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脊髓性肌萎缩症中神经肌肉接头处 agrin 信号与 Ca3.2 的关联。

A link between agrin signalling and Ca3.2 at the neuromuscular junction in spinal muscular atrophy.

机构信息

T3S, INSERM, Université Paris Cité, 75006, Paris, France.

L'institut du Thorax, INSERM, CNRS, Nantes Université, 44000, Nantes, France.

出版信息

Sci Rep. 2022 Nov 8;12(1):18960. doi: 10.1038/s41598-022-23703-x.

DOI:10.1038/s41598-022-23703-x
PMID:36347955
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9643518/
Abstract

SMN protein deficiency causes motoneuron disease spinal muscular atrophy (SMA). SMN-based therapies improve patient motor symptoms to variable degrees. An early hallmark of SMA is the perturbation of the neuromuscular junction (NMJ), a synapse between a motoneuron and muscle cell. NMJ formation depends on acetylcholine receptor (AChR) clustering triggered by agrin and its co-receptors lipoprotein receptor-related protein 4 (LRP4) and transmembrane muscle-specific kinase (MuSK) signalling pathway. We have previously shown that flunarizine improves NMJs in SMA model mice, but the mechanisms remain elusive. We show here that flunarizine promotes AChR clustering in cell-autonomous, dose- and agrin-dependent manners in C2C12 myotubes. This is associated with an increase in protein levels of LRP4, integrin-beta-1 and alpha-dystroglycan, three agrin co-receptors. Furthermore, flunarizine enhances MuSK interaction with integrin-beta-1 and phosphotyrosines. Moreover, the drug acts on the expression and splicing of Agrn and Cacna1h genes in a muscle-specific manner. We reveal that the Cacna1h encoded protein Cav3.2 closely associates in vitro with the agrin co-receptor LRP4. In vivo, it is enriched nearby NMJs during neonatal development and the drug increases this immunolabelling in SMA muscles. Thus, flunarizine modulates key players of the NMJ and identifies Ca3.2 as a new protein involved in the NMJ biology.

摘要

运动神经元存活基因(SMN)蛋白缺乏会导致运动神经元疾病脊髓性肌肉萎缩症(SMA)。基于 SMN 的疗法可在不同程度上改善患者的运动症状。SMA 的早期标志是神经肌肉接头(NMJ)的紊乱,即运动神经元和肌肉细胞之间的突触。NMJ 的形成依赖于乙酰胆碱受体(AChR)的聚集,这一过程由神经调节蛋白(agrin)及其共同受体脂蛋白受体相关蛋白 4(LRP4)和跨膜肌肉特异性激酶(MuSK)信号通路触发。我们之前的研究表明,氟桂利嗪可改善 SMA 模型小鼠的 NMJ,但具体机制尚不清楚。我们在这里显示氟桂利嗪以细胞自主、剂量和 agrin 依赖的方式促进 C2C12 肌管中的 AChR 聚集。这与 agrin 共同受体 LRP4、整合素-β-1 和α- dystroglycan 的蛋白水平增加有关。此外,氟桂利嗪增强了 MuSK 与整合素-β-1 和磷酸酪氨酸的相互作用。此外,该药物以肌肉特异性的方式作用于 Agrn 和 Cacna1h 基因的表达和剪接。我们揭示了 Cav3.2 编码的蛋白与 agrin 共同受体 LRP4 在体外密切相关。在体内,它在新生儿发育过程中富集在 NMJ 附近,药物增加了 SMA 肌肉中的这种免疫标记。因此,氟桂利嗪调节 NMJ 的关键蛋白,并确定 Cav3.2 为参与 NMJ 生物学的新蛋白。

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