The Dysregulation of the - Locus in Islets From Patients With Type 2 Diabetes Is Mimicked by Targeted Epimutation of Its Promoter With TALE-DNMT Constructs.

Type 2 diabetes mellitus (T2DM) is characterized by the inability of the insulin-producing β-cells to overcome insulin resistance. We previously identified an imprinted region on chromosome 14, the - locus, as being downregulated in islets from humans with T2DM. In this study, using targeted epigenetic modifiers, we prove that increased methylation at the promoter of in mouse βTC6 β-cells results in decreased transcription of the maternal transcripts associated with this locus. As a result, the sensitivity of β-cells to cytokine-mediated oxidative stress was increased. Additionally, we demonstrate that an evolutionarily conserved intronic region at the locus can function as an enhancer in βTC6 β-cells. Using circular chromosome conformation capture followed by high-throughput sequencing, we demonstrate that the promoter of physically interacts with this novel enhancer and other putative regulatory elements in this imprinted region in human islets. Remarkably, this enhancer is bound in an allele-specific manner by the transcription factors FOXA2, PDX1, and NKX2.2. Overall, these data suggest that the intronic enhancer plays an important role in the regulation of allele-specific expression at the imprinted locus in human β-cells, which in turn impacts the sensitivity of β-cells to cytokine-mediated oxidative stress.