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Title: Regulated expression of a contractile protein gene correlates with recovery of contractile function after reversible metabolic inhibition in cultured myocytes. Author: Barry WH, Hamilton CA, Knowlton KU. Journal: J Mol Cell Cardiol; 1995 Jan; 27(1):551-61. PubMed ID: 7760376. Abstract: Little is known of the relation between recovery of contraction and the regulation of contractile protein gene expression in ventricular myocytes after severe ATP depletion. We have examined alterations in activation of an MLC-2 luciferase fusion gene in cultured neonatal rat ventricular myocytes produced by exposure to 2 mM Na CN and 20 mM 2-deoxyglucose, and after recovery is serum or serum free medium. The effects of metabolic inhibition followed by recovery on expression on an RSV-luciferase activity were also investigated. Myocytes were co-transfected with a CMV beta-galactosidase fusion gene, and luciferase activities were normalized relative to beta-galactosidase activity to control for transfection efficiency. Two hours of metabolic inhibition produced significant cell injury, as documented by disorganization of myofilaments, and reduction in luciferase and beta-galactosidase activity within transfected cells. Cells allowed to recover for 48 h in serum free hormone supplemented medium showed a further decline in corrected luciferase activity, consistent with a marked reduction in MLC-2 gene transcription. Cells recovered from severe metabolic inhibition in serum free medium also showed failure to redevelop contractile activity, and failure of redevelopment of organized myofibrils. In contrast, myocytes exposed to serum during the 48 h recovery period had a marked increase in luciferase activity, resumed contractile activity and re-established organized myofilaments. There were no significant differences between RSV luciferase activities in cells recovered in serum versus serum free media. In ventricular myocytes in which contraction was inhibited by exposure to 10 microM verapamil, MLC-2 luciferase activity declined by 87%. However, even when contractile activity was inhibited by exposure to verapamil during recovery from metabolic inhibition, exposure to serum containing medium caused a significantly greater increase in MLC-2 luciferase activity than did serum free medium. Thus, the effects of serum on MLC-2 gene expression were not solely due to an effect of serum on recovery of contractile activity. Verapamil had no consistent effect on expression of RSV luciferase. These results suggest that expression of the MLC-2 gene is markedly reduced following recovery from severe metabolic inhibition, an effect largely due to cessation of myocyte contractile activity. Resupply of growth factors present in fetal calf serum reactivate expression of this gene, and this is associated with resumption of contractile activity and redevelopment of organized myofibrils. These results suggest that reactivation of contractile protein gene expression during recovery from metabolic inhibition may be beneficial in allowing cells to recover from this insult.[Abstract] [Full Text] [Related] [New Search]