Upregulation of PKC genes and isozymes in cardiovascular tissues during early stages of experimental diabetes

doi:10.1152/physiolgenomics.00125.2002

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Upregulation of PKC genes and isozymes in cardiovascular tissues during early stages of experimental diabetes

Mingzhang Guo , Mack H. Wu , Ferenc Korompai and Sarah Y. Yuan

Cardiovascular Research Institute, Departments of Surgery and Medical Physiology, Texas A & M University System Health Science Center, Temple, Texas 76504

The protein kinase C (PKC) pathway has recently been recognizedas an important mechanism in the development of diabetic complicationsincluding cardiomyopathy and angiopathy. Although an increasein PKC kinase activity has been detected in the cardiovascularsystem of diabetic patients and animals, it is unclear whetherthe same pathological condition alters PKC at the transcriptionaland translational levels. In this study we assessed quantitativelythe mRNA and protein expression profiles of PKC isozymes inthe heart and vascular tissues from streptozotocin-induced diabeticpigs. Partial regions of the porcine PKC ${alpha}$ , ß1, andß2 mRNAs were sequenced, and real-time RT-PCR assayswere developed for PKC mRNA quantification. The results showeda significant increase in the mRNA levels of PKC ${alpha}$ , ß1,and ß2 in the heart at 4–8 wk of diabetes. Inconcomitance, the PKCß1 and ß2 genes, butnot the PKC ${alpha}$ gene, were upregulated in the diabetic aorta. Correspondingly,there was a significant increase in the protein expression ofPKC ${alpha}$ and ß2 in the heart and PKCß2 in theaorta with a time course correlated to that of mRNA expression.In summary, PKCß2 was significantly upregulated inthe heart and aorta at both the transcriptional and translationallevels during early stages of experimental diabetes, suggestingthat PKCß2 may be a prominent target of diabetic injuryin the cardiovascular system.

hyperglycemia; protein kinase C; gene and protein expression; real-time reverse transcription polymerase chain reaction

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