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Genome-scale CRISPR screening for potential targets of ginsenoside compound K

Yuanyuan Yang, Xiaojian Liu, Shuang Li, Yanhao Chen, Yongxu Zhao, Yuda Wei, Yan Qiu, Yan Liu, Zhihua Zhou, Jun Han, Guohao Wu, Qiurong Ding

2020Cell Death and Disease12 citationsDOIOpen Access PDF

Abstract

Ginsenosides exhibit a large variety of biological activities in maintaining physical health; however, the molecule underpinnings underlining these biological activities remain to be defined. Here, we took a cellular condition that compound K (CK) induces autophagic cell death in HeLa cells, and setup a high-throughput genetic screening using CRISPR technology. We have identified a number of CK-resistant and CK-sensitive genes, and further validated PMAIP1 as a CK-resistant gene and WASH1 as a CK-sensitive gene. Compound K treatment reduces the expression of WASH1, which further accelerates the autophagic cell death, highlighting WASH1 as an interesting downstream mediator of CK effects. Overall, our study offers an easy-to-adopt platform to study the functional mediators of ginsenosides, and provides a candidate list of genes that are potential targets of CK.

Topics & Concepts

CRISPRGeneBiologyProgrammed cell deathHeLaGenomeGinsenosideComputational biologyHigh-throughput screeningAutophagymicroRNACell biologyCellChemistryGeneticsMedicineGinsengApoptosisAlternative medicinePathologyGinseng Biological Effects and ApplicationsAutophagy in Disease and TherapyCancer-related molecular mechanisms research
Genome-scale CRISPR screening for potential targets of ginsenoside compound K | Litcius