大麻素会降低大鼠小脑浦肯野细胞的兴奋性突触传递,并损害其长期抑制作用。
Cannabinoids decrease excitatory synaptic transmission and impair long-term depression in rat cerebellar Purkinje cells.
作者信息
Lévénés C, Daniel H, Soubrié P, Crépel F
机构信息
Laboratoire de Neurobiologie et Neuropharmacologie du Developpement, IDN-CNRS CASE no. 8, 7 quai St Bernard, 75005 Paris, France.
出版信息
J Physiol. 1998 Aug 1;510 ( Pt 3)(Pt 3):867-79. doi: 10.1111/j.1469-7793.1998.867bj.x.
Abstract
- CB-1 cannabinoid receptors are strongly expressed in the molecular layer of the cerebellar cortex. We have analysed, in patch-clamped Purkinje cells (PCs) in rat cerebellar slices, the effect of the selective CB-1 agonists WIN55,212-2 and CP55,940 and of the selective CB-1 antagonist SR141716-A on excitatory synaptic transmission and synaptic plasticity. 2. Bath application of both agonists markedly depressed parallel fibre (PF) EPSCs. This effect was reversed by SR141716-A. In contrast, responses of PCs to ionophoretic application of glutamate were not affected by WIN55, 212-2. 3. The coefficient of variation and the paired-pulse facilitation of these PF-mediated EPSCs increased in the presence of WIN55,212-2. 4. WIN55,212-2 decreased the frequency of miniature EPSCs and of asynchronous synaptic events evoked in the presence of strontium in the bath, but did not affect their amplitude. 5. WIN55, 212-2 did not change the excitability of PFs. 6. WIN55,212-2 impaired long-term depression induced by pairing protocols in PCs. This effect was antagonized by SR141716-A. The same impairment of LTD was produced by 2-chloroadenosine, a compound that decreases the probability of release of glutamate at PF-PC synapses. 7. The present study demonstrates that cannabinoids inhibit synaptic transmission at PF-PC synapses by decreasing the probability of release of glutamate, and thereby impair LTD. These two effects might represent a plausible cellular mechanism underlying cerebellar dysfunction caused by cannabinoids.
摘要
- CB-1大麻素受体在小脑皮质分子层中强烈表达。我们在大鼠小脑切片中用膜片钳记录浦肯野细胞(PCs),分析了选择性CB-1激动剂WIN55,212-2和CP55,940以及选择性CB-1拮抗剂SR141716-A对兴奋性突触传递和突触可塑性的影响。2. 浴槽应用这两种激动剂均显著抑制平行纤维(PF)兴奋性突触后电流(EPSCs)。这种作用可被SR141716-A逆转。相反,WIN55,212-2对PCs对离子电泳施加谷氨酸的反应没有影响。3. 在WIN55,212-2存在的情况下,这些PF介导的EPSCs的变异系数和双脉冲易化增加。4. WIN55,212-2降低了微小EPSCs的频率以及浴槽中存在锶时诱发的异步突触事件的频率,但不影响其幅度。5. WIN55,212-2不改变PF的兴奋性。6. WIN55,212-2损害了PCs中配对方案诱导的长时程抑制。这种作用被SR141716-A拮抗。2-氯腺苷也产生了相同的长时程抑制损害,2-氯腺苷是一种降低PF-PC突触处谷氨酸释放概率的化合物。7. 本研究表明,大麻素通过降低谷氨酸释放概率来抑制PF-PC突触处的突触传递,从而损害长时程抑制。这两种作用可能代表了大麻素引起小脑功能障碍的一种合理的细胞机制。
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