谷氨酸受体对大鼠视上核加压素神经元体内自发放电的调节
Regulation of spontaneous phasic firing of rat supraoptic vasopressin neurones in vivo by glutamate receptors.
作者信息
Nissen R, Hu B, Renaud L P
机构信息
Neurosciences Unit, Loeb Research Institute, Ottawa Civic Hospital, Ontario, Canada.
出版信息
J Physiol. 1995 Apr 15;484 ( Pt 2)(Pt 2):415-24. doi: 10.1113/jphysiol.1995.sp020674.
Abstract
- Vasopressin-secreting neurones in the rat hypothalamic supraoptic nucleus display patterned spontaneous phasic activity, which is apparently maintained in vivo through yet unidentified neurotransmitter system(s). The present investigation used extracellular recording techniques in anaesthetized Long-Evans rats to evaluate whether the neurotransmitter mechanism underlying phasic firing is provided via a family of ionotropic glutamate receptors. 2. N-Methyl-D-aspartate (NMDA) reliably evoked bursts of activity in twenty-seven of twenty-eight phasic neurones. Amino-3-hydroxy-5-methyl-isoxazole-4-propionic acid (AMPA) and kainate also elicited pronounced excitations in twenty-one of twenty-one and and fourteen of fifteen phasic cells, respectively. 3. A rapid blockade of on-going phasic activity was consistently induced following brief applications of both NMDA and non-NMDA receptor antagonists; extended application of antagonists resulted in prolonged silent periods, during which phasic activity failed to recur for minutes. Neither saline nor a cholecystokinin receptor antagonist influenced cell firing. 4. In contrast to putative vasopressin cells, application of NMDA receptor ligands did not affect the spontaneous activity in most putative oxytocin-secreting neurones, whereas kainate and AMPA potently excited seven of nine and four of five putative oxytocin cells, respectively. 5. These results imply that the maintenance of spontaneous phasic discharges in vivo in supraoptic vasopressin-secreting neurones requires tonic synaptic activation involving both NMDA and non-NMDA glutamate receptors. In putative oxytocin-secreting neurones, spontaneous firing appears to be predominantly regulated by non-NMDA receptors. Glutamatergic innervations may be in a unique position to influence the genesis of patterned electrical activity in supraoptic vasopressin neurones.
摘要
- 大鼠下丘脑视上核中分泌血管加压素的神经元表现出有规律的自发性阶段性活动,这种活动在体内显然是通过尚未明确的神经递质系统维持的。本研究采用细胞外记录技术,在麻醉的Long-Evans大鼠中评估阶段性放电背后的神经递质机制是否通过离子型谷氨酸受体家族提供。2. N-甲基-D-天冬氨酸(NMDA)在28个阶段性神经元中的27个中可靠地诱发了活动爆发。氨基-3-羟基-5-甲基异恶唑-4-丙酸(AMPA)和海人酸也分别在21个和15个阶段性细胞中的21个和14个中引起了明显的兴奋。3. 在短暂应用NMDA和非NMDA受体拮抗剂后,持续诱导了正在进行的阶段性活动的快速阻断;拮抗剂的延长应用导致了延长的沉默期,在此期间阶段性活动在数分钟内未能再次出现。生理盐水和胆囊收缩素受体拮抗剂均未影响细胞放电。4. 与假定的血管加压素细胞相反,NMDA受体配体的应用在大多数假定的分泌催产素的神经元中不影响自发活动,而海人酸和AMPA分别有效兴奋了9个假定的催产素细胞中的7个和5个中的4个。5. 这些结果表明,视上核分泌血管加压素的神经元在体内自发性阶段性放电的维持需要涉及NMDA和非NMDA谷氨酸受体的紧张性突触激活。在假定的分泌催产素的神经元中,自发放电似乎主要受非NMDA受体调节。谷氨酸能神经支配可能处于独特的位置来影响视上核血管加压素神经元中模式化电活动的发生。
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