Institution: | Department of Physiological Chemistry, The Johns Hopkins University School of Medicine, Baltimore, Md., U.S.A. |
Abstract: | 1. Under the appropriate conditions intact yeast and mammalian mitochondria exhibit a heretofore unobserved sensitivity to the polyene antibiotic, filipin. The activity of the “filipin complex” (Filipins I, II, III and IV) is shown to be primarily due to the component designated Filipin II. 2. Yeast mitochondria treated with filipin complex, or purified Filipin II, exhibit “uncoupled” succinate oxidation and inhibited -ketoglutarate oxidation. Maximum filipin effect is observed at a concentration of 4 mM Filipin II. Rat-liver mitochondria are more sensitive to filipin than yeast mitochondria, and respiratory inhibition is observed regardless of substrate. 3. In liver mitochondria filipin-inhibited respiration is not relieved by Mg2+, K+, Ca2+ or 2,4-dinitrophenol, but is reversed by cytochrome c. 4. It is proposed that filipin treatment leads to altered membrane permeability and that respiratory inhibition is due to a loss of endogenous respiratory cofactors or an inactivation of primary dehydrogenases. The filipin-uncoupled yeast respiration may likewise be attributed to an altered phosphate permeability of the yeast mitochondrial membranes. |