Glycerol phosphate dehydrogenase in mammalian peroxisomes

Peroxisomes isolated on sucrose density gradients from homogenates of rat, chicken, or dog livers and rat kidney contained NAD⁺:α-glycerol phosphate dehydrogenase. Since the amount of sucrose in the peroxisomal fraction inhibited the enzyme activity about 70%, it was necessary to remove the sucrose by dialysis. About 8.4% of the total dehydrogenase of rat livers was in the surviving intact peroxisomes after homogenation. If corrected for particle breakage, this represented approximately 21% of the total activity. About 9.5% of the total enzyme was isolated in rat kidney peroxisomes, and because of severe particle rupture may represent over half of the total activity. No glycerol phosphate dehydrogenase was found in spinach leaf peroxisomes. A specific activity of 326 nmoles min^?1 mg^?1 protein in the rat liver peroxisomal fraction was at least twice that in the cytoplasm. NAD⁺:α-glycerol phosphate dehydrogenase was also present in a membrane fraction which was not identified, but none was in the mitochondria. The liver peroxisomal and cytoplasmic NAD⁺:α-glycerol phosphate dehydrogenase moved similarly on polyacrylamide gels and each resolved into two adjacent bands.Malate dehydrogenase was not found in peroxisomes from liver and kidney of rats and pigs, but 1–2% of the total particulate malate dehydrogenase was present in the peroxisomal area of the gradient from dog livers. However, this malate dehydrogenase in dog peroxisomal fractions did not exactly coincide with the peroxisomal marker, catalase. Malate dehydrogenase in dog liver mitochondria and in the peroxisomal fraction had similar pH optima and K_m values and migrated similarly to the anode at pH 6.5 on starch gels as a major and a minor band. The cytoplasmic malate dehydrogenase had a different pH optimum and K_m value and resolved into five different isoenzymes by electrophoresis. It is concluded that NAD⁺:α-glycerol phosphate dehydrogenase is in peroxisomes of liver and kidney, whereas malate dehydrogenase, present in peroxisomes of plants, is apparently absent in animal peroxisomes.