Quiescent neural stem cells transiently become neuron-like to coordinate long-range reactivation

Abstract Reactivation of quiescent neural stem cells (NSCs) in the central nervous system (CNS) is a tightly controlled process that generates new neurons and glia to maintain homeostasis or enable repair post-injury, but it remains unclear if reactivation of distinct NSC populations is coupled. Here, we discovered that NSC quiescence exit in Drosophila follows a hierarchical sequence, whereby activation of anterior stem cells in the brain lobes precedes and is required for the timely state-tran