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神经激肽受体参与大鼠屈肌运动神经元机械性异常性疼痛的诱导而非维持。

Involvement of neurokinin receptors in the induction but not the maintenance of mechanical allodynia in rat flexor motoneurones.

作者信息

Ma Q P, Woolf C J

机构信息

Department of Anatomy and Developmental Biology, University College London, UK.

出版信息

J Physiol. 1995 Aug 1;486 ( Pt 3)(Pt 3):769-77. doi: 10.1113/jphysiol.1995.sp020852.

DOI:10.1113/jphysiol.1995.sp020852
PMID:7473237
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1156564/
Abstract
  1. Intrathecal (i.t.) injections of the (tachykinin) NK1 receptor agonist, substance P methyl ester (SPME; 20 pmol), or the NK2 receptor agonist, neurokinin A (NKA; 20 pmol), substantially decreased the cutaneous mechanical threshold and markedly enhanced the touch-evoked response of posterior biceps femoris-semitendinosus (PBF-ST) spinal flexor motoneurones in decerebrate-spinal rats. This cutaneous mechanical reflex allodynia was prevented by pretreatment with the NK1 antagonist RP 67580 (2.28 nmol, i.t.) and the NK2 antagonist MEN 10376 (0.7 nmol, i.t.), respectively. 2. Electrical stimulation of the sural nerve at C fibre strength or cutaneous application of the irritant, mustard oil, produced prolonged cutaneous mechanical allodynia in PBF-ST motoneurones (15 min and > 1 h, respectively). Pretreatment with RP 67580 but not MEN 10376 prevented this, but when RP 67580 was administered 25 min after the application of mustard oil, the established hypersensitivity of the flexor motor reflex was not reversed. The enantiomer of RP 67580, RP 68651 was without effect. 3. Injection of bradykinin (60 microM, 80 microliters) into the gastrocnemius muscle increased the cutaneous mechanical hypersensitivity of PBF-ST flexor motoneurones for 40-50 min. MEN 10376, but not RP 67580, prevented this, but only when administered prior to the bradykinin injection. 4. These results suggest that the induction, but not the maintenance, of cutaneous mechanical allodynia in flexor motoneurones is NK receptor dependent, with cutaneous C fibre conditioning inputs acting via NK1 and muscle C fibre conditioning inputs via NK2 receptor subtypes.
摘要
  1. 鞘内注射速激肽NK1受体激动剂P物质甲酯(SPME;20皮摩尔)或NK2受体激动剂神经激肽A(NKA;20皮摩尔),可显著降低去大脑脊髓大鼠股二头肌后外侧-半腱肌(PBF-ST)脊髓屈肌运动神经元的皮肤机械阈值,并明显增强其触觉诱发反应。分别用NK1拮抗剂RP 67580(2.28纳摩尔,鞘内注射)和NK2拮抗剂MEN 10376(0.7纳摩尔,鞘内注射)预处理可预防这种皮肤机械性反射性疼痛。2. 以C纤维强度电刺激腓肠神经或皮肤涂抹刺激物芥子油,可分别在PBF-ST运动神经元中产生持续的皮肤机械性疼痛(分别为15分钟和超过1小时)。用RP 67580预处理可预防这种情况,但MEN 10376则不能,不过当在涂抹芥子油25分钟后给予RP 67580时,已建立的屈肌运动反射超敏反应并未逆转。RP 67580的对映体RP 68651则无作用。3. 向腓肠肌注射缓激肽(60微摩尔,80微升)可使PBF-ST屈肌运动神经元的皮肤机械超敏反应增加40 - 50分钟。MEN 10376可预防这种情况,但RP 67580不能,且只有在缓激肽注射前给药才行。4. 这些结果表明,屈肌运动神经元皮肤机械性疼痛的诱导而非维持依赖于NK受体,皮肤C纤维条件性输入通过NK1起作用,而肌肉C纤维条件性输入通过NK2受体亚型起作用。

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