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源自经历坏死性凋亡的神经干细胞的外泌体,在脊髓损伤后通过诱导受体细胞的结节性硬化症复合物2(TSC2)上调来参与细胞通讯。

Exosomes originating from neural stem cells undergoing necroptosis participate in cellular communication by inducing TSC2 upregulation of recipient cells following spinal cord injury.

作者信息

Li Shiming, Li Jianfeng, Chen Guoliang, Lin Tao, Zhang Penghui, Tong Kuileung, Chen Ningning, Liu Shaoyu

机构信息

Shenzhen Key Laboratory of Bone Tissue Repair and Translational Research, Department of Orthopedic Surgery, The Seventh Affiliated Hospital, Sun Yat-sen University, Shenzhen, Guangdong Province, China.

Department of Orthopedic Surgery, The First Affiliated Hospital of Jinan University, Guangzhou, Guangdong Province, China.

出版信息

Neural Regen Res. 2025 Nov 1;20(11):3273-3286. doi: 10.4103/NRR.NRR-D-24-00068. Epub 2024 Jul 10.

DOI:10.4103/NRR.NRR-D-24-00068
PMID:38993124
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11881710/
Abstract

JOURNAL/nrgr/04.03/01300535-202511000-00030/figure1/v/2024-12-20T164640Z/r/image-tiff We previously demonstrated that inhibiting neural stem cells necroptosis enhances functional recovery after spinal cord injury. While exosomes are recognized as playing a pivotal role in neural stem cells exocrine function, their precise function in spinal cord injury remains unclear. To investigate the role of exosomes generated following neural stem cells necroptosis after spinal cord injury, we conducted single-cell RNA sequencing and validated that neural stem cells originate from ependymal cells and undergo necroptosis in response to spinal cord injury. Subsequently, we established an in vitro necroptosis model using neural stem cells isolated from embryonic mice aged 16-17 days and extracted exosomes. The results showed that necroptosis did not significantly impact the fundamental characteristics or number of exosomes. Transcriptome sequencing of exosomes in necroptosis group identified 108 differentially expressed messenger RNAs, 104 long non-coding RNAs, 720 circular RNAs, and 14 microRNAs compared with the control group. Construction of a competing endogenous RNA network identified the following hub genes: tuberous sclerosis 2 ( Tsc2 ), solute carrier family 16 member 3 ( Slc16a3 ), and forkhead box protein P1 ( Foxp1 ). Notably, a significant elevation in TSC2 expression was observed in spinal cord tissues following spinal cord injury. TSC2-positive cells were localized around SRY-box transcription factor 2-positive cells within the injury zone. Furthermore, in vitro analysis revealed increased TSC2 expression in exosomal receptor cells compared with other cells. Further assessment of cellular communication following spinal cord injury showed that Tsc2 was involved in ependymal cellular communication at 1 and 3 days post-injury through the epidermal growth factor and midkine signaling pathways. In addition, Slc16a3 participated in cellular communication in ependymal cells at 7 days post-injury via the vascular endothelial growth factor and macrophage migration inhibitory factor signaling pathways. Collectively, these findings confirm that exosomes derived from neural stem cells undergoing necroptosis play an important role in cellular communication after spinal cord injury and induce TSC2 upregulation in recipient cells.

摘要

《期刊》/nrgr/04.03/01300535 - 202511000 - 00030/图1/v/2024 - 12 - 20T164640Z/图像 - tiff格式 我们之前证明,抑制神经干细胞坏死性凋亡可增强脊髓损伤后的功能恢复。虽然外泌体被认为在神经干细胞外分泌功能中起关键作用,但其在脊髓损伤中的精确功能仍不清楚。为了研究脊髓损伤后神经干细胞坏死性凋亡产生的外泌体的作用,我们进行了单细胞RNA测序,并验证神经干细胞起源于室管膜细胞,且在脊髓损伤后会发生坏死性凋亡。随后,我们使用从16 - 17日龄胚胎小鼠分离的神经干细胞建立了体外坏死性凋亡模型并提取外泌体。结果表明,坏死性凋亡对外泌体的基本特征或数量没有显著影响。与对照组相比,坏死性凋亡组外泌体的转录组测序鉴定出108个差异表达的信使RNA、104个长链非编码RNA、720个环状RNA和14个微小RNA。竞争性内源性RNA网络的构建确定了以下关键基因:结节性硬化症2(Tsc2)、溶质载体家族16成员3(Slc16a3)和叉头框蛋白P1(Foxp1)。值得注意的是,脊髓损伤后脊髓组织中TSC2表达显著升高。TSC2阳性细胞定位于损伤区内SRY盒转录因子2阳性细胞周围。此外,体外分析显示,与其他细胞相比,外泌体受体细胞中TSC2表达增加。对脊髓损伤后细胞通讯的进一步评估表明,Tsc2在损伤后1天和3天通过表皮生长因子和中期因子信号通路参与室管膜细胞通讯。此外,Slc16a3在损伤后7天通过血管内皮生长因子和巨噬细胞迁移抑制因子信号通路参与室管膜细胞的通讯。总的来说,这些发现证实,源自经历坏死性凋亡的神经干细胞的外泌体在脊髓损伤后的细胞通讯中起重要作用,并诱导受体细胞中TSC2上调。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/e3e3e818dcd0/NRR-20-3273-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/7f026b755c7c/NRR-20-3273-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/3e7b439e4207/NRR-20-3273-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/54d3c0e788e8/NRR-20-3273-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/336b0484c7fa/NRR-20-3273-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/4ce162041dbf/NRR-20-3273-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/e3e3e818dcd0/NRR-20-3273-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/7f026b755c7c/NRR-20-3273-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/3e7b439e4207/NRR-20-3273-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/54d3c0e788e8/NRR-20-3273-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/336b0484c7fa/NRR-20-3273-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/4ce162041dbf/NRR-20-3273-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd26/11881710/e3e3e818dcd0/NRR-20-3273-g007.jpg

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Extracellular vesicles released by transforming growth factor-beta 1-preconditional mesenchymal stem cells promote recovery in mice with spinal cord injury.由转化生长因子-β1预处理的间充质干细胞释放的细胞外囊泡促进脊髓损伤小鼠的恢复。
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