Noncoding RNA transcription at enhancers and genome folding in cancer

Changes of nuclear localization of lineage-specific genes from a transcriptionally inert to permissive environment are a crucial step in establishing the identity of a cell. Noncoding RNA transcription-mediated genome folding and activation of target gene expression have been found in a variety of cell types. Noncoding RNA ThymoD (thymocyte differentiation factor) transcription at superenhancers is essential for mouse T-cell lineage commitment. The cessation of ThymoD transcription abolishes transcription-mediated demethylation, recruiting looping factors such as the cohesin complex, CCCTC-binding factor (CTCF), ultimately leading to the phenotype of severe combined immunodeficiency and T-cell leukemia/lymphoma. In this review, we describe the functional role of RNA polymerase II-mediated transcription at enhancers and in genome folding. We also highlight the involvement of faulty activation or suppression of enhancer transcription and enhancer-promoter interaction in cancer development.