Department of Radiology and Imaging Sciences, University of Utah School of Medicine, Salt Lake City, UT, USA.
Catalyst Pharmaceuticals, Coral Gables, FL, USA.
Neuropsychopharmacology. 2018 Feb;43(3):646-654. doi: 10.1038/npp.2017.156. Epub 2017 Jul 25.
CPP-115, a next-generation γ-amino butyric acid (GABA)-aminotransferase (AT) inhibitor, shows comparable pharmacokinetics, improved safety and tolerability, and a more favorable toxicity profile when compared with vigabatrin. The pharmacodynamic characteristics of CPP-115 remain to be evaluated. The present study employed state-of-the-art proton magnetic resonance spectroscopy techniques to measure changes in brain GABA+ (the composite resonance of GABA, homocarnosine, and macromolecules) concentrations in healthy subjects receiving oral daily doses of CPP-115 or placebo. Six healthy adult males were randomized to receive either single daily 80 mg doses of CPP-115 (n=4) or placebo (n=2) for 6, 10, or 14 days. Metabolite-edited spectra and two-dimensional J-resolved spectroscopy data were acquired from the parietal-occipital cortex and supplementary motor area in all subjects. Four scans were performed in each subject that included a predrug baseline measure, two scans during the dosing timeframe, and a final scan that occurred 1 week after drug cessation. CPP-115 induced robust and significant increases in brain GABA+ concentrations that ranged between 52 and 141% higher than baseline values. Elevated GABA+ concentrations returned to baseline values following drug clearance. Subjects receiving placebo showed no significant changes in GABA+ concentration. CPP-115-induced changes were exclusive to GABA and homocarnosine, and CPP-115 afforded brain GABA+ concentration changes comparable to or greater than previous vigabatrin spectroscopy studies in healthy epilepsy-naive subjects. The return to baseline GABA+ concentration indicates the reversible GABA-AT resynthesis following drug washout. These preliminary data warrant further spectroscopy studies that characterize the acute pharmacodynamic effects of CPP-115 with additional dose-descending measures.
CPP-115 是一种新一代 γ-氨基丁酸(GABA)氨基转移酶(AT)抑制剂,与 vigabatrin 相比,具有相当的药代动力学、改善的安全性和耐受性,以及更有利的毒性特征。CPP-115 的药效学特征仍有待评估。本研究采用最先进的质子磁共振波谱技术,测量接受口服 CPP-115 或安慰剂的健康受试者脑内 GABA+(GABA、同型瓜氨酸和大分子的复合共振)浓度的变化。6 名健康成年男性随机分为 4 名接受每日 80mg CPP-115 或 2 名接受安慰剂治疗 6、10 或 14 天。所有受试者均从前顶叶和辅助运动区采集代谢物编辑谱和二维 J 分辨波谱数据。每个受试者进行 4 次扫描,包括给药前基线测量、给药期间的 2 次扫描和停药后 1 周的最后一次扫描。CPP-115 诱导脑内 GABA+浓度显著增加,比基线值高 52%至 141%。药物清除后,GABA+浓度恢复到基线值。接受安慰剂的受试者 GABA+浓度没有显著变化。CPP-115 诱导的变化仅对 GABA 和同型瓜氨酸有影响,CPP-115 使脑 GABA+浓度的变化与健康非癫痫受试者以前的 vigabatrin 波谱研究相当或更大。GABA+浓度恢复到基线表明药物冲洗后 GABA-AT 可重新合成。这些初步数据需要进一步的波谱研究来描述 CPP-115 的急性药效学作用,并进行额外的剂量递减测量。