Pou3f1 orchestrates a gene regulatory network controlling contralateral retinogeniculate projections

Abstract

AbstractThe balance of contralateral and ipsilateral retinogeniculate projections is critical for the establishment of binocular vision, but the transcriptional programs regulating this process remain ill-defined. In this study, we show that the Pou class homeobox protein POU3F1 is selectively expressed in developing mouse contralateral retinal ganglion cells (cRGCs). Inactivation of Pou3f1 increases the number of ipsilateral RGCs produced, leading to abnormal ipsilateral to contralateral projection ratio at the optic chiasm, whereas expression of Pou3f1 in retinal progenitors increases the production of cRGCs. Using Cut&Run and RNA sequencing in wildtype and Pou3f1 mouse knockout retinas, we demonstrate that Pou3f1 is necessary for the establishment of a cRGC gene regulatory network through activation and repression of several known contralateral and ipsilateral determinants, respectively. Finally, we report that POU3F1 is sufficient to induce production of RGC-like cells sending projections to the optic nerve, even in late-stage retinal progenitors not normally competent to generate RGCs. This work uncovers POU3F1 as a master regulator of the cRGC transcriptional program and opens new possibilities for optic nerve regenerative therapies.