Park, Byung-Sun Jeon, Heeju Chi, Sung-Gil Kim, Tackhoon 2024-01-19T10:03:19Z 2024-01-19T10:03:19Z 2023-11-15 2023-02 1741-7007 https://pubs.kist.re.kr/handle/201004/113992 BackgroundCRISPR-based screens are revolutionizing drug discovery as tools to identify genes whose ablation induces a phenotype of interest. For instance, CRISPR-Cas9 screening has been successfully used to identify novel therapeutic targets in cancer where disruption of genes leads to decreased viability of malignant cells. However, low-activity guide RNAs may give rise to variable changes in phenotype, preventing easy identification of hits and leading to false negative results. Therefore, correcting the effects of bias due to differences in guide RNA efficiency in CRISPR screening data can improve the efficiency of prioritizing hits for further validation. Here, we developed an approach to identify hits from negative CRISPR screens by correcting the fold changes (FC) in gRNA frequency by the actual, observed frequency of indel mutations generated by gRNA.ResultsEach gRNA was coupled with the "reporter sequence" that can be targeted by the same gRNA so that the frequency of mutations in the reporter sequence can be used as a proxy for the endogenous target gene. The measured gRNA activity was used to correct the FC. We identified indel generation efficiency as the dominant factor contributing significant bias to screening results, and our method significantly removed such bias and was better at identifying essential genes when compared to conventional fold change analysis. We successfully applied our gRNA activity data to previously published gRNA screening data, and identified novel genes whose ablation could synergize with vemurafenib in the A375 melanoma cell line. Our method identified nicotinamide N-methyltransferase, lactate dehydrogenase B, and polypyrimidine tract-binding protein 1 as synergistic targets whose ablation sensitized A375 cells to vemurafenib.ConclusionsWe identified the variations in target cleavage efficiency, even in optimized sgRNA libraries, that pose a strong bias in phenotype and developed an analysis method that corrects phenotype score by the measured differences in the targeting efficiency among sgRNAs. Collectively, we expect that our new analysis method will more accurately identify genes that confer the phenotype of interest. English BioMed Central Efficient prioritization of CRISPR screen hits by accounting for targeting efficiency of guide RNA Article 10.1186/s12915-023-01536-y 1 BMC Biology, v.21, no.1 BMC Biology 21 1 Y scie scopus 000940159200003 2-s2.0-85148964338 Biology Life Sciences & Biomedicine - Other Topics Article ACQUIRED-RESISTANCE CANCER PATHWAY CLASSIFICATION SPECIFICITY VEMURAFENIB IDENTIFY OVERCOME SINGLE CELLS CRISPR-Cas Functional genomics CRISPR screens Melanoma Drug resistance