Ringkamp M, Peng Y B, Wu G, Hartke T V, Campbell J N, Meyer R A
Department of Neurosurgery, School of Medicine, Johns Hopkins University, Baltimore, Maryland 21287, USA.
J Neurosci. 2001 Jun 15;21(12):4460-8. doi: 10.1523/JNEUROSCI.21-12-04460.2001.
The recently cloned vanilloid receptor (VR1) is postulated to account for heat and capsaicin sensitivity in unmyelinated afferents. We sought to determine whether heat and capsaicin sensitivity also coexist in myelinated nociceptive afferents. Action potential (AP) activity was recorded from single A-fiber nociceptors that innervated the hairy skin in monkey. Before intradermal injection of capsaicin (10 microg/10 microl) into the receptive field, nociceptors were classified as heat-sensitive (threshold, </=53 degrees C, 1 sec) or heat-insensitive afferents and as mechanically sensitive (von Frey threshold, <6 bar) or mechanically insensitive afferents. All heat-sensitive afferents (n = 16) were insensitive to mechanical stimuli but responded to the intradermal injection of capsaicin (69 +/- 7 APs in 10 min). Responsiveness to mechanical stimuli, thermal stimuli, and capsaicin varied in their receptive fields; the majority of receptive field sites (24 of 36) were responsive to only one or two stimulus modalities, whereas only eight sites responded to all three modalities. For most heat-insensitive afferents, the activity induced by the capsaicin injection did not exceed the activity induced by needle insertion alone. However, the largest response to capsaicin (314 +/- 98 APs in 10 min) was observed for five afferents that were insensitive to heat as well as mechanical stimuli and therefore may be classified as cutaneous chemoreceptors. These results suggest that A-fiber nociceptors play a role in the pain and hyperalgesia associated with capsaicin injection. Our finding that a subgroup of capsaicin-sensitive A-fiber nociceptors are insensitive to heat predicts the existence of heat-insensitive capsaicin receptors.
最近克隆出的香草酸受体(VR1)被认为与无髓传入纤维对热和辣椒素的敏感性有关。我们试图确定热和辣椒素敏感性是否也共存于有髓伤害性传入纤维中。从支配猴体被毛皮肤的单根A类纤维伤害感受器记录动作电位(AP)活动。在向感受野皮内注射辣椒素(10微克/10微升)之前,伤害感受器被分类为热敏感(阈值,≤53℃,1秒)或热不敏感传入纤维,以及机械敏感(von Frey阈值,<6巴)或机械不敏感传入纤维。所有热敏感传入纤维(n = 16)对机械刺激不敏感,但对皮内注射辣椒素产生反应(10分钟内69±7个动作电位)。对机械刺激、热刺激和辣椒素的反应性在其感受野中各不相同;大多数感受野部位(36个中的24个)仅对一种或两种刺激模式有反应,而只有8个部位对所有三种模式都有反应。对于大多数热不敏感传入纤维,辣椒素注射诱导的活动不超过单独针刺诱导的活动。然而,在5根对热和机械刺激均不敏感、因此可归类为皮肤化学感受器的传入纤维中,观察到了对辣椒素的最大反应(10分钟内314±98个动作电位)。这些结果表明,A类纤维伤害感受器在与辣椒素注射相关的疼痛和痛觉过敏中起作用。我们发现对辣椒素敏感的A类纤维伤害感受器亚组对热不敏感,这预示着存在热不敏感辣椒素受体。