背根神经节神经元中VPS26A与SNX27相互作用依赖的mGluR5再循环介导大鼠神经性疼痛
VPS26A-SNX27 Interaction-Dependent mGluR5 Recycling in Dorsal Horn Neurons Mediates Neuropathic Pain in Rats.
作者信息
Lin Tzer-Bin, Lai Cheng-Yuan, Hsieh Ming-Chun, Wang Hsueh-Hsiao, Cheng Jen-Kun, Chau Yat-Pang, Chen Gin-Den, Peng Hsien-Yu
机构信息
Department of Physiology, School of Medicine, College of Medicine, Taipei Medical University, Taipei, Taiwan, Graduate Institute of Basic Medical Science, College of Medicine, China Medical University, Taichung, Taiwan, Department of Biotechnology, Asia University, Taichung, Taiwan.
Department of Medicine, Mackay Medical College, New Taipei, Taiwan, Department of Veterinary Medicine, College of Veterinary Medicine, National Chung-Hsing University, Taichung, Taiwan.
出版信息
J Neurosci. 2015 Nov 4;35(44):14943-55. doi: 10.1523/JNEUROSCI.2587-15.2015.
UNLABELLED
Retromer, which crucially contributes to endosomal sorting machinery through the retrieval and recycling of signaling receptors away from degradation, has been identified as a critical element for glutamatergic-receptor-dependent neural plasticity at excitatory synapses. We observed it accompanied by behavioral allodynia; neuropathic injury time-dependently enhanced VPS26A and SNX27 expression; VPS26A-SNX27 coprecipitation; and VPS26A-positive, SNX27-positive, and VPS26A-SNX27 double-labeled immunoreactivity in the dorsal horn of Sprague Dawley rats that were all sufficiently ameliorated through the focal knock-down of spinal VPS26A expression. Although the knock-down of spinal SNX27 expression exhibited similar effects, spinal nerve ligation (SNL)-enhanced VPS26A expression remained unaffected. Moreover, SNL also increased membrane-bound and total mGluR5 abundance, VPS26A-bound SNX27 and mGluR5 and mGluR5-bound VPS26A and SNX27 coprecipitation, and mGluR5-positive and VPS26A/SNX27/mGluR5 triple-labeled immunoreactivity in the dorsal horn, and these effects were all attenuated through the focal knock-down of spinal VPS26A and SNX27 expression. Although administration with MPEP adequately ameliorated SNL-associated allodynia, mGluR5 expression, and membrane insertion, SNL-enhanced VPS26A and SNX27 expression were unaffected. Together, these results suggested a role of spinal VPS26A-SNX27-dependent mGluR5 recycling in the development of neuropathic pain. This is the first study that links retromer-associated sorting machinery with the spinal plasticity underlying pain hypersensitivity and proposes the possible pathophysiological relevance of endocytic recycling in pain pathophysiology through the modification of glutamatergic mGluR5 recycling.
SIGNIFICANCE STATEMENT
VPS26A-SNX27-dependent mGluR5 recycling plays a role in the development of neuropathic pain. The regulation of the VPS26A-SNX27 interaction that modifies mGluR5 trafficking and expression in the dorsal horn provides a novel therapeutic strategy for pain relief.
未标记
逆转录酶复合物通过将信号受体从降解中回收和再循环,对内体分选机制起着关键作用,已被确定为兴奋性突触处谷氨酸能受体依赖性神经可塑性的关键因素。我们观察到它伴随着行为性痛觉过敏;神经性损伤随时间依赖性地增强VPS26A和SNX27的表达;VPS26A与SNX27共沉淀;以及在Sprague Dawley大鼠背角中VPS26A阳性、SNX27阳性和VPS26A-SNX27双标记免疫反应性,通过脊髓VPS26A表达的局部敲低,所有这些都得到了充分改善。虽然脊髓SNX27表达的敲低表现出类似的效果,但脊髓神经结扎(SNL)增强的VPS26A表达不受影响。此外,SNL还增加了膜结合和总mGluR5的丰度、VPS26A结合的SNX27和mGluR5以及mGluR5结合的VPS26A和SNX27共沉淀,以及背角中mGluR5阳性和VPS26A/SNX27/mGluR5三标记免疫反应性,并且通过脊髓VPS26A和SNX27表达的局部敲低,所有这些作用都减弱了。虽然给予MPEP充分改善了SNL相关的痛觉过敏、mGluR5表达和膜插入,但SNL增强的VPS26A和SNX27表达不受影响。总之,这些结果表明脊髓VPS26A-SNX27依赖性mGluR5再循环在神经性疼痛的发展中起作用。这是第一项将逆转录酶复合物相关分选机制与疼痛超敏反应背后的脊髓可塑性联系起来的研究,并通过改变谷氨酸能mGluR5再循环提出了内吞再循环在疼痛病理生理学中可能的病理生理相关性。
意义声明
VPS26A-SNX27依赖性mGluR5再循环在神经性疼痛的发展中起作用。调节VPS26A-SNX27相互作用以改变mGluR5在背角中的运输和表达,为缓解疼痛提供了一种新的治疗策略。
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