The inhibition of oxalate biosynthesis in isolated perfused rat liver by dl-phenyllactate and n-heptanoate

Abstract

Glycolate oxidase was isolated and partially purified from human and rat liver. The enzyme preparation readily catalyzed the oxidation of glycolate, glyoxylate, lactate, hydroxyisocaproate and α-hydroxybutyrate. The oxidation of glycolate and glyoxylate by glycolate oxidase was completely inhibited by 0.02 m dl-phenyllactate or n-heptanoate. The oxidation of glyoxylate by lactic dehydrogenase or xanthine oxidase was not inhibited by 0.067 m dl-phenyllactate or n-heptanoate. The conversion of [U- 14C] glyoxylate to [ 14C] oxalate by isolated perfused rat liver was completely inhibited by dl-phenyllactate and n-heptanoate confirming the major contribution of glycolate oxidase in oxalate synthesis. Since the inhibition of oxalate was 100%, lactic dehydrogenase and xanthine oxidase do not contribute to oxalate biosynthesis in isolated perfused rat liver. dl-Phenyllactate also inhibited [ 14C] oxalate synthesis from [1- 14C] glycolate, [U- 14C] ethylene glycol, [U- 14C] glycine, [3- 14C] serine, and [U- 14C] ethanolamine in isolated perfused rat liver. Oxalate synthesis from ethylene glycol was inhibited by dl-phenyllactate in the intact male rat confirming the role of glycolate oxidase in oxalate synthesis in vivo and indicating the feasibility of regulating oxalate metabolism in primary hyperoxaluria, ethylene glycol poisoning, and kidney stone formation by enzyme inhibitors.