Significance MYC is a transcriptional regulator that controls much of the coding and noncoding transcriptome. It is also an oncoprotein that functions as a driver in numerous human cancers. The… Click to show full abstract
Significance MYC is a transcriptional regulator that controls much of the coding and noncoding transcriptome. It is also an oncoprotein that functions as a driver in numerous human cancers. The mechanism of this oncogenic activity is not known, but it probably involves specific MYC-regulated target genes. Here we systematically identify and characterize MYC-regulated, long noncoding RNAs (lncRNAs) that are required for MYC-driven cellular proliferation in human lymphoid cells. We use targeted transcriptional repression, adding new tools to this technology that will facilitate the functional analysis of any transcriptional regulator. MYC controls the transcription of large numbers of long noncoding RNAs (lncRNAs). Since MYC is a ubiquitous oncoprotein, some of these lncRNAs probably play a significant role in cancer. We applied CRISPR interference (CRISPRi) to the identification of MYC-regulated lncRNAs that are required for MYC-driven cell proliferation in the P493-6 and RAMOS human lymphoid cell lines. We identified 320 noncoding loci that play positive roles in cell growth. Transcriptional repression of any one of these lncRNAs reduces the proliferative capacity of the cells. Selected hits were validated by RT-qPCR and in CRISPRi competition assays with individual GFP-expressing sgRNA constructs. We also showed binding of MYC to the promoter of two candidate genes by chromatin immunoprecipitation. In the course of our studies, we discovered that the repressor domain SID (SIN3-interacting domain) derived from the MXD1 protein is highly effective in P493-6 and RAMOS cells in terms of the number of guides depleted in library screening and the extent of the induced transcriptional repression. In the cell lines used, SID is superior to the KRAB repressor domain, which serves routinely as a transcriptional repressor domain in CRISPRi. The SID transcriptional repressor domain is effective as a fusion to the MS2 aptamer binding protein MCP, allowing the construction of a doxycycline-regulatable CRISPRi system that allows controlled repression of targeted genes and will facilitate the functional analysis of growth-promoting lncRNAs.
               
Click one of the above tabs to view related content.