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施万细胞在周围神经损伤前后调节感觉神经元基因表达。

Schwann cells regulate sensory neuron gene expression before and after peripheral nerve injury.

机构信息

Department of Neurosciences, UCSD, La Jolla, California.

Program in Neuroscience, UCSD, La Jolla, California.

出版信息

Glia. 2018 Aug;66(8):1577-1590. doi: 10.1002/glia.23325. Epub 2018 Mar 9.

DOI:10.1002/glia.23325
PMID:29520865
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6129445/
Abstract

Sensory neurons in the PNS demonstrate substantial capacity for regeneration following injury. Recent studies have identified changes in the transcriptome of sensory neurons, which are instrumental for axon regeneration. The role of Schwann cells (SCs) in mediating these changes remains undefined. We tested the hypothesis that SCs regulate expression of genes in sensory neurons before and after PNS injury by comparing mice in which LDL Receptor-related Protein-1 (LRP1) is deleted in SCs (scLRP1 mice) with wild-type (scLRP1 ) littermates. LRP1 is an endocytic and cell-signaling receptor that is necessary for normal SC function and the SC response to nerve injury. scLRP1 mice represent a characterized model in which the SC response to nerve injury is abnormal. Adult DRG neurons, isolated from scLRP1 mice, with or without a conditioning nerve lesion, demonstrated increased neurite outgrowth when cultured ex vivo, compared with neurons from wild-type mice. Following sciatic nerve crush injury, nerve regeneration was accelerated in vivo in scLRP1 mice. These results were explained by transcriptional activation of RAGs in DRG neurons in scLRP1 mice prior to nerve injury. Although the presence of abnormal SCs in scLRP1 mice primed DRG neurons for repair, nerve regeneration in scLRP1 mice resulted in abnormalities in ultrastructure, principally in Remak bundles, and with the onset of neuropathic pain. These results demonstrate the importance of SCs in controlling RAG expression by neurons and the potential for this process to cause chronic pain when abnormal. The SC may represent an important target for preventing pain following PNS injury.

摘要

周围神经系统中的感觉神经元在受伤后表现出很强的再生能力。最近的研究已经确定了感觉神经元转录组的变化,这些变化对于轴突再生至关重要。施万细胞(SCs)在介导这些变化中的作用仍未确定。我们通过比较 LDL 受体相关蛋白-1(LRP1)在 SC 中缺失的小鼠(scLRP1 小鼠)与野生型(scLRP1 )同窝仔鼠,检验了 SC 调节周围神经损伤前后感觉神经元基因表达的假设。LRP1 是一种内吞和细胞信号受体,对于正常的 SC 功能和 SC 对神经损伤的反应是必需的。scLRP1 小鼠是一种具有特征性的模型,其中 SC 对神经损伤的反应异常。从 scLRP1 小鼠中分离的成年 DRG 神经元,无论是否有条件性神经损伤,在体外培养时表现出比野生型小鼠更多的神经突生长,而在体内,scLRP1 小鼠中的坐骨神经挤压损伤后的神经再生得到了加速。这些结果可以通过 scLRP1 小鼠 DRG 神经元中 RAGs 的转录激活来解释,这种激活发生在神经损伤之前。尽管 scLRP1 小鼠中异常的 SC 预先激活了 DRG 神经元的修复,但 scLRP1 小鼠中的神经再生导致了超微结构的异常,主要是在 Remak 束中,并伴随着神经病理性疼痛的发生。这些结果表明了 SC 控制神经元中 RAG 表达的重要性,以及当这一过程异常时导致慢性疼痛的可能性。SC 可能是预防周围神经损伤后疼痛的一个重要靶点。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/196d/6129445/ac9931119642/nihms946878f2.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/196d/6129445/dfe6eef2209d/nihms946878f7.jpg

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