Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.05.18.102855v1?rss=1 Authors: Wu, J. P. H., Yeung, J., Wu, S.-R., Zoghbi, H. Y., Goldowitz, D. Abstract: Pou3f1 is a transcription factor involved in early neural differentiation. Cap Analysis Gene Expression (5'-CAGE) analysis reveals that Pou3f1 transcript is highly enriched in the developing cerebellum. Between embryonic (E) days E10.5 and E12.5, Pou3f1 expression is present prominently along the subpial stream (SS), suggesting that Pou3f1+ cells are glutamatergic cerebellar nuclear (CN) neurons. This finding was confirmed by immunofluorescent (IF) co-labeling of Pou3f1 and Atoh1, the master regulator of cells from the rhombic lip (RL) that are destined for neurons of the glutamatergic lineage, as well as in Atoh1-null tissues, in which Pou3f1 expression is absent. Interestingly, the expression of Pax6, another key molecule for CN neuron survival, does not co-localize with that of Pou3f1. In the Pax6-null Small Eye (Sey) mutant, which is characterized by a loss of many glutamatergic CN neurons, Pou3f1+ CN neurons are still present. Furthermore, Pou3f1-labeled cells do not co-express Tbr1, a well-established marker of glutamatergic CN neurons. These results highlight that Pou3f1+ cells are a distinct and previously unrecognized subtype of glutamatergic CN neurons that do not have the ''canonical'' sequence of Atoh1[->]Pax6[->]Tbr1 expressions. Instead, they express Atoh1, Pou3f1, and other markers of CN neurons, Brn2 and Irx3. These findings illustrate that glutamatergic CN neurons that arise from the RL are composed of molecularly heterogeneous subpopulations that are determined by at least two distinct transcriptional programs. Copy rights belong to original authors. Visit the link for more info