Mitochondria metabolism sets the species-specific tempo of neuronal development.
Ryohei IwataPierre CasimirEmir ErkolLeïla BoubakarMélanie PlanqueIsabel M Gallego LópezMartyna DitkowskaVaiva GaspariunaiteSofie BeckersDaan RemansKatlijn VintsAnke VandekeereSuresh PoovathingalMatthew BirdIne VlaeminckEline CreemersKeimpe WierdaNikky CorthoutPieter VermeerschSebastien Christian CarpentierKristofer DavieMassimilliano MazzoneNatalia V GounkoStein AertsBart GhesquiereSarah-Maria FendtPierre VanderhaeghenPublished in: Science (New York, N.Y.) (2023)
Neuronal development in the human cerebral cortex is considerably prolonged compared with that of other mammals. We explored whether mitochondria influence the species-specific timing of cortical neuron maturation. By comparing human and mouse cortical neuronal maturation at high temporal and cell resolution, we found a slower mitochondria development in human cortical neurons compared with that in the mouse, together with lower mitochondria metabolic activity, particularly that of oxidative phosphorylation. Stimulation of mitochondria metabolism in human neurons resulted in accelerated development in vitro and in vivo, leading to maturation of cells weeks ahead of time, whereas its inhibition in mouse neurons led to decreased rates of maturation. Mitochondria are thus important regulators of the pace of neuronal development underlying human-specific brain neoteny.