Role of F0 and F1 subunits in the gating and coupling function of mitochondrial H+‐ATP synthase

Abstract

A study is presented on the role of F₀ and F₁ subunits in oligomycin‐sensitive H⁺ conduction and energy transfer reactions of bovine heart mitochondrial F₀F₁ H⁺‐ATP synthase. Mild treatment with azodicarboxylic acid bis(dimethylamide) (diamide) enhanced oligomycin‐sensitive H⁺ conduction in submitochondrial particles containing F₁ attached to F₀. This effect was associated with stimulation of the ATPase activity, with no effect on its inhibition by oligomycin, and depression of the ³²P_i—ATP exchange. The stimulatory effect of diamide on H⁺ conduction decreased in particles from which F₁ subunits were partially removed by urea. The stimulatory effect exerted by diamide in the submitochondrial particles with F₁ attached to F₀ was directly correlated with a decrease of the original electrophoretic bands of a subunit of F₀ (F₀I‐PVP protein) and the γ subunit of F₁, with corresponding formation of their cross‐linking product. In F₀ liposomes, devoid of γ subunit, diamide failed to stimulate H⁺ conduction and to cause disappearance of F₀I‐PVP protein, unless purified γ subunit was added back. The addition to F₀ liposomes of γ subunit, but not that of α and β subunits, caused per se inhibition of H⁺ conduction. It is concluded that F₀I‐PVP and γ subunits are directly involved in the gate of the F₀F₁ H⁺‐ATP synthase. Data are also presented indicating contribution to the gate of oligomycin‐sensitivity conferral protein and of another protein subunit of F₀, F₆.