Lineage tracing reveals atoh7 positive and negative retinal ganglion cell populations in the zebrafish retina

PurposeAtoh7 is a transiently expressed developmental transcription factor that gives rise to the seven major retinal cell types. Despite this broad lineage, Atoh7 is only required for retinal ganglion cell (RGC) genesis and survival, even though a significant portion of RGCs are Atoh7 negative based on lineage tracing in mice, suggesting a cell nonautonomous role for Atoh7 in the genesis and survival of all RGCs. Atoh7 function is conserved in zebrafish, yet the full retinal lineage, including the RGC population, has remained unidentified. Therefore, we sought to determine the atoh7 retinal lineage in wild type and atoh7 mutant zebrafish retinas. MethodsWe generated atoh7:iCre transgenic zebrafish and in combination with the established ubi:Switch lineage trace permanently labeled cells that represent the atoh7 lineage. A combination of in vivo live imaging and immunohistochemical techniques were used to validate atoh7:iCre transgene expression and the atoh7 lineage in embryonic, larval, and adult retinas as well as the adult brain. ResultsThe atoh7:iCre;ubi:Switch transgene combination successfully recapitulated the onset of endogenous atoh7 expression and transgene fluorophores persisted into adulthood labeling the atoh7 lineage. Most notably, we determined 79% of total RGCs in the wild type retina come from atoh7+ progenitor cells, a greater number than reported in the mouse retina. In atoh7 mutant retinas, we confirmed a complete loss of RGCs and observed a statistically significant increase in the proportion of atoh7+/Pax6+ amacrine cells, as well as an increase in the total number of Prox1+ bipolar cells. Interestingly, we discovered atoh7+ cells located outside the eye in other areas of the central nervous system. ConclusionsThese data demonstrate the presence of atoh7 positive and negative retinal cell types in the zebrafish retina, including RGCs, highlighting the potential to study survival mechanisms of atoh7 negative RGCs and fate switch paradigms using zebrafish retinal development models.