Abstract
Diabetes is associated with higher incidence of myocardial infarction (MI) and increased propensity for subsequent events post-MI. Here we conducted a temporal analysis of the influence of diabetes on cardiac dysfunction and remodeling after ischemia reperfusion (IR) injury in mice. Diabetes was induced using streptozotocin and IR performed by ligating the left anterior descending coronary artery for 30 min followed by reperfusion for up to 42 days. We first evaluated changes in cardiac function using echocardiography after 24 hours reperfusion and observed IR injury significantly decreased the systolic function, such as ejection fraction, fractional shortening and end systolic left ventricular volume (LVESV) in both control and diabetic mice. The longitudinal systolic and diastolic strain rate were altered after IR, but there were no significant differences between diabetic mice and controls. However, a reduced ability to metabolize glucose was observed in the diabetic animals as determined by PET-CT scanning using 2-deoxy-2-(18F)fluoro-D-glucose. Interestingly, after 24 hours reperfusion diabetic mice showed a reduced infarct size and less apoptosis indicated by TUNEL analysis in heart sections. This may be explained by increased levels of autophagy detected in diabetic mice hearts. Similar increases in IR-induced macrophage infiltration detected by CD68 staining indicated no change in inflammation between control and diabetic mice. Over time, control mice subjected to IR developed mild left ventricular dilation whereas diabetic mice exhibited a decrease in both end diastolic left ventricular volume and LVESV with a decreased intraventricular space and thicker left ventricular wall, indicating concentric hypertrophy. This was associated with marked increases in fibrosis, indicted by Masson trichrome staining, of heart sections in diabetic IR group. In summary, we demonstrate that diabetes principally influences distinct IR-induced chronic changes in cardiac function and remodeling, while a smaller infarct size and elevated levels of autophagy with similar cardiac function are observed in acute phase.
Highlights
Diabetes is associated with a higher incidence of heart failure and cardiac ischemic events [1]
Echocardiography analysis at 24 hours reperfusion revealed that ischemia reperfusion (IR) injury significantly decreased the systolic function in both vehicle treated non-diabetic (VEH) mice and STZ treated diabetic (STZ) mice
Both ejection fraction (EF) and fractional shortening were significantly reduced in both STZ and VEH animals after IR injury
Summary
Diabetes is associated with a higher incidence of heart failure and cardiac ischemic events [1]. Patients with both type 1 and type 2 diabetes have a higher risk for encountering sudden death attributed to acute myocardial infarction (MI) and these individuals exhibit higher mortality rate and risk for developing left ventricular dysfunction after MI [2,3]. Due to inherent difficulties in analysis of human myocardium, much of our knowledge on disease mechanisms comes from animal models showing structural, functional or mechanistic characteristics that are observed commonly in diabetic hearts [4,5,6]. Many paradoxical observations exist and there is a need for comparative analysis of remodeling events during the progression of heart failure
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