The Dlk1-Dio3 noncoding RNA cluster coordinately regulates mitochondrial respiration and chromatin structure to establish proper cell state for muscle differentiation.

The coordinate regulation of metabolism and epigenetics to establish cell state-specific gene expression patterns during lineage progression is a central aspect of cell differentiation, but the factors that regulate this elaborate interplay are not well-defined. The imprinted Dlk1-Dio3 noncoding RNA (ncRNA) cluster has been associated with metabolism in various progenitor cells, suggesting it functions as a regulator of metabolism and cell state. Here, we directly demonstrate that the Dlk1-Dio3 ncRNA cluster coordinates mitochondrial respiration and chromatin structure to maintain proper cell state. Stable mouse muscle cell lines were generated harboring two distinct deletions in the proximal promoter region, resulting in either greatly upregulated or downregulated expression of the entire Dlk1-Dio3 ncRNA cluster. Both mutant lines displayed impaired muscle differentiation along with dysregulated structural gene expression and abnormalities in mitochondrial respiration. Genome-wide chromatin accessibility and histone methylation patterns were also severely affected in these mutants. Our results strongly suggest that muscle cells are sensitive to Dlk1-Dio3 ncRNA dosage, and that the cluster coordinately regulates metabolic activity and the epigenome to maintain proper cell state in the myogenic lineage.
Competing Interests: Competing interests The authors declare no competing or financial interests.
(© 2024. Published by The Company of Biologists Ltd.)