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Role of renal D-amino-acid oxidase in pharmacokinetics of D-leucine

¹Department of Pathophysiology, School of Pharmacy, Tokyo University of Pharmacy and Life Science, Hachioji, Tokyo 192-0392; and ²Department of Microbiology, Dokkyo University School of Medicine, Mibu, Tochigi 321-0293, Japan

Submitted 2 September 2003 ; accepted in final form 9 March 2004

D-Amino acids are now recognized to be widely present in mammals. Renal D-amino-acid oxidase (DAO) is associated with conversion of D-amino acids to the corresponding -keto acids, but its contribution in vivo is poorly understood because the -keto acids and/or L-amino acids formed are indistinguishable from endogenous compounds. First, we examined whether DAO is indispensable for conversion of D-amino acids to their -keto acids by using the stable isotope tracer technique. After a bolus intravenous administration of D-[²H₇]leucine to mutant mice lacking DAO activity (ddY/DAO^–) and normal mice (ddY/DAO⁺), elimination of D-[²H₇]leucine and formation of -[²H₇]ketoisocaproic acid ([²H₇]KIC) and L-[²H₇]leucine in plasma were determined. The ddY/DAO^– mice, in contrast to ddY/DAO⁺ mice, failed to convert D-[²H₇]leucine to [²H₇]KIC and L-[²H₇]leucine. This result clearly revealed that DAO was indispensable for the process of chiral inversion of D-leucine. We further investigated the effect of renal mass reduction by partial nephrectomy on elimination of D-[²H₇]leucine and formation of [²H₇]KIC and L-[²H₇]leucine. Renal mass reduction slowed down the elimination of D-[²H₇]leucine. The fraction of conversion of D-[²H₇]leucine to [²H₇]KIC in sham-operated rats was 0.77, whereas that in five-sixths-nephrectomized rats was 0.25. The elimination behavior of D-[²H₇]leucine observed in rats suggested that kidney was the principal organ responsible for converting D-leucine to KIC.

-ketoisocaproic acid; kidney; nephrectomy

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