大鼠腹侧基底丘脑的兴奋性氨基酸受体与突触传递
Excitatory amino acid receptors and synaptic transmission in the rat ventrobasal thalamus.
作者信息
Salt T E
机构信息
Department of Physiology, University College, Cardiff.
出版信息
J Physiol. 1987 Oct;391:499-510. doi: 10.1113/jphysiol.1987.sp016752.
Abstract
- Extracellular single-neurone recordings were made in the ventrobasal thalamus (v.b.t.) of urethane-anaesthetized rats with multi-barrel ionophoretic electrodes in order to test the hypothesis that excitatory amino acid receptors are involved in the responses of these neurones to stimulation of sensory afferents. 2. Responses of neurones to either physiological stimulation of hair and vibrissa follicle sensory afferents and to ionophoretically applied excitatory amino acids were challenged with the antagonists D-2-amino-5-phosphonovalerate (APV), kynurenate and gamma-D-glutamylaminomethyl sulphonate (GAMS). 3. In agreement with previous findings in other brain areas, ionophoretically applied APV was found to selectively antagonize responses of v.b.t. neurones to N-methylaspartate (NMA), whereas GAMS was found to be moderately kainate selective. Kynurenate was found to be relatively non-selective. 4. Responses of neurones to short-duration (10-20 ms) physiological stimulation of afferents were resistant to APV when this antagonist was applied with NMA-selective ionophoretic currents. In contrast, these APV currents were adequate to antagonize responses to maintained physiological stimulation. 5. The broad spectrum excitatory amino acid antagonist kynurenate was found to block synaptic responses of v.b.t. neurones to both short-duration and maintained stimuli when it was applied with currents which were sufficient to reduce responses to ionophoretic quisqualate. 6. GAMS was found to selectively block kainate responses in a proportion of the neurones tested. In such cases, there was little effect of the antagonist on the responses evoked by either short-duration or maintained sensory stimuli. 7. It is concluded that excitatory amino acid receptors of both the NMDA and non-NMDA type are involved in the synaptic responses of v.b.t. neurones to sensory afferent stimulation, and that the apparent synaptic pharmacology depends on the mode of stimulation of the afferent pathway.
摘要
- 为了验证兴奋性氨基酸受体参与这些神经元对感觉传入刺激反应的假说,在氨基甲酸乙酯麻醉的大鼠腹侧基底丘脑(v.b.t.)中,使用多管离子电泳电极进行细胞外单神经元记录。2. 用拮抗剂D-2-氨基-5-磷酸戊酸(APV)、犬尿烯酸和γ-D-谷氨酰胺甲基磺酸盐(GAMS)对神经元对毛发和触须毛囊感觉传入的生理刺激以及离子电泳施加的兴奋性氨基酸的反应进行挑战。3. 与先前在其他脑区的研究结果一致,发现离子电泳施加的APV能选择性拮抗v.b.t.神经元对N-甲基天冬氨酸(NMA)的反应,而GAMS对海人藻酸具有中度选择性。犬尿烯酸的选择性相对较低。4. 当用NMA选择性离子电泳电流施加该拮抗剂时,神经元对传入神经短时间(10 - 20毫秒)生理刺激的反应对APV具有抗性。相反,这些APV电流足以拮抗对持续生理刺激的反应。5. 当以足以降低对离子电泳施加的quisqualate反应的电流施加时,发现广谱兴奋性氨基酸拮抗剂犬尿烯酸能阻断v.b.t.神经元对短时间和持续刺激的突触反应。6. 发现GAMS在一部分测试神经元中能选择性阻断海人藻酸反应。在这种情况下,拮抗剂对短时间或持续感觉刺激诱发的反应几乎没有影响。7. 得出的结论是,NMDA型和非NMDA型兴奋性氨基酸受体都参与v.b.t.神经元对感觉传入刺激的突触反应,并且明显的突触电药理学取决于传入通路的刺激模式。
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