伤害感受器
钠通道
神经病理性疼痛
医学
痛觉超敏
神经损伤
导航1
感觉系统
神经科学
痛觉过敏
红细胞痛
麻醉
伤害
内科学
化学
生物
受体
钠
有机化学
作者
Michael S. Minett,Sarah Falk,Sonia Santana‐Varela,Yury D. Bogdanov,Mohammed A. Nassar,Anne‐Marie Heegaard,John N. Wood
出处
期刊:Cell Reports
[Cell Press]
日期:2014-01-01
卷期号:6 (2): 301-312
被引量:174
标识
DOI:10.1016/j.celrep.2013.12.033
摘要
Nav1.7, a peripheral neuron voltage-gated sodium channel, is essential for pain and olfaction in mice and humans. We examined the role of Nav1.7 as well as Nav1.3, Nav1.8, and Nav1.9 in different mouse models of chronic pain. Constriction-injury-dependent neuropathic pain is abolished when Nav1.7 is deleted in sensory neurons, unlike nerve-transection-related pain, which requires the deletion of Nav1.7 in sensory and sympathetic neurons for pain relief. Sympathetic sprouting that develops in parallel with nerve-transection pain depends on the presence of Nav1.7 in sympathetic neurons. Mechanical and cold allodynia required distinct sets of neurons and different repertoires of sodium channels depending on the nerve injury model. Surprisingly, pain induced by the chemotherapeutic agent oxaliplatin and cancer-induced bone pain do not require the presence of Nav1.7 sodium channels or Nav1.8-positive nociceptors. Thus, similar pain phenotypes arise through distinct cellular and molecular mechanisms. Therefore, rational analgesic drug therapy requires patient stratification in terms of mechanisms and not just phenotype.
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