富含丝氨酸和精氨酸的剪接因子3促进静止小鼠神经干细胞的活化

Stem cells and development Pub Date : 2024-02-01 Epub Date: 2024-01-18 DOI:10.1089/scd.2023.0172
Guangming Wang, Jie Ren, Xinhao Zeng, Xu Chen, Aibin Liang, Xianli Wang, Jun Xu
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引用次数: 0

摘要

成体干细胞的静止和活化受多种分子机制的调控,RNA替代剪接参与调控多种细胞过程。然而,干细胞的静止和活化调控与基因替代剪接之间的关系还有待研究。本研究旨在阐明 RNA 替代剪接对干细胞静止和活化的调控。我们收集了激活的小鼠神经干细胞(NSCs)、肌肉干细胞(MuSCs)和造血干细胞(HSCs)中的上调基因,进行了GO(基因本体)和KEGG(京都基因和基因组百科全书)分析。对三种组织干细胞的基因进行了维恩分析。小鼠 NSCs 用于静止和再激活诱导。对细胞特异性标记物进行免疫染色以确定细胞特性。反转录聚合酶链反应(RT-PCR)和免疫印迹法分别用于检测基因表达和蛋白质表达。我们发现,三种组织活化干细胞中的上调基因都富集在RNA剪接相关的生物学过程中;活化干细胞中RNA剪接相关基因的上调表现出组织差异;在体外成功诱导小鼠NSCs进入静止期和再活化期而不丧失分化潜能;丝氨酸和精氨酸丰富的剪接因子3(Srsf3)在活化的小鼠NSCs中高表达,SRSF3蛋白的过表达促进了静止期小鼠NSCs的活化并增加了神经细胞的生成。我们的数据表明,替代剪接变化可能是干细胞静止和活化转换的关键。对剪接因子的操作可能通过促进静止干细胞的活化而有利于组织修复。
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Serine and Arginine-Rich Splicing Factor 3 Promotes the Activation of Quiescent Mouse Neural Stem Cells.

The quiescence and activation of adult stem cells are regulated by many kinds of molecular mechanisms, and RNA alternative splicing participates in regulating many cellular processes. However, the relationship between stem cell quiescence and activation regulation and gene alternative splicing has yet to be studied. In this study, we aimed to elucidate the regulation of stem cell quiescence and activation by RNA alternative splicing. The upregulated genes in activated mouse neural stem cells (NSCs), muscle stem cells, and hematopoietic stem cells were collected for Gene Ontology and Kyoto Encyclopedia of Genes and Genomes analysis. The genes from three tissue stem cells underwent Venn analysis. The mouse NSCs were used for quiescence and reactivation induction. The immunostaining of cell-specific markers was performed to identify cell properties. The reverse transcription-polymerase chain reaction and western blotting were used to detect the gene expression and protein expression, respectively. We found that the upregulated genes in activated stem cells from three tissues were all enriched in RNA splicing-related biological processes; the upregulated RNA splicing-related genes in activated stem cells displayed tissue differences; mouse NSCs were successfully induced into quiescence and reactivation in vitro without losing differentiation potential; serine and arginine-rich splicing factor 3 (Srsf3) was highly expressed in the activated mouse NSCs, and the overexpression of SRSF3 protein promoted the activation of quiescent mouse NSCs and increased the neural cell production. Our data indicate that the alternative splicing change may underline the transition of quiescence and activation of stem cells. The manipulation of the splicing factor may benefit tissue repair by promoting the activation of quiescent stem cells.

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