ABSTRACT: Retinal ganglion cells (RGCs) are the projection neurons of the retina. In early retinal progenitor cells (RPCs), Atoh7 orchestrates the developmental RGC program and regulates the expression of critical downstream targets, including Pou4f factors. The absence of Pou4f2 or more POU4F family genes results in defects in RGC differentiation, aberrant axonal elaboration and ultimately RGC death, confirming the requirement of POU4F factors for RGC development and survival, with a critical role in regulating RGC axon outgrowth and pathfinding. Here, we investigated in vivo whether ectopic Pou4f2 expression in late retinal progenitor cells (late RPCs) is sufficient to induce the generation of cells with RGC properties, including projecting axons to the brain. Using a strong ubiquitous promoter to induce Pou4f2 overexpression in neonates, we observed a change in targeted cell distribution in the retinal tissue, including the presence of cells in the ganglion cell layer and inner plexiform layer. Single-cell RNA sequencing (scRNA-seq) analysis shows that several RGC-genes (Rbpms, Gap-43, Hs6st3, and Foxp2) are upregulated after Pou4f2 overexpression. Additionally, gene ontology analysis indicates the induction of genes related to axonogenesis and neuronal differentiation. Imaging throughout the visual pathway revealed high density of axons projecting toward the optic nerve head and extending to brain, such as the superior colliculus and geniculate nucleus. Thus, Pou4f2 induced neurons with specific RGC characteristics that share similarities with resident RGCs and notably project axons that reach brain targets. In conclusion, these results showed that POU4F2 alone was sufficient to promote aspects of RGC development and axon projection, inducing critical properties of projection neurons from retinal progenitors outside their developmental window.