Homeodomain-less MEIS1 suppresses CUL3-dependent ATOH1 degradation to regulate cerebellar granule cell development

Abstract

AbstractGranule cell progenitors (GCPs) and granule cells (GCs) in the cerebellum are excellent models for studying the differentiation of neural progenitors into neurons. Although gradual degradation of ATOH1 protein in GCPs leads to their differentiation into GCs, the underlying regulatory mechanism is unclear. We show that a homeodomain-less isoform of MEIS1 (MEIS1-HdL) regulates ATOH1 degradation and GCP differentiation in a transcriptional regulation-independent manner. BMP signaling phosphorylates Ser328 of ATOH1 via ERK. CUL3 was identified as an E3-ligase that polyubiquitinates Ser328 phosphorylated ATOH1, leading to ATOH1 degradation. MEIS1-HdL and full-length MEIS1 form a trimeric complex with CUL3 and COP9 signalosome that inhibits ATOH1 ubiquitination and degradation. MEIS1-HdL is exclusively expressed in GCPs and suppresses ATOH1 degradation and GCP differentiation into GCs, despite high BMP signaling activities in the cells. Our study provides insight into the precise regulatory machinery of the degradation of the pivotal protein ATOH1 and differentiation of neural progenitors.