Microcephaly-associated WDR62 mutations hamper Golgi apparatus-to-spindle pole shuttling in human neural progenitors

Abstract

AbstractWDR62 is a spindle pole-associated scaffold protein with pleiotropic functions during corticogenesis. Recessive mutations in WDR62 are associated with structural brain abnormalities and account for the second most common cause of autosomal recessive primary microcephaly (MCPH), indicating WDR62 as a critical hub for human brain development. Here, we investigated a C-terminal truncating mutation (D955AfsX112) in WDR62 using induced pluripotent stem cells (iPSCs) obtained from a patient with MCPH2. We generated neuroepithelial stem (NES) cells and cerebro-cortical progenitors and neurons from patient-derived and isogenic retro-mutated iPSC lines. We found that WDR62 dysfunction resulted in impaired cell cycle progression and alterations of the neurogenic trajectories of iPSC neuroderivatives. Moreover, we report WDR62 localization at the Golgi apparatus during interphase, both in human neural progenitors in vitro and in human fetal brain tissue. WDR62 shuttling from the Golgi apparatus to spindle poles is dynamic and microtubule-dependent. Impairment of WDR62 function and localization results in severe neurodevelopmental abnormalities, thus delineating new mechanisms in MCPH etiology.