The transport of oxaloacetate in isolated mitochondria

The mechanism of mitochondrial oxaloacetate transport has been investigated by measuring the rate and the extent of exchange reactions between intramitochondrial anions and added oxaloacetate. The exchange between oxaloacetate and intramitochondrial oxoglutarate is insensitive to mersalyl at a concentration which completely inhibits the dicarboxylate carrier. Oxaloacetate causes efflux of intramitochondrial P_i, malonate, and malate. Mersalyl inhibits completely the oxaloacetate/P_i exchange, but only partially the oxaloacetate/malonate and the oxaloacetate/malate exchanges. The inhibition of the last two reactions decreases on increasing the time of incubation. Butylmalonate inhibits more than phenylsuccinate the exchange oxaloacetate_out/³²P_iin, whereas phenylsuccinate is a more effective inhibitor than butylmalonate of the oxaloacetate_out/[¹⁴C]oxoglutarate_in exchange. The apparent K_m values ranged from 0.6 to 1.2 mm for the oxaloacetate/oxoglutarate exchange and from 6.5 to 10 mm for the oxaloacetate/P_i exchange. The inhibition of oxoglutarate uptake by oxaloacetate is competitive. Oxaloacetate inhibits the malonate/P_i exchange competitively and it is a noncompetitive inhibitor of the $\text{P}{}_{\mathrm{i}}\text{P}{}_{\mathrm{i}}$ exchange. It is concluded that oxaloacetate may be transported across the mitochondrial membrane by the oxoglutarate carrier and, much less effectively, by the dicarboxylate carrier. The implications of these findings are discussed.