Targeting pioneer transcription factor Ascl1 to promote optic nerve regeneration

ABSTRACT In adult mammalian central nervous system (CNS) neurons, axon regeneration after injury remains limited due to unfavorable gene regulatory programs. Factors enabling comprehensive epigenetic and transcriptional transitions, for instance, pivotal transcription factors that mediate neurogenesis and morphogenesis may be sufficient to promote CNS axon regeneration. Based on the analyses of multiple public whole-genome RNA and chromatin accessibility sequencing dataset of mouse retina development, as well as previous functional studies on the regeneration-capable dorsal root ganglion neurons, we hypothesize that the overexpression of pioneer transcription factor Achaete-Scute homolog 1 (Ascl1) would promote axon regeneration in the adult mammalian CNS neurons. We employed the optic nerve crush in mice, a common model for studying CNS axon regeneration, neuron survival and glaucoma, to investigate the effect of Ascl1 overexpression on the post-injury optic nerve regeneration. We found that Ascl1 could sufficiently promote regenerated axons past the crush site and significantly preserve the survival of retinal ganglion cells. Mechanistically, we revealed that effects of Ascl1 was mediated by known pro-regeneration factor Sox11 but not others. Together, our study established an effective workflow combined with the integrated computational inference and experimental validation for discovering functionally important target for promoting CNS neuron axon regeneration and survival.