Scientists develop a game-changing organoid model to study human cerebellar development and disease

"The reproducible co-development and maturation of the main cell types of the developing cerebellum in a human organoid model provide a new way to explore the underlying biology of cerebellar development and disorders and advance therapeutic interventions," explained Quadrato, an assistant professor in the Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at the Keck School of Medicine of USC.

The cerebellum controls movement and plays important roles in cognitive functions, including language, spatial processing, working memory, executive functions, and emotional processing.

Degeneration of Purkinje cells is associated with various neurodevelopmental and neurodegenerative disorders, including autism spectrum disorder and cerebellar ataxia, a condition that affects muscle movement.

Other neurons within the organoids -- both excitatory neurons that share information, and inhibitory neurons that inhibit the sharing of information -- formed circuits and showed coordinated network activity, demonstrating that they were also functional nerve cells. In addition, organoids formed human-specific progenitor cells, which are associated with medulloblastoma, the most prevalent metastatic brain tumor in children. This makes the organoids a potentially useful model for studying and finding treatments for this pediatric cancer.

Given the right external cues, the organoids could also be coaxed into forming anatomical features such as layers, mirroring normal embryonic brain development.

The organoid model creates a platform for discovering new treatments for variety of diseases.

"This study provides a physiologically relevant, all-human model system to elucidate the cell type-specific mechanisms governing cerebellar development and disease," said Alexander Atamian, a PhD candidate in the Quadrato Lab and first author of the Cell Stem Cell study.

Additional co-authors are Macella Birtele, Negar Hosseini, Tuan Nguyen, Anoothi Seth, Ashley Del Dosso, and Marcelo P. Coba from USC; Sandeep Paul, Neil Tedeschi, and Ryan Taylor from Spatial Genomics; Ranmal Samarasinghe from UCLA; and Carlos Lois from the California Institute of Technology.

This project was funded by the Robert E. and May R. Wright Foundation, The Eli and Edythe Broad Foundation, and the Edward Mallinckdot, Jr. Foundation.