The lab's first paper of the new year is out. In it, we investigate the role of the late stage retinal progenitor-enriched SoxE family factors Sox8 and Sox9 in controlling retinal development./1
www.biorxiv.org/content/10.6...
www.biorxiv.org
Temporal patterning of retinal progenitor cells governs the sequential generation of retinal cell types, with gliogenesis occurring late in development. Sox8 and Sox9, members of the SoxE transcription factor family, are highly expressed in late-stage retinal progenitor cells and mature Müller glia, yet their functional roles remain incompletely defined. Here we employed gain- and loss-of-function approaches, single-cell multiomic profiling, and injury models to investigate Sox8/9 function. Overexpression of SOX8 and/or SOX9 in early-stage retinal progenitor cells suppressed early-born cell fates and promoted photoreceptor generation, consistent with a role in late-stage temporal identity. Conversely, conditional deletion of Sox8 and/or Sox9 in late-stage progenitors did not impair Müller glia specification, but caused radial displacement of Müller glia nuclei into the outer retina and modest changes in glial gene expression. Loss of Sox8/9 in mature Müller glia modestly increased proliferation post-injury without inducing neurogenic competence. These findings suggest that Sox8/9 are dispensable for gliogenesis and repression of neurogenic competence, but are essential for proper laminar positioning and maturation of retinal Müller glia. ### Competing Interest Statement S.B. is a cofounder, shareholder, and scientific advisory board member of CDI Labs LLC, and receives research support from Genentech. National Eye Institute, https://ror.org/03wkg3b53, R01EY036173
