TY - JOUR T1 - Spatiotemporal patterns of neuronal subtype genesis suggest hierarchical development of retinal diversity JF - bioRxiv DO - 10.1101/2021.04.29.442012 SP - 2021.04.29.442012 AU - Emma R. West AU - Sylvain W. Lapan AU - ChangHee Lee AU - Kathrin M. Kajderowicz AU - Xihao Li AU - Connie L. Cepko Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/04/30/2021.04.29.442012.abstract N2 - How do neuronal subtypes emerge during development? Recent molecular studies have expanded our knowledge of existing neuronal diversity. However, the genesis of neuronal subtypes remains elusive and previous studies have been limited by a lack of quantitative methods for simultaneous detection of subtype diversity in situ. The bipolar interneurons of the mammalian retina represent a diverse neuronal class, characterized by distinct functions, morphologies, and recently discovered transcriptional profiles. Here, we developed a comprehensive spatiotemporal map of bipolar subtype genesis in the retina. Combining multiplexed detection of 16 RNA markers with timed delivery of EdU and BrdU, we analyzed more than 30,000 single cells in full retinal sections to classify all bipolar subtypes and their birthdates. We found that bipolar subtype birthdates are ordered and follow a centrifugal developmental axis. Spatial analysis revealed a striking oscillatory wave pattern of bipolar subtype birthdates, and lineage analyses suggest clonal restriction on homotypic subtype production. These results inspired a hierarchical model of neuronal subtype genesis in the mammalian retina, with the wave pattern of subtype birthdates arising from early asymmetric cell divisions among founding retinal progenitor cells. Our results provide an outline of the developmental logic that generates diverse neuronal subtypes, and establishes a framework for studying subtype diversification.Competing Interest StatementThe authors have declared no competing interest. ER -