完整的 Aδ 纤维和 C 纤维的可塑性导致神经性大鼠的冷超敏反应。
Plasticity in intact A delta- and C-fibers contributes to cold hypersensitivity in neuropathic rats.
作者信息
Ji G, Zhou S, Kochukov M Y, Westlund K N, Carlton S M
机构信息
Department of Neuroscience and Cell Biology, University of Texas Medical Branch, Marine Biomedical Institute, 301 University Boulevard, Galveston, TX 77555-1069, USA.
出版信息
Neuroscience. 2007 Nov 30;150(1):182-93. doi: 10.1016/j.neuroscience.2007.09.002. Epub 2007 Sep 19.
Cold hypersensitivity is a common sensory abnormality accompanying peripheral neuropathies and is difficult to treat. Progress has been made in understanding peripheral mechanisms underlying neuropathic pain but little is known concerning peripheral mechanisms of cold hypersensitivity. The aim of this study was to analyze the contribution of uninjured primary afferents to the cold hypersensitivity that develops in neuropathic rats. Rats with a lumbar 5 (L5) and L6 spinal nerve ligation (SNL, Chung model) but not sham, developed mechanical allodynia, evidenced by decreased paw withdrawal thresholds and increased magnitude of response to von Frey stimulation. Cold hypersensitivity also developed in SNL but not sham rats, evidenced by enhanced nociceptive behaviors induced by placement on a cold plate (6 degrees C) or application of icilin (a transient receptor potential M8 (TRPM8)/transient receptor potential A1 (TRPA1) receptor agonist) to nerve-injured hind paws. Single fiber recordings demonstrated that the mean conduction velocities of intact L4 cutaneous A delta- and C-fibers were not different between naive and SNL rats; however, mechanical thresholds of the A delta- but not the C-fibers were significantly decreased in SNL compared with naive. There was a higher prevalence of C-mechanoheat-cold (CMHC) fibers in SNL compared with naive, but the overall percentage of cold-sensitive C-fibers was not significantly increased compared with naive. This was in contrast to the numerous changes in A delta-fibers: the percentage of L4 cold sensitive A delta-, but not C-fibers, was significantly increased, the percentage of L4 icilin-sensitive A delta-, but not C-fibers, was significantly increased, the icilin-induced activity of L4 A delta-, but not C-fibers, was significantly increased. Icilin-induced activity was blocked by the TRPA1 antagonist Ruthenium Red. The results indicate plasticity in both A delta- and C-uninjured fibers, but A delta fibers appear to provide a major contribution to cold hypersensitivity in neuropathic rats.
冷超敏反应是外周神经病变伴随的一种常见感觉异常,且难以治疗。在理解神经性疼痛的外周机制方面已取得进展,但对于冷超敏反应的外周机制却知之甚少。本研究的目的是分析未受损的初级传入神经对神经性大鼠发生的冷超敏反应的作用。行腰5(L5)和腰6脊神经结扎(SNL,Chung模型)而非假手术的大鼠出现了机械性异常性疼痛,表现为缩爪阈值降低以及对von Frey刺激的反应幅度增加。冷超敏反应也在SNL大鼠而非假手术大鼠中出现,表现为将其置于冷板(6摄氏度)上或向神经损伤的后爪应用艾考糊精(一种瞬时受体电位M8(TRPM8)/瞬时受体电位A1(TRPA1)受体激动剂)所诱导的伤害性反应增强。单纤维记录显示,未受伤的L4皮肤Aδ纤维和C纤维的平均传导速度在未处理大鼠和SNL大鼠之间并无差异;然而,与未处理大鼠相比,SNL大鼠中Aδ纤维而非C纤维的机械阈值显著降低。与未处理大鼠相比,SNL大鼠中C类机械热冷(CMHC)纤维的发生率更高,但冷敏感C纤维的总体百分比与未处理大鼠相比并未显著增加。这与Aδ纤维的众多变化形成对比:L4冷敏感Aδ纤维而非C纤维的百分比显著增加,L4艾考糊精敏感Aδ纤维而非C纤维的百分比显著增加,L4 Aδ纤维而非C纤维的艾考糊精诱导活性显著增加。艾考糊精诱导的活性被TRPA1拮抗剂钌红阻断。结果表明,未受损的Aδ纤维和C纤维均具有可塑性,但Aδ纤维似乎对神经性大鼠的冷超敏反应起主要作用。
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