Intrinsic uncoupling of mitochondrial proton pumps. 1. Non-ohmic conductance cannot account for the nonlinear dependence of static head respiration on delta microH

Abstract

The passive membrane conductance LH1 of rat liver mitochondria has been measured and compared with the quantity nJesh/delta microHsh (n = H+/e stoichiometry; Jesh = rate of electron transfer in static head) over a delta microH range. The two curves approach each other only in the lower part of the range, while they sharply diverge at large values of delta microH. Thus nJesh/delta microHsh cannot be considered to be a measure of LH1 in the upper delta microH region. Only a fraction of the static head electron flow is accounted for by futile proton cycling via leaks. Contaminating open membrane fragments or completely leaky mitochondria can be responsible for only a small part of the residual rate of oxygen consumption. We conclude that a large part of static head respiration must have yet another cause and propose it to be intrinsic uncoupling of the respiratory chain enzymes.