NMD 和 TRP53 之间的上位性相互作用控制祖细胞的维持和大脑的大小。

Epistatic interactions between NMD and TRP53 control progenitor cell maintenance and brain size.

机构信息

Division of Biomedical Sciences, School of Medicine, University of California, Riverside, Riverside, CA 92521, USA; Center for RNA Biology and Medicine, University of California, Riverside, Riverside, CA 92521, USA.

Division of Biomedical Sciences, School of Medicine, University of California, Riverside, Riverside, CA 92521, USA.

出版信息

Neuron. 2024 Jul 3;112(13):2157-2176.e12. doi: 10.1016/j.neuron.2024.04.006. Epub 2024 May 1.

DOI:10.1016/j.neuron.2024.04.006

PMID:38697111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11446168/

Abstract

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.

摘要

人类无义介导的 mRNA 降解 (NMD) 因子的突变在神经发育障碍中富集。我们表明，在小鼠胚胎神经祖细胞中删除关键的 NMD 因子 Upf2 会导致围产期小头症，但在不成熟神经元中删除不会，这表明 NMD 在祖细胞中具有关键作用。Upf2 敲除 (KO) 延长了放射状胶质祖细胞的细胞周期，促进其向中间祖细胞转化，并导致上皮层神经元减少。CRISPRi 筛选发现，Trp53 敲低可挽救 Upf2KO 祖细胞，而不会全局逆转 NMD 抑制，这表明大多数 NMD 靶标对细胞周期缺陷的贡献微不足道。整合功能基因组学表明，NMD 降解选择性的 TRP53 下游靶标，包括 Cdkn1a，而没有 NMD 抑制，会减缓细胞周期。Trp53KO 恢复祖细胞池并挽救 Upf2KO 小鼠的小头症。因此，NMD 在发育中的大脑中的一个生理作用是降解选择性的 TRP53 靶标，以控制祖细胞周期和大脑大小。

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