Specific inhibition of phosphate transport in mitochondria by N-ethylmaleimide

N-ethylmaleimide (NEM), a reagent that alkylates free sulfhydryl groups, was shown to be a highly effective inhibitor of the following coupled mitochondrial processes: oxidative phosphorylation, ATP-³²Pi exchange, Pi-induced light scattering and configurational changes, State III respiration, valinomycin-induced translocation of potassium with Pi as the anion, and calcium accumulation in presence of Pi. However, NEM was less effective or ineffective in inhibiting some processes that do not require inorganic Pi, namely electron transfer and ATPase activity, ADP binding, energized light scattering changes induced by arsenate and nonenergized light scattering changes induced by acetate. The rate of oxidative phosphorylation and of ATP-³²Pi exchange was normal in ETP_H particles prepared from NEM-treated mitochondria. Also NEM, even et levels 2–3 times greater than those required to inhibit oxidative phosphorylation in intact mitochondria, did not inhibit coupled processes in submitochondrial particles. We are proposing that NEM alkylates sulfhydryl groups in the mitochondrion that modulate Pi translocation, and that the suppression of Pi translocation blocks oxidative phosphorylation, the Pi-dependent energized configurational change in mitochondria and Pi-dependent transport processes.On leave of absence from the Department of Biochemistry, Cancer Institute Okayama University Medical School, Okayama, Japan.On leave of absence from the Department of Pathology, Nagoya University Medical School, Nagoya, Japan.