Two Distinct Mechanisms Mediate a Differential Regulation of Protein Kinase C Isozymes in Acute and Prolonged Myocardial Ischemia

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Circulation Research. 1999;85:77-87

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(Circulation Research. 1999;85:77-87.)
© 1999 American Heart Association, Inc.

Original Contribution

Two Distinct Mechanisms Mediate a Differential Regulation of Protein Kinase C Isozymes in Acute and Prolonged Myocardial Ischemia

Ruth H. Strasser, Gregor Simonis, Steffen P. Schön, Martin U. Braun, Renate Ihl-Vahl, Christof Weinbrenner, Rainer Marquetant, Wolfgang Kübler

From the Department of Cardiology, Angiology, and Pulmology, University of Heidelberg, Medical Center, Heidelberg, Germany.

Correspondence to Ruth H. Strasser, Department of Cardiology, Angiology, and Pulmology, University of Heidelberg, Bergheimer Str 58, 69115 Heidelberg, Germany. E-mail ruth.strasser{at}med.uni-heidelberg.de

Abstract—An activation of protein kinase C (PKC) in acutemyocardial ischemia has been shown previously using its translocationto the plasma membrane as an indirect parameter. However, whetherPKC remains activated or whether other mechanisms such as alteredgene expression may mediate an isozyme-specific regulation inprolonged ischemia have not been investigated. In isolated perfusedrat hearts, PKC activity and the expression of PKC cardiac isozymeswere determined on the protein level using enzyme activitiesand Western blot analyses and on the mRNA level using reverse transcriptase–polymerasechain reaction after various periods of global ischemia (1 to60 minutes). As early as 1 minute after the onset of ischemia,PKC activity is translocated from the cytosol to the particulatefraction without change in total cardiac enzyme activity. Thistranslocation involves all major cardiac isozymes of PKC (ie,PKC ${alpha}$ , PKC ${delta}$ , PKC ${varepsilon}$ , and PKC ${zeta}$ ). This rapid, nonselective activationof PKCs is only transient. In contrast, prolonged ischemia ( $>=$ 15minutes) leads to an increased cardiac PKC activity (119±7versus 190±8 pmol/min per mg protein) residing in thecytosol. This is associated with an augmented, subtype-selective isozymeexpression of PKC ${delta}$ and PKC ${varepsilon}$ (163% and 199%, respectively). Thespecific mRNAs for PKC ${delta}$ (948±83 versus 1501±138 ag/ngtotal RNA, 30 minutes of ischemia) and PKC ${varepsilon}$ (1597±166 versus2611±252 ag/ng total RNA) are selectively increased.PKC ${alpha}$ and PKC ${zeta}$ remain unaltered. In conclusion, two distinct activationand regulation processes of PKC are characterized in acute myocardial ischemia.The early, but transient, translocation involves all constitutivelyexpressed cardiac isozymes of PKC, whereas in prolonged ischemiaan increased total PKC activity is associated with an isozyme-selectiveinduction of PKC ${varepsilon}$ and PKC ${delta}$ . Whether these fundamentally differentactivation processes interact remains to be elucidated.

Key Words: acute myocardial ischemia • protein kinase C • heart • signal transduction

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