Phosphate carrier of liver mitochondria: The reaction of its SH groups with mersalyl, 5,5?-dithio-bis-nitrobenzoate, andN-ethylmaleimide and the modulation of reactivity by the energy state of the mitochondria

Abstract

The inhibitory effect of three SH reagents, mersalyl, 5,5′-dithio-bis-nitrobenzoate, andN-ethylmaleimide, on P_i transport in rat liver mitochondria was investigated under a variety of conditions. Mersalyl binds at room temperature with both high (K _di transport by mersalyl goes in parallel with titration of the high-affinity sites, inhibition being complete when 3.5–4.5 nmol/mg protein is bound to the mitochondria. At concentrations of mersalyl equal to or higher than 10 µM, inhibition of P_i transport occurs in less than 10 sec. At concentrations of mersalyl lower than 10 µM, the rate of reaction with the P_i carrier is considerably decreased. At a concentration of 100 µM, 5,5′-dithio-bisnitrobenzoate fully inhibits P_i transport in about 1 min at room temperature. Nearly total inhibition is attained when as little as 40–50 pmol/mg is bound to mitochondria. Upon incubation longer than 1 min, additional SH groups, not belonging to the P_i carrier, begin to react. The uncoupler carbonyl cyanidep-trifluoromethoxyphenylhydrazone decreases the rate of reaction of mersalyl, 5,5′-dithio-bis-nitrobenzoate, andN-ethylmaleimide with the P_i carrier. Preincubation with P_i has a similar effect. We propose that both carbonyl cyanidep-trifluoromethoxyphenylhydrazone and P_i act by increasing the acidity of the mitochondrial matrix. Protonation of the P_i carrier at the matrix side would change the accessibility of its SH groups at the outer surface of the inner membrane. This might correspond to a membrane-Bohr effect, possibly related to the opening of a gating pore in the P_i carrier.