A versatile reporter system for multiplexed screening of effective epigenome editors.

The formation and function of highly specialized cells and tissues in a multicellular organism from a single genome are enabled through differential spatiotemporal access to the information contained in the genomic DNA. The epigenome plays an essential role in how DNA information can be accessed, and in the last decade the link between epigenetic aberrations and pathologies has become increasingly clear. Methods to precisely modify the epigenome are hence attracting interest as potential novel therapeutics. We recently described a platform, designer epigenome modifier (DEM), capable of precisely editing the epigenome of a cell to control the expression of selected genes. Here, we provide a detailed protocol to streamline the process of identifying DEMs that efficiently and selectively bind to their intended target site and inactivate expression of the target gene. Further, we describe the procedure to simultaneously regulate the expression of up to three genes in a multiplexed fashion. The protocol is divided into four stages that guide the user through the generation of the multicolor reporter cell line and its use for selecting functional DEMs. The duration of the whole procedure described varies from ~6 weeks when using a single reporter up to 13 weeks for fine-tuning the multiplex epigenome editing abilities of selected DEMs using three reporters. Given the great interest in epigenome editing in various fields of biomedical research, this protocol will help scientists to explore these novel technologies for their research. The authors describe a platform to screen arrays of designer epigenome modifiers (DEMs) targeting up to three genes of interest using a multicolor reporter cell line to determine combinations producing the most efficient epigenome editing.