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A genome-scale CRISPR Cas9 dropout screen identifies synthetically lethal targets in SRC-3 inhibited cancer cells

Yosi Gilad, Yossi Eliaz, Yang Yu, Adam Dean, Sang Jun Han, Li Qin, Bert W. O’Malley, David M. Lonard

2021Communications Biology19 citationsDOIOpen Access PDF

Abstract

Steroid receptor coactivator 3 (SRC-3/NCoA3/AIB1), is a key regulator of gene transcription and it plays a central role in breast cancer (BC) tumorigenesis, making it a potential therapeutic target. Beyond its function as an important regulator of estrogen receptor transcriptional activity, SRC-3 also functions as a coactivator for a wide range of other transcription factors, suggesting SRC-3 inhibition can be beneficial in hormone-independent cancers as well. The recent discovery of a potent SRC-3 small molecule inhibitor, SI-2, enabled the further development of additional related compounds. SI-12 is an improved version of SI-2 that like SI-2 has anti-proliferative activity in various cancer types, including BC. Here, we sought to identify gene targets, that when inhibited in the presence of SI-12, would lead to enhanced BC cell cytotoxicity. We performed a genome-scale CRISPR-Cas9 screen in MCF-7 BC cells under conditions of pharmacological pressure with SI-12. A parallel screen was performed with an ER inhibitor, fulvestrant, to shed light on both common and distinct activities between SRC-3 and ERα inhibition. Bearing in mind the key role of SRC-3 in tumorigenesis of other types of cancer, we extended our study by validating potential hits identified from the MCF-7 screen in other cancer cell lines.

Topics & Concepts

CoactivatorNuclear receptor coactivator 3CarcinogenesisBiologyCancer researchRegulatorProto-oncogene tyrosine-protein kinase SrcCancer cellTranscription factorCell biologyCancerComputational biologyGeneGeneticsSignal transductionGenomics and Chromatin DynamicsEstrogen and related hormone effectsCRISPR and Genetic Engineering
A genome-scale CRISPR Cas9 dropout screen identifies synthetically lethal targets in SRC-3 inhibited cancer cells | Litcius