- Lin, Lin;
- Zhao, Jingrong;
- Kubota, Naoto;
- Li, Zhelin;
- Lam, Yi-Li;
- Nguyen, Lauren P;
- Yang, Lu;
- Pokharel, Sheela P;
- Blue, Steven M;
- Yee, Brian A;
- Chen, Renee;
- Yeo, Gene W;
- Chen, Chun-Wei;
- Chen, Liang;
- Zheng, Sika
Mutations in human nonsense-mediated mRNA decay (NMD) factors are enriched in neurodevelopmental disorders. We show that deletion of key NMD factor Upf2 in mouse embryonic neural progenitor cells causes perinatal microcephaly but deletion in immature neurons does not, indicating NMD's critical roles in progenitors. Upf2 knockout (KO) prolongs the cell cycle of radial glia progenitor cells, promotes their transition into intermediate progenitors, and leads to reduced upper-layer neurons. CRISPRi screening identified Trp53 knockdown rescuing Upf2KO progenitors without globally reversing NMD inhibition, implying marginal contributions of most NMD targets to the cell cycle defect. Integrated functional genomics shows that NMD degrades selective TRP53 downstream targets, including Cdkn1a, which, without NMD suppression, slow the cell cycle. Trp53KO restores the progenitor cell pool and rescues the microcephaly of Upf2KO mice. Therefore, one physiological role of NMD in the developing brain is to degrade selective TRP53 targets to control progenitor cell cycle and brain size.