Preclinical Reproductive and Developmental Toxicity Profile of a Glycine Transporter Type 1 (Glyt1) Inhibitor

Q Environmental Science
Paul Barrow, Neil Parrott, Daniela Alberati, Axel Paehler, Annette Koerner
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引用次数: 2

Abstract

Bitopertin is a glycine type 1 (GlyT1) inhibitor intended for the treatment of psychiatric disorders. The principle adverse effect in the regulatory reproductive toxicity studies was peri-natal pup death when rat dams were treated during parturition at a dose resulting in five-times the human therapeutic exposure (AUC). Cessation of dosing two days before parturition prevented the pup deaths. Investigatory experiments and pharmacokinetic modelling suggested that the neonatal mortality was related to transplacental passage of bitopertin leading to high systemic levels in the newborn pups. Brain levels of bitopertin in the rat fetus and neonate were two-fold higher than in the mother. As illustrated by knock-out mice models, GlyT1 function is essential for neonatal pup survival in rodents, but is not necessary for normal prenatal morphological development. The glycine transport systems are immature at birth in the rat, but are functionally well-developed in the human newborn. While the relevance to humans of the neonatal mortality seen in rats following late gestational exposure is unknown, bitopertin would not be recommended for use during late pregnancy unless the anticipated benefit for the mother outweighs the potential risk to the newborn.

甘氨酸转运蛋白1型(Glyt1)抑制剂的临床前生殖和发育毒性分析
Bitopertin是一种甘氨酸1型(GlyT1)抑制剂,用于治疗精神疾病。在调节性生殖毒性研究中,主要的不利影响是,当大鼠在分娩期间以五倍于人类治疗性暴露(AUC)的剂量治疗时,围产期幼崽死亡。在分娩前两天停止给药可以防止幼犬死亡。研究性实验和药代动力学模型表明,新生儿死亡率与双手术素经胎盘传递导致新生儿体内高水平的双手术素有关。大鼠胎儿和新生儿的脑内bitopertin水平是母鼠的两倍。正如敲除小鼠模型所示,GlyT1功能对啮齿动物的新生幼鼠存活是必不可少的,但对正常的产前形态发育不是必需的。大鼠的甘氨酸运输系统在出生时是不成熟的,但在人类新生儿中功能发育良好。虽然妊娠后期暴露在大鼠中观察到的新生儿死亡率与人类的相关性尚不清楚,但除非对母亲的预期益处超过对新生儿的潜在风险,否则不建议在妊娠后期使用bitopertin。
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来源期刊
CiteScore
1.65
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: The purpose of this journal is to publish original contributions describing the toxicity of chemicals to developing organisms and the process of reproduction. The scope of the journal will inlcude: • toxicity of new chemical entities and biotechnology derived products to developing organismal systems; • toxicity of these and other xenobiotic agents to reproductive function; • multi-generation studies; • endocrine-mediated toxicity, particularly for endpoints that are relevant to development and reproduction; • novel protocols for evaluating developmental and reproductive toxicity; Part B: Developmental and Reproductive Toxicology , formerly published as Teratogenesis, Carcinogenesis and Mutagenesis
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