Indirect inhibition of myocyte RNA and protein synthesis by interleukin-1

Abstract

Soluble mediators of the inflammatory response may directly influence myocardial function and metabolism in the absence of myocardial cell necrosis. Previous reported experimental data have demonstrated that the monokine interleukin-1 (IL-1) can produce myocardial depression and may influence muscle protein metabolism. To further investigate this hypothesis, IL-1 was added to neonatal rat cardiac muscle cell (MC) cultures with and without additional rat cardiac non-muscle cells (NMC). Incorporation of 3H-uridine or 14C-phenylalanine into acid-insoluble material was utilized as a measure of RNA or protein synthesis. IL-1 in concentrations of up to 500 units/ml had no effect on MC RNA or protein synthesis. When NMC were added to the MC culture, IL-1 exhibited a concentration-dependent inhibition of both RNA and protein synthesis, with effects apparent at concentrations as low as 5 units/ml. Supernatants from IL-1-treated NMC cultures exerted a dose dependent reduction on the incorporation of radiolabeled precursor into MC cultures, suggesting production of a soluble substance mediating the IL-1 effect. Supernatants from IL-1 treated rat skin fibroblasts or rat skeletal muscle myoblasts increased MC radiolabeled precursor incorporation slightly, in contrast to the decrease seen with NMC supernatant. Furthermore, IL-1 treated NMC supernatant had no inhibitory effect on skeletal myoblasts. We conclude that IL-1 decreases protein and RNA synthesis in MC cultures through a second mediator elaborated from the NMC population.