Despite the progress in generating neural tissues from human induced pluripotent stem cells (iPSCs), an organoid model that recapitulates the key features of cerebellar development has not been widely established. Here, we report the generation of a 60-day method for human cerebellar organoids (hCBOs) that is characterized by induction of rhombomere 1 (R1) cellular identity followed by derivation of neuronal and glial cell types of the cerebellum. In contrast to forebrain organoids with multiple neural rosettes and inside-out neuronal migration, hCBOs develop a SOX2+ cerebellar plate on the outermost surface of organoids with outside-in neuronal migration, which is a characteristic hallmark of cerebellar histogenesis.
Sunday, May 18, 2025
Modeling Friedreich's ataxia with Bergmann glia-enriched human cerebellar organoids
Modeling Friedreich's ataxia with Bergmann glia-enriched human cerebellar organoids. Seungmi Ryu, Jason Inman, Hyenjong Hong, Vukasin M Jovanovic, Yeliz Gedik, Yogita Jethmalani, Inae Hur, Ty Voss, Justin Lack, Jack Collins, Pinar Ormanoglu, Anton Simeonov, Carlos A Tristan, Ilyas Singe"รง". bioRxiv 2025.05.16.654315; doi:10.1101/2025.05.16.654315
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