C. Theron, J. E. Salcedo-Sora, Justine M. Grixti, Iben Møller-Hansen, Irina Borodina, D. B. Kell
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引用次数: 0
摘要
氯氮平是一种抗精神病药物,它在白细胞中的蓄积有时会被证明是有毒的;因此,了解造成这种现象的转运体和等位基因是非常必要的。我们采用了一种策略,将酵母(Saccharomyces cerevisiae)CRISPR-Cas9基因敲除文库暴露于细胞毒性浓度的氯氮平,以确定哪些转运体的缺失会使氯氮平更具抗药性;我们还发现荧光染料safranin O(又称safranin T)在结构上与氯氮平相似,因此可将其用作替代标记。缺乏线粒体ABC转运体MDL1(由YLR188W编码)的菌株对氯氮平表现出极大的抗性。MDL1 的过表达也会使酵母对氯氮平更加敏感,并且通过流式细胞仪和显微镜测定,细胞和线粒体对黄芩苷 O 的摄取量会大幅增加。缺乏线粒体的酵母则没有出现这种异常积累。因此,线粒体 MDL1 是氯氮平在 S. cerevisiae 中积累的主要途径。与 S. cerevisiae MDL1 最接近的人类同源物是 ABCB10。
Evidence for the Role of the Mitochondrial ABC Transporter MDL1 in the Uptake of Clozapine and Related Molecules into the Yeast Saccharomyces cerevisiae
Clozapine is an antipsychotic drug whose accumulation in white cells can sometimes prove toxic; understanding the transporters and alleles responsible is thus highly desirable. We used a strategy in which a yeast (Saccharomyces cerevisiae) CRISPR-Cas9 knock-out library was exposed to cytotoxic concentrations of clozapine to determine those transporters whose absence made it more resistant; we also recognised the structural similarity of the fluorescent dye safranin O (also known as safranin T) to clozapine, allowing it to be used as a surrogate marker. Strains lacking the mitochondrial ABC transporter MDL1 (encoded by YLR188W) showed substantial resistance to clozapine. MDL1 overexpression also conferred extra sensitivity to clozapine and admitted a massive increase in the cellular and mitochondrial uptake of safranin O, as determined using flow cytometry and microscopically. Yeast lacking mitochondria showed no such unusual accumulation. Mitochondrial MDL1 is thus the main means of accumulation of clozapine in S. cerevisiae. The closest human homologue of S. cerevisiae MDL1 is ABCB10.
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