Malonyl-CoA metabolism in cardiac myocytes

(1) Malonyl-CoA is thought to play a signalling role in fuel-selection in c ardiac muscle, but the rate at which the concentration of this potential si gnal can be changed has not previously been investigated. (2) Rapid changes in cellular malonyl-CoA could be observed when rat cardiac myocytes were i ncubated in glucose-free medium followed by re-addition of 5 mM glucose, or when cells were transferred from a medium containing glucose to a glucose- free medium. On addition of glucose, malonyl-CoA increased by 62 % to a new steady-state level, at a rate of at least 0.4 nmol/g dry wt. per min. The halftime of this change was less than 3 min. After removal of glucose the m alonyl-CoA content was estimated to decline by 0.43-0.55 nmol/g dry wt. per min. (3) Malonyl-CoA decarboxylase (MDC) is a possible route for disposal of malonyl-CoA. No evidence was obtained for a cytosolic activity of MDC in rat heart where most of the activity was found in the mitochondrial fracti on. MDC in the mitochondrial matrix was not accessible to extramitochondria l malonyl-CoA. However, approx. 16%, of the MDC activity in mitochondria wa s overt, in a manner that could not be explained by mitochondrial leakage. It is suggested that this, as yet uncharacterized, overt MDC activity could provide a route for disposal of cytosolic malonyl-CoA in the heart. (4) No activity of the condensing enzyme for the fatty acid elongation system cou ld be detected in any heart subcellular fraction using two assay systems. A previous suggestion [Awan and Saggerson (1993) Biochem. J. 295, 61-66] tha t this could provide a route for disposal of cytosolic malonyl-CoA in heart should therefore be abandoned.