Changes in protein kinase C in early cardiomyopathy and in gracilis muscle in the BB/Wor diabetic rat

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Changes in protein kinase C in early cardiomyopathy and in gracilis muscle in the BB/Wor diabetic rat

Thomas D. Giles, Jie Ouyang, E. Kenneth Kerut, Michael B. Given, Gayle Eileen Allen, Elizabeth F. McIlwain, and Stan S. Greenberg

Department of Medicine, Section of Cardiology, Cardiovascular Research Laboratories, and Department of Physiology, Alcohol Research Center, Louisiana State University Medical Center, New Orleans, Louisiana 70112

Hyperglycemia can upregulate protein kinase C (PKC), which may be an important mediator of the progression from normal heartand muscle function to diabetic myopathy in the myocardium andskeletal muscle in type 1 insulin-dependent diabetes mellitus(IDM). We evaluated this possibility during the early stage ofIDM in BB/Wor diabetic (D) rats and age-matched BB/Wor diabetes-resistant(DR) rats. Interventricular septal thickness, E wave peak velocityof tricuspid inflow (both minimum and maximum), and left ventricular(LV) weight index were increased, and the rate of change in LVpressure (LV dP/dt) decreased in D rats subjected to M-mode andtwo-dimensional echocardiography and hemodynamic recording ofheart rate, LV pressure (LVP), +LV dP/dt, $-$ LV dP/dt, and LV end-diastolicpressure (LVEDP) in vivo and in vitro 41 days after the onsetof hyperglycemia. Whole ventricle basal PKC activity was increasedby 44.4 and 18.4% in the particulate and soluble fractions, respectively,from D rats compared with that from DR rats using r-³²P phosphorylation of appropriate peptide substrates. When measuredby Western blot gel densitometry, particulate PKC- $alpha$ and PKC- $delta$ content increased by 89 and 24%, respectively, but soluble PKC- $beta$ and soluble and particulate PKC- $epsilon$ were unchanged compared withthat of DR rats. Similarly, gracilis muscle PKC activity and PKC- $alpha$ and PKC- $delta$ were elevated in the gracilis muscle, whereas that ofthe circulating neutrophil did not differ between the D and DRrats. Thus, in vivo, the early diabetic cardiomyopathy of theD rat is characterized by a restrictive LV with increased septalthickness and is associated with elevated PKC activity and increasedamounts of myocardial particulate PKC- $alpha$ and PKC- $delta$ , which are alsoseen in the skeletal muscle. We conclude that increased PKC isozymesmay play a pivotal role during IDM in the development of diabeticcardiomyopathy and skeletal muscle myopathy.

echocardiography; genetic diabetes; Doppler flowmetry; protein kinase C isozymes; myocardial contractility

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