Metabolism and compartmentation of endogenous fatty acids in aged mouse liver mitochondria

Abstract

Isolated mouse liver mitochondria were loaded with endogenous free fatty acids by aging in vitro. The oxidation and compartmentation of these fatty acids was studied. ATP-supported carnitine-dependent and carnitine-independent oxidation pathways of about equal activity were identified. The carnitine-dependent activity was abolished by nagarse and tetrathionate. It was also absent in mitoplasts. Hence the endogenous pool of free fatty acids which served as substrate for this pathway was located in the outer membrane. The carnitine-independent pathway was strongly inhibited by low concentrations of atractyloside suggesting that a pool of fatty acids located in the inner membrane was utilized. The occurrence of free fatty acids in the outer and inner membranes was confirmed by direct assay. The endogenous respiratory activity was also stimulated by oligomycin which was insensitive to nagarse, atractyloside, carnitine, and ATP suggesting that the stimulation was due to utilization of endogenous ATP and fatty acids localized within the inner membrane. Bovine serum albumin preferentially reduced the carnitine-independent activity presumably by binding the endogenous fatty acids suggesting that albumin has a higher affinity for free fatty acids of the inner than of the outer membrane.