Activation of P2X7R Inhibits Proliferation and Promotes the Migration and Differentiation of Schwann Cells.

IF 4.6 2区医学 Q1 NEUROSCIENCES

Molecular Neurobiology Pub Date : 2025-03-01 Epub Date: 2024-09-03 DOI:10.1007/s12035-024-04460-6

Wenfeng Su, Xiaowen He, Zhihao Lin, Jinghui Xu, Jianghong Shangguan, Zhongya Wei, Yayu Zhao, Lingyan Xing, Yun Gu, Gang Chen

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Abstract

In the vertebrate nervous system, myelination of nerve fibers is crucial for the rapid propagation of action potentials through saltatory conduction. Schwann cells-the main glial cells and myelinating cells of the peripheral nervous system-play a crucial role in myelination. Following injury during the repair of peripheral nerve injuries, a significant amount of ATP is secreted. This ATP release acts to trigger the dedifferentiation of myelinating Schwann cells into repair cells, an essential step for axon regeneration. Subsequently, to restore nerve function, these repair cells undergo redifferentiate into myelinating Schwann cells. Except for P2X4R, purine receptors such as P2X7R also play a significant role in this process. In the current study, decreased expression of P2X7R was observed after sciatic nerve injury, followed by a gradual increase to the normal level of P2X7R expression. In vivo experiments showed that the activation of P2X7R using an agonist injection promoted remyelination, while the antagonists hindered remyelination. Further, in vitro experiments supported these findings and demonstrated that P2X7R activation inhibited the proliferation of Schwann cells, but it promoted the migration and differentiation of the Schwann cells. Remyelination is a prominent feature of the nerve regeneration. In the current study, it was proposed that the manipulation of P2X7R expression in Schwann cells after nerve injury could be effective in facilitating nerve remyelination.

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激活 P2X7R 可抑制许旺细胞增殖并促进其迁移和分化

在脊椎动物的神经系统中，神经纤维的髓鞘化对动作电位通过盐传导快速传播至关重要。许旺细胞是周围神经系统的主要神经胶质细胞和髓鞘化细胞，在髓鞘化过程中发挥着至关重要的作用。在周围神经损伤的修复过程中，损伤后会分泌大量的 ATP。这种 ATP 的释放会触发髓鞘化的许旺细胞向修复细胞的去分化，这是轴突再生的重要步骤。随后，为了恢复神经功能，这些修复细胞会重新分化成髓鞘化的许旺细胞。除 P2X4R 外，P2X7R 等嘌呤受体也在这一过程中发挥重要作用。在本研究中，观察到坐骨神经损伤后 P2X7R 的表达减少，随后 P2X7R 的表达逐渐增加到正常水平。体内实验表明，注射激动剂激活 P2X7R 可促进髓鞘再形成，而拮抗剂则会阻碍髓鞘再形成。此外，体外实验也支持这些发现，并证明 P2X7R 激活抑制了许旺细胞的增殖，但促进了许旺细胞的迁移和分化。再髓鞘化是神经再生的一个显著特征。本研究提出，神经损伤后操纵许旺细胞中 P2X7R 的表达可有效促进神经再髓鞘化。

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来源期刊

Molecular Neurobiology 医学-神经科学

CiteScore

9.00

自引率

2.00%

发文量

480

审稿时长

1 months

期刊介绍： Molecular Neurobiology is an exciting journal for neuroscientists needing to stay in close touch with progress at the forefront of molecular brain research today. It is an especially important periodical for graduate students and "postdocs," specifically designed to synthesize and critically assess research trends for all neuroscientists hoping to stay active at the cutting edge of this dramatically developing area. This journal has proven to be crucial in departmental libraries, serving as essential reading for every committed neuroscientist who is striving to keep abreast of all rapid developments in a forefront field. Most recent significant advances in experimental and clinical neuroscience have been occurring at the molecular level. Until now, there has been no journal devoted to looking closely at this fragmented literature in a critical, coherent fashion. Each submission is thoroughly analyzed by scientists and clinicians internationally renowned for their special competence in the areas treated.