Separation of outer and inner membranes of mitochondria from the brown adipose tissue of infant rats

Abstract

Digitonin treatment and the swelling-shrinkage-sonication procedure as used to separate mitochondria membranes were applied to mitochondria from the brown adipose tissue (BAT) of infant rats. Digitonin at a concentration of 0.15 mg/mg mitochondrial protein produced disruption of the outer membrane of BAT mitochondria and a complete release of adenylate kinase. However, fragments of the outer membrane remained firmly attached to the inner membrane-matrix particles (mitoplasts) and sedimented at 10 000 g, as indicated by the activity of monoamine oxidase in the pellet. Only at 0.5 mg digitonin/mg protein did outer membrane become almost entirely separated. Oxidation of external cytochrome c by mitoplasts was only 50% of the total cytochrome oxidase at 0.5 mg digitonin/mg protein, indicating an incomplete exposure of the inner membrane to the external medium. Ultrastructural studies revealed that a large proportion of mitoplasts retained the orthodox configuration under these conditions. Outer membrane fragments obtained by the swelling-shrinkage-sonication procedure were of buoyant density corresponding to 20–30% (weight/vol) sucrose. After a 10 sec sonication of mitochondria, a relatively pure outer membrane fraction could be obtained with a yield not exceeding 20%. Longer sonication increased the yield, but also increased the degree of contamination by inner membrane fragments. Optimum conditions for the separation of outer and inner membranes from brown adipose tissue mitochondria are described.