Modification of left ventricular hypertrophy by chronic etomoxir treatment

Abstract

1. Etomoxir (2[6(4-chlorophenoxy)hexyl]oxirane-2-carboxylate), an irreversible carnitine palmitoyl-transferase 1 inhibitor, reduces the expression of the myocardial foetal gene programme and the functional deterioration during heart adaption to a pressure-overload. Etomoxir may, however, also improve the depressed myocardial function of hypertrophied ventricles after a prolonged pressure overload. 2. To test this hypothesis, we administered racemic etomoxir (15 mg kg(-1) day(-1) for 6 weeks) to rats with ascending aortic constriction beginning 6 weeks after imposing the pressure overload. 3. The right ventricular/body weight ratio increased (P<0.05) by 20% in etomoxir treated rats (n = 10) versus untreated rats with ascending aortic constriction (n = 10). Left ventricular weight was increased (P<0.05) by 8%. Etomoxir blunted the increase in left ventricular chamber volume. Etomoxir raised the proportion of V1 isomyosin (35+/-4% versus 24+/-2%; P<0.05) and decreased the percentage of V3 isomyosin (36+/-4% versus 48+/-3%; P<0.05). 4. Maximum isovolumically developed pressure was higher in etomoxir treated rats than in untreated pressure overloaded rats (371+/-22 versus 315+/-23 mmHg; P<0.05). Maximum rates of ventricular pressure development (14,800+/-1310 versus 12,340+/-1030mmHg s(-1); P<0.05) and decline (6440+/-750 versus 5040+/-710 mmHg s(-1); P<0.05) were increased as well. Transformation of pressure values to ventricular wall stress data revealed an improved myocardial function which could partially account for the enhanced function of the whole left ventricle. 5. The co-ordinated action of etomoxir on ventricular mass, geometry and myocardial phenotype enhanced thus the pressure generating capacity of hypertrophied pressure-overloaded left ventricles and delayed the deleterious dilative remodelling.