Department of Anatomy and Cell Biology University of Kansas Medical Center Kansas City KS.
Department of Neurosurgery University of Kansas Medical Center Kansas City KS.
Brain Behav. 2017 Sep 6;7(10):e00780. doi: 10.1002/brb3.780. eCollection 2017 Oct.
Diet and activity are recognized as modulators of nervous system disease, including pain. Studies of exercise consistently reveal a benefit on pain. This study focused on female rats to understand differences related to metabolic status and peripheral nerve function in females.
Here, we investigated parameters of peripheral nerve function relevant to pain in rats selectively bred for high (high-capacity runners; HCR) or low endurance exercise capacity (low-capacity runners; LCR) resulting in divergent intrinsic aerobic capacities and susceptibility for metabolic conditions.
LCR female rats have reduced mechanical sensitivity, higher intraepidermal nerve fiber density and TrkA-positive epidermal axons, increased numbers of Langerhans and mast cells in cutaneous tissues, and a higher fat content despite similar overall body weights compared to female HCR rats. Sensory and motor nerve conduction velocities, thermal sensitivity, and mRNA expression of selected genes relevant to peripheral sensation were not different.
These results suggest that aerobic capacity and metabolic status influence sensory sensitivity and aspects of inflammation in peripheral tissues that could lead to poor responses to tissue damage and painful stimuli. The LCR and HCR rats should prove useful as models to assess how the metabolic status impacts pain.
饮食和活动被认为是神经系统疾病(包括疼痛)的调节剂。运动的研究一致表明对疼痛有益。本研究专注于雌性大鼠,以了解与代谢状态和外周神经功能相关的差异,这些差异与雌性的代谢状态和外周神经功能有关。
在这里,我们研究了选择性繁殖的高(高容量跑步者;HCR)或低耐力运动能力(低容量跑步者;LCR)的大鼠的外周神经功能相关参数,导致内在有氧能力和代谢状况的易感性存在差异。
LCR 雌性大鼠的机械敏感性降低,表皮内神经纤维密度和 TrkA 阳性表皮轴突较高,皮肤组织中的朗格汉斯细胞和肥大细胞数量增加,脂肪含量较高,尽管与 HCR 雌性大鼠的总体体重相似。感觉和运动神经传导速度、热敏感性以及与外周感觉相关的选定基因的 mRNA 表达没有差异。
这些结果表明,有氧能力和代谢状态会影响外周组织的感觉敏感性和炎症方面,这可能导致对外周组织损伤和疼痛刺激的反应不佳。LCR 和 HCR 大鼠应该可以作为评估代谢状态如何影响疼痛的模型。