AI Article Synopsis

  • Human brains take a long time to grow and develop compared to most animals.
  • Scientists found that the slow development of brain cells in humans is controlled by a special "timer" inside the cells, but they’re not sure exactly how it works yet.
  • They discovered that certain chemical changes in cells help set this slow growth pattern, and by changing these chemicals, they could make brain cells mature faster than usual.

Article Abstract

The pace of human brain development is highly protracted compared with most other species. The maturation of cortical neurons is particularly slow, taking months to years to develop adult functions. Remarkably, such protracted timing is retained in cortical neurons derived from human pluripotent stem cells (hPSCs) during in vitro differentiation or upon transplantation into the mouse brain. Those findings suggest the presence of a cell-intrinsic clock setting the pace of neuronal maturation, although the molecular nature of this clock remains unknown. Here we identify an epigenetic developmental programme that sets the timing of human neuronal maturation. First, we developed a hPSC-based approach to synchronize the birth of cortical neurons in vitro which enabled us to define an atlas of morphological, functional and molecular maturation. We observed a slow unfolding of maturation programmes, limited by the retention of specific epigenetic factors. Loss of function of several of those factors in cortical neurons enables precocious maturation. Transient inhibition of EZH2, EHMT1 and EHMT2 or DOT1L, at progenitor stage primes newly born neurons to rapidly acquire mature properties upon differentiation. Thus our findings reveal that the rate at which human neurons mature is set well before neurogenesis through the establishment of an epigenetic barrier in progenitor cells. Mechanistically, this barrier holds transcriptional maturation programmes in a poised state that is gradually released to ensure the prolonged timeline of human cortical neuron maturation.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10881400PMC
http://dx.doi.org/10.1038/s41586-023-06984-8DOI Listing

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