The effects of calcium ions, ionophore A23187 and inhibition of energy metabolism on protein degradation in the rat diaphragm and epitrochlearis muscles in vitro

Abstract

1. The effects of external Ca2+, EGTA, ionophore A23187, CN-, dinitrophenol and iodoacetamide on the rate of protein degradation in the rat diaphragm and epitrochlearis muscles in vitro were investigated. 2. External Ca2+ increased protein degradation when compared with external EGTA. Protein degradation was further increased by Ca2+ + ionophore A23187. 3. EGTA and ionophore A23187 decreased ATP and phosphocreatine concentrations and the ATP/ADP ratio. 4. CN-, dinitrophenol and iodoacetamide decreased protein degradation, presumably by interfering with energy metabolism. 5. The effects of EGTA may be caused by disturbances in energy metabolism. The effects of ionophore A23187 cannot be readily explained by disturbances in energy metabolism. 6. Incubation of diaphragms with Ca2+ causes a rapid increase in whole-tissue Ca content. This is further stimulated by ionophore A23187. The uptake of Ca2+ may be, at least in part, into the cytoplasm because an increase in the glycogen phosphorylase activity ratio is observed. 7. A Ca2+-activated proteinase is present in rat heart and diaphragm. This enzyme may mediate in part the effects of Ca2+ described above. The apparent KA of this enzyme for Ca2+ is about 0.25 mM. 8. Because effects of ionophore A23187 cause a large increase in whole-tissue Ca content and because the Ca2+-activated proteinase has a relatively low affinity for Ca2+, it is felt that the effects of Ca2+ upon muscle proteolysis are unlikely to be of importance in steady-state protein turnover in vivo. The mechanism may, however, be important in breakdown of necrotic tissue in the living animal.