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Quantitative Translational Analysis of Brain Kynurenic Acid Modulation via Irreversible Kynurenine Aminotransferase II Inhibition

巴比妥酸 犬尿氨酸 化学 犬尿氨酸途径 调制(音乐) 生物化学 药理学 生物 氨基酸 色氨酸 哲学 美学
作者
Cheng Chang,Kari R. Fonseca,Cheryl Li,W. Elliott Horner,Laura E. Zawadzke,Michelle A. Salafia,Kathryn Welch,Christine A. Strick,Brian Campbell,Steve S. Gernhardt,Haojing Rong,Aarti Sawant‐Basak,Jennifer L. Liras,Amy B. Dounay,Jamison B. Tuttle,Patrick R. Verhoest,Tristan S. Maurer
出处
期刊:Molecular Pharmacology [American Society for Pharmacology and Experimental Therapeutics]
卷期号:94 (2): 823-833 被引量:6
标识
DOI:10.1124/mol.118.111625
摘要

Kynurenic acid (KYNA) plays a significant role in maintaining normal brain function, and abnormalities in KYNA levels have been associated with various central nervous system disorders. Confirmation of its causality in human diseases requires safe and effective modulation of central KYNA levels in the clinic. The kynurenine aminotransferases (KAT) II enzyme represents an attractive target for pharmacologic modulation of central KYNA levels; however, KAT II and KYNA turnover kinetics, which could contribute to the duration of pharmacologic effect, have not been reported. In this study, the kinetics of central KYNA-lowering effect in rats and nonhuman primates (NHPs, Cynomolgus macaques) was investigated using multiple KAT II irreversible inhibitors as pharmacologic probes. Mechanistic pharmacokinetic-pharmacodynamic analysis of in vivo responses to irreversible inhibition quantitatively revealed that 1) KAT II turnover is relatively slow [16-76 hours' half-life (t1/2)], whereas KYNA is cleared more rapidly from the brain (<1 hour t1/2) in both rats and NHPs, 2) KAT II turnover is slower in NHPs than in rats (76 hours vs. 16 hours t1/2, respectively), and 3) the percent contribution of KAT II to KYNA formation is constant (∼80%) across rats and NHPs. Additionally, modeling results enabled establishment of in vitro-in vivo correlation for both enzyme turnover rates and drug potencies. In summary, quantitative translational analysis confirmed the feasibility of central KYNA modulation in humans. Model-based analysis, where system-specific properties and drug-specific properties are mechanistically separated from in vivo responses, enabled quantitative understanding of the KAT II-KYNA pathway, as well as assisted development of promising candidates to test KYNA hypothesis in humans.

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