Genome-wide screening in the haploid system reveals Slc25a43 as a target gene of oxidative toxicity
Zhang Jinxin, Zhao Yiding, Tian Yaru, Geng Mengyang, Liu Yan, Zhang Wenhao, Shuai Ling
Journal:Cell Death & Disease
IF:9.69
DOI:10.1038/s41419-022-04738-4
PMID:35354792
Published:2022-03-30
research field:分子生物学内分泌学生殖生物学
Abstract
Reactive oxygen species (ROS) are extensively assessed in physiological and pathological studies; however, the genes and mechanisms involved in antioxidant reactions are elusive. To address this knowledge gap, we used a forward genetic approach with mouse haploid embryonic stem cells (haESCs) to generate high-throughput mutant libraries, from which numerous oxidative stress-targeting genes were screened out. We performed proof-of-concept experiments to validate the potential inserted genes. Slc25a43 (one of the candidates) knockout (KO) ESCs presented reduced damage caused by ROS and higher cell viability when exposed to H 2 O 2 . Subsequently, ROS production and mitochondrial function analysis also confirmed that Slc25a43 was a main target gene of oxidative toxicity. In addition, we identified that KO of Slc25a43 activated mitochondria-related genes including Nlrx1 to protect ESCs from oxidative damage. Overall, our findings facilitated revealing target genes of oxidative stress and shed lights on the mechanism underlying oxidative death.
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