Resumen de Metabolic regulation of pluripotency and germ cell fate through α‐ketoglutarate
Julia Tischler, Wolfram H Gruhn, John Reid, Edward Allgeyer, Florian Buettner, Carsten Marr, Fabian J. Theis, Benjamin D Simons, Lorenz Wernisch, M. Azim Surani
An intricate link is becoming apparent between metabolism and cellular identities. Here, we explore the basis for such a link in an in vitro model for early mouse embryonic development: from naïve pluripotency to the specification of primordial germ cells (PGCs). Using single‐cell RNA‐seq with statistical modelling and modulation of energy metabolism, we demonstrate a functional role for oxidative mitochondrial metabolism in naïve pluripotency. We link mitochondrial tricarboxylic acid cycle activity to IDH2‐mediated production of alpha‐ketoglutarate and through it, the activity of key epigenetic regulators. Accordingly, this metabolite has a role in the maintenance of naïve pluripotency as well as in PGC differentiation, likely through preserving a particular histone methylation status underlying the transient state of developmental competence for the PGC fate. We reveal a link between energy metabolism and epigenetic control of cell state transitions during a developmental trajectory towards germ cell specification, and establish a paradigm for stabilizing fleeting cellular states through metabolic modulation.
