose high-fat diet for 12 weeks produced IR as indicated by the significant elevation in blood glucose (p,0.001), fructosamine (p,0.01), and insulin (p,0.01) levels compared with control animals
PTX administration significantly alleviated the ischemia in the hearts of IR animals as indicated by the significant decrease in ST height depression compared with the untreated IR group
Summary
Insulin resistance (IR) is a major and growing healthcare problem throughout the world and is a key component of the metabolic syndrome, which represents a major risk factor for cardiovascular diseases development [1]. Angina pectoris, caused by an imbalance between the supply and demand for oxygen in the heart, is divided into 2 types depending on its cause: (1) angina of effort and (2) stable angina The former is a myocardial ischemia induced by a lack of oxygen, which is caused by an inability to increase blood flow due to coronary constriction while stable angina occurs due to coronary vasospasm during rest [5]. ST segment elevation has been reported in some disease states such as acute pericarditis and Brugada syndrome [7]. These disease conditions are completely distinguished from the isoproterenol-induced angina model used in the present study
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