CRISPR/Cas9 screen for genome-wide interrogation of essential MYC binding sites in cancer cells

The transcription factor MYC is a proto-oncogene with a well-documented essential role in the pathogenesis and maintenance of several types of cancer. MYC binds to specific E-box sequences in the genome to regulate gene expression in a cell type- and developmental stage-specific manner. To date, a comprehensive analysis of direct MYC targets with essential roles in different types of cancer is missing. To enable identification of functional MYC binding sites and corresponding target genes, we designed a CRISPR/Cas9 library to destroy E-box sequences in a genome-wide fashion. In parallel, we used the Brunello library to knockout protein-coding genes. We performed high-throughput screens with these libraries in four MYC-dependent cancer cell lines: K562, ST486, HepG2 and MCF7, which revealed several essential E-boxes and genes. Among them we pinpointed crucial known and novel MYC-regulated genes involved in pathways associated with cancer development. Extensive validation of our approach in K562 cells confirmed that E-box disruption affects MYC binding, target genes expression and cell proliferation. Our unique, well-validated tool opens new possibilities to gain novel insights into MYC-dependent vulnerabilities in cancer cells.