Survival and process outgrowth of human iPSC-derived cells expressing Purkinje cell markers in a mouse model for spinocerebellar degenerative disease

Purkinje cells are the sole output neurons of the cerebellar cortex and play central roles in the integration of cerebellum-related motor coordination and memory. The loss or dysfunction of Purkinje cells due to cerebellar atrophy leads to severe ataxia. Here we used in vivo transplantation to examine the function of human iPS cell-derived cerebellar progenitors in adult transgenic mice in which Purkinje-specific cell death occurs due to cytotoxicity of polyglutamines. Transplantation using cerebellar organoids (42–48 days in culture), which are rich in neural progenitors, showed a viability of >50% 4 weeks after transplantation. STEM121+ grafted cells extended their processes toward the deep cerebellar nuclei, superior cerebellar peduncle, and vestibulocerebellar nuclei. The transplanted cells were mostly located in the white matter, and they were not found in the Purkinje cell layer. MAP2-positive fibers seen in the molecular layer of cerebellar cortex received VGluT2 inputs from climbing fibers. Transplanted neural progenitors overgrew in the host cerebellum but were suppressed by pretreatment with the γ-secretase inhibitor DAPT. Hyperproliferation was also suppressed by transplantation with more differentiated organoids (86 days in culture) or KIRREL2-positive cells purified by FACS sorting. Transplanted cells expressed Purkinje cell markers, GABA, CALB1 and L7, though they did not show fan-shaped morphology. We attempted to improve neuronal integration of stem cell-derived cerebellar progenitors by transplantation into the adult mouse, but this was not successfully achieved. Our findings in the present study contribute to regenerative medical application for cerebellar degeneration and provide new insights into cerebellar development in future. [Display omitted] •iPS cell-derived cerebellar cells are grafted into Purkinje cell-degenerative mice.•Grafted cells express Purkinje cell markers and extend processes in host cerebellum.•Differentiated organoid, KIRREL2+ cell sorting and DAPT suppress hyperproliferation.