Loss of symmetric cell division of apical neural progenitors drives DENND5A-related developmental and epileptic encephalopathy

Heidi Lynn Cope; Emily Banks; Vincent Francis; Sheng-Jia Lin; Fares Kharfallah; Vladimir Fonov; Maxime Levesque; Chanshuai Han; Gopinath Kulasekaran; Marius Tuznik; Armin Bayati; Reem Al-Khater; Fowzan S Alkuraya; Loukas Argyriou; Meisam Babaei; Melanie Bahlo; Behnoosh Bakhshoodeh; Eileen Barr; Lauren Bartik; Mahmoud Bassiony; Miriam Bertrand; Dominique Braun; Rebecca Buchert; Mauro Budetta; Maxime Cadieux-Dion; Daniel G Calame; Heidi Cope; Donna Cushing; Stephanie Efthymiou; Marwa Abd Elmaksoud; Huda G El Said; Tawfiq Froukh; Harinder K Gill; Joseph G Gleeson; Laura Gogoll; Elaine S-Y Goh; Vykuntaraju K Gowda; Tobias B Haack; Mais O Hashem; Stefan Hauser; Trevor L Hoffman; Jacob S Hogue; Akimoto Hosokawa; Henry Houlden; Kevin Huang; Stephanie Huynh; Ehsan G. Karimiani; Silke Kaulfuß; Georg Christoph Korenke; Amy Kritzer; Hane Lee; James R. Lupski; Elysa Marco; Kirsty McWalter; Arakel Minassian; Berge Minassian; David Murphy; Juanita Neira-Fresneda; Hope Northrup; Denis Nyaga; Barbara Oehl-Jaschkowitz; Matthew Osmond; Richard Person; Davut Pehlivan; Cassidy Petree; Lynette Sadleir; Carol Saunders; Ludger Schoels; Vandana Shashi; Rebecca Spillmann; Varunvenkat M. Srinivasan; Paria N. Torbati; Tulay Tos; Maha S. Zaki; Dihong Zhou; Christiane Zweier; Jean-Francois Trempe; Thomas M. Durcan; Ziv Gan-Or; Massimo Avoli; Cesar Alves; Gaurav K. Varshney; Reza Maroofian; David Rudko; Peter S. McPherson

Loss of symmetric cell division of apical neural progenitors drives DENND5A-related developmental and epileptic encephalopathy

Lupski, J. R., Marco, E., McWalter, K., Minassian, A., Minassian, B., Murphy, D., Neira-Fresneda, J., Northrup, H., Nyaga, D., Oehl-Jaschkowitz, B., Osmond, M., Person, R., Pehlivan, D., Petree, C., Sadleir, L., Saunders, C., Schoels, L., Shashi, V., Spillmann, R., ... McPherson, P. S. (2024). Loss of symmetric cell division of apical neural progenitors drives DENND5A-related developmental and epileptic encephalopathy. Nature Communications, 15(1), 7239. https://doi.org/10.1038/s41467-024-51310-z

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Abstract

Developmental and epileptic encephalopathies (DEEs) feature altered brain development, developmental delay and seizures, with seizures exacerbating developmental delay. Here we identify a cohort with biallelic variants in DENND5A, encoding a membrane trafficking protein, and develop animal models with phenotypes like the human syndrome. We demonstrate that DENND5A interacts with Pals1/MUPP1, components of the Crumbs apical polarity complex required for symmetrical division of neural progenitor cells. Human induced pluripotent stem cells lacking DENND5A fail to undergo symmetric cell division with an inherent propensity to differentiate into neurons. These phenotypes result from misalignment of the mitotic spindle in apical neural progenitors. Cells lacking DENND5A orient away from the proliferative apical domain surrounding the ventricles, biasing daughter cells towards a more fate-committed state, ultimately shortening the period of neurogenesis. This study provides a mechanism for DENND5A-related DEE that may be generalizable to other developmental conditions and provides variant-specific clinical information for physicians and families.