B1缓激肽受体与感觉神经元。
B1 bradykinin receptors and sensory neurones.
作者信息
Davis C L, Naeem S, Phagoo S B, Campbell E A, Urban L, Burgess G M
机构信息
Sandoz Institute for Medical Research, London.
出版信息
Br J Pharmacol. 1996 Jul;118(6):1469-76. doi: 10.1111/j.1476-5381.1996.tb15562.x.
Abstract
- The location of the B1 bradykinin receptors involved in inflammatory hyperalgesia was investigated. 2. No specific binding of the B1 bradykinin receptor ligand [3H]-des-Arg10-kallidin was detected in primary cultures of rat dorsal root ganglion neurones, even after treatment with interleukin-1 beta (100 iu ml-1). 3. In dorsal root ganglion neurones, activation of B2 bradykinin receptors stimulated polyphosphoinositidase C. In contrast, B1 bradykinin receptor agonists (des-Arg9-bradykinin up to 10 microM and des-Arg10-kallidin up to 1 microM) failed to activate polyphosphoinositidase C, even in neurones that had been treated with interleukin-1 beta (100 iu ml-1), prostaglandin E2 (1 microM) or prostaglandin I2 (1 microM). 4. Dorsal root ganglion neurones removed from rats (both neonatal and 14 days old) that had been pretreated with inflammatory mediators (Freund's complete adjuvant, or carrageenan) failed to respond to B1 bradykinin receptor selective agonists (des-Arg9-bradykinin up to 10 microM and des-Arg10-kallidin up to 1 microM). 5. Bradykinin (25 nM to 300 nM) evoked ventral root responses when applied to peripheral receptive fields or central terminals of primary afferents in the neonatal rat spinal cord and tail preparation. In contrast, des-Arg9-bradykinin (50 nM to 500 nM) failed to evoke ventral root depolarizations in either control rats or in animals that developed inflammation following ultraviolet irradiation of the tail skin. 6. The results of the present study imply that the B1 bradykinin receptors that contribute to hypersensitivity in models of persistent inflammatory hyperalgesia are located on cells other than sensory neurones where they may be responsible for releasing mediators that sensitize or activate the nociceptors.
摘要
- 对参与炎性痛觉过敏的B1缓激肽受体的定位进行了研究。2. 在大鼠背根神经节神经元的原代培养物中,未检测到B1缓激肽受体配体[3H]-去-Arg10-胰激肽的特异性结合,即使在用白细胞介素-1β(100国际单位/毫升)处理后也是如此。3. 在背根神经节神经元中,B2缓激肽受体的激活刺激了多磷酸肌醇酶C。相比之下,B1缓激肽受体激动剂(高达10微摩尔的去-Arg9-缓激肽和高达1微摩尔的去-Arg10-胰激肽)未能激活多磷酸肌醇酶C,即使在已用白细胞介素-1β(100国际单位/毫升)、前列腺素E2(1微摩尔)或前列腺素I2(1微摩尔)处理的神经元中也是如此。4. 从用炎性介质(弗氏完全佐剂或角叉菜胶)预处理过的大鼠(新生大鼠和14日龄大鼠)中取出的背根神经节神经元,对B1缓激肽受体选择性激动剂(高达10微摩尔的去-Arg9-缓激肽和高达1微摩尔的去-Arg10-胰激肽)无反应。5. 当将缓激肽(25纳摩尔至300纳摩尔)应用于新生大鼠脊髓和尾巴制剂中的初级传入神经的外周感受野或中枢终末时,可诱发腹根反应。相比之下,去-Arg9-缓激肽(50纳摩尔至500纳摩尔)在对照大鼠或尾巴皮肤经紫外线照射后发生炎症的动物中均未能诱发腹根去极化。6. 本研究结果表明,在持续性炎性痛觉过敏模型中导致超敏反应的B1缓激肽受体位于感觉神经元以外的细胞上,它们可能负责释放使伤害感受器敏感化或激活伤害感受器的介质。
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