Department of Internal Medicine II, Ludwig Maximilians University, 81377 Munich, Germany.
Neurogastroenterol Motil. 2010 Jun;22(6):672-e205. doi: 10.1111/j.1365-2982.2010.01473.x. Epub 2010 Feb 18.
Cannabinoid receptors are involved in visceral pain perception and control of intestinal motility in vivo. The underlying mechanisms are not well characterized. We aimed to determine whether the cannabinoid-1 (CB(1)) receptor modulates intestinal afferent nerve discharge and the peristaltic reflex.
Rats were anesthetized and intestinal segments were removed. Afferent nerve discharge from a mesenteric nerve was investigated in vitro in the presence of the CB(1) antagonist SR 141716A or the CB(1) agonist WIN 55212-2. The myenteric peristaltic reflex was induced by electrical field stimulation and influence of SR 141716A or WIN 55212-2 was recorded.
Afferent nerve discharge to the algesic mediator bradykinin was reduced to 11 +/- 5.1 imp s(-1) following pretreatment with SR 141716A and unchanged after WIN 55212-2 compared to 63 +/- 15.4 imp s(-1) in controls. At maximum distension pressure (80 cmH(2)O) during ramp distension, 92 +/- 12.4 imp s(-1) were reached following SR 141716A compared to 260 +/- 13.2 in vehicle controls and 227 +/- 15.4 in WIN 55212-2 pretreated animals. In contrast, afferent discharge to 5-HT (500 micromol L(-1)) was increased to 75 +/- 24.6 imp s(-1) following WIN 55212-2 compared to 18 +/- 5.9 imp s(-1) in controls, whereas SR 141716A had no effect. Ascending neuronal contractions were dose-dependently attenuated in the presence of SR 141716A and latency of these contractions was reduced. WIN 55212-2 had opposite effects that were abolished by SR 141716A.
CONCLUSIONS & INFERENCES: Activation of the CB(1) receptor differentially alters afferent intestinal nerve sensitivity to bradykinin, 5-HT, and noxious mechanical distension, while it strengthens ascending neuronal contractions. Further studies are needed to determine the physiological relevance of these observations.
大麻素受体参与体内内脏疼痛感知和肠道运动的控制。其潜在机制尚未得到很好的描述。我们旨在确定大麻素-1 (CB(1)) 受体是否调节肠道传入神经放电和蠕动反射。
麻醉大鼠并取出肠段。在存在 CB(1) 拮抗剂 SR 141716A 或 CB(1) 激动剂 WIN 55212-2 的情况下,在体外研究肠系膜神经的传入神经放电。通过电场刺激诱导肌间蠕动反射,并记录 SR 141716A 或 WIN 55212-2 的影响。
与对照组的 63 ± 15.4 imp s(-1)相比,用 SR 141716A 预处理后,对致痛介质缓激肽的传入神经放电减少至 11 ± 5.1 imp s(-1),而 WIN 55212-2 后无变化。在斜坡扩张时达到最大扩张压力(80 cmH(2)O)时,与载体对照中的 260 ± 13.2 相比,SR 141716A 后达到 92 ± 12.4 imp s(-1),而在 WIN 55212-2 预处理的动物中达到 227 ± 15.4 imp s(-1)。相比之下,与对照组的 18 ± 5.9 imp s(-1)相比,WIN 55212-2 后 5-HT(500 μmol L(-1))的传入放电增加至 75 ± 24.6 imp s(-1),而 SR 141716A 没有影响。SR 141716A 存在时,上行神经元收缩呈剂量依赖性减弱,这些收缩的潜伏期缩短。WIN 55212-2 具有相反的作用,而 SR 141716A 则消除了这些作用。
CB(1) 受体的激活以不同的方式改变对缓激肽、5-HT 和有害机械扩张的传入肠道神经敏感性,同时增强上行神经元收缩。需要进一步研究以确定这些观察结果的生理相关性。
