Passive Load and Angiotensin II Evoke Differential Responses of Gene Expression and Protein Synthesis in Cardiac Myocytes

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Circulation Research. 1996;78:829-838

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(Circulation Research. 1996;78:829-838.)
© 1996 American Heart Association, Inc.

Articles

Passive Load and Angiotensin II Evoke Differential Responses of Gene Expression and Protein Synthesis in Cardiac Myocytes

Robert L. Kent, Paul J. McDermott

From the Gazes Cardiac Research Institute, Cardiology Division of the Department of Medicine; the Departments of Pharmacology and Anatomy and Cell Biology, Medical University of South Carolina; and the Ralph H. Johnson Department of Veterans Affairs Medical Center, Charleston, SC.

Abstract This study introduced an improved model of loaded adultcardiocytes to address a proposed requirement for angiotensinII (Ang II) in the transduction pathway between load on thecardiac myocyte and its early anabolic responses of gene expressionand acceleration of protein synthesis. The isolated cardiocyteswere subjected to passive load by step increments of stretchand responded with proportional acceleration of protein synthesisin both adult and neonatal cardiocytes; this response was unalteredby 1 µmol/L [Sar¹,Ile⁸]Ang II, an antagonist peptide toAng II. Ang II from 1 nmol/L to 10 µmol/L did not increaseprotein synthesis after 4 hours in adult cardiocytes nor at100 nmol/L in neonatal cardiocytes. However, 100 nmol/L AngII did increase [³H]phenylalanine incorporation into neonatalcardiocyte protein over a 24-hour period by 10%, whereas passiveload increased [³H]phenylalanine incorporation into proteinby 30%, which was not blocked by [Sar¹,Ile⁸]Ang II. Thus, theanabolic effect of load does not require Ang II to increaseeither 4-hour protein synthesis in both adult and neonatal cardiocytesor 24-hour [³H]phenylalanine incorporation into protein in neonatalcardiocytes. The genetic response of the cardiocyte to loadwas examined by assessing c-fos and Na⁺-Ca²⁺ exchanger mRNAlevels, because these are rapidly expressed at the onset ofcardiac pressure overload. The c-fos mRNA was increased fourfoldwithin 1 hour after 100 nmol/L Ang II treatment of either adultor neonatal cardiocytes. This c-fos induction was blocked by [Sar¹,Ile⁸]AngII. One hour after loading of adult cardiocytes, induction ofc-fos expression was increased threefold; this was also blockedby [Sar¹,Ile⁸]Ang II. Thus, load-induced c-fos expression wasAng II dependent in adult cardiocytes. In contrast, exchangermRNA levels were increased threefold 1 hour after loading ofadult cardiocytes, but this increased expression was not blockedby [Sar¹,Ile⁸]Ang II. For additional comparison, c-fos expressionwas induced by Ang II and phorbol myristate acetate, which didnot induce exchanger expression; conversely, exchanger expressionwas induced by veratridine, which did not increase c-fos expression.Thus, separate c-fos and exchanger expression pathways can be differentiatedin adult cardiocytes. This study demonstrated that Ang II isnot required for load to initiate the anabolic processes ofaccelerated protein synthesis or enhanced Na⁺-Ca²⁺ exchangergene expression in cardiocytes; however, load induced c-fosexpression is Ang II dependent.

Key Words: angiotensin II • gene expression • protein synthesis • cardiac myocytes • cell culture

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