DNA methylation is an essential epigenetic mark, strongly associated with gene expression regulation. Aberrant DNA methylation patterns underlie various diseases and efforts to intervene with DNA methylation signatures are of great clinical interest. Technological developments to target writers or erasers of DNA methylation to specific genomic loci by epigenetic editing resulted in successful gene expression modulation, also in in vivo models. Application of epigenetic editing in human health could have a huge impact, but clinical translation is still challenging. Despite successes for a wide variety of genes, not all genes mitotically maintain their (de)methylation signatures after editing, and reprogramming requires further understanding of chromatin context-dependency. In addition, difficulties of current delivery systems and off-target effects are hurdles to be tackled. The present review describes findings towards effective and sustained DNA (de)methylation by epigenetic editing and discusses the need for multi-effector approaches to achieve highly efficient long-lasting reprogramming.
Keywords: CRISPR-dCas9; CpG methylation; DNMT; Epigenetic editing; TALE; Zinc finger.
© 2022. The Author(s), under exclusive license to Springer Nature Switzerland AG.