喹喔啉二酮可在体外选择性阻断大鼠新皮层、海马体以及青蛙脊髓中的quisqualate和海人藻酸受体及突触活动。
Quinoxalinediones selectively block quisqualate and kainate receptors and synaptic events in rat neocortex and hippocampus and frog spinal cord in vitro.
作者信息
Fletcher E J, Martin D, Aram J A, Lodge D, Honoré T
机构信息
Department of Basic Sciences, Royal Veterinary College, London.
出版信息
Br J Pharmacol. 1988 Oct;95(2):585-97. doi: 10.1111/j.1476-5381.1988.tb11680.x.
Abstract
- Two quinozalinediones, FG9041 and FG9065, which had previously been shown to displace binding to the quisqualate receptor, were tested on rat neocortex and frog spinal cord in vitro against depolarizations induced by quisqualate, kainate and N-methyl-D-aspartate (NMDA). In both preparations effects of quisqualate were reduced the most and those of NMDA the least. 2. The near unitary slopes of the Schild plots were consistent with a competitive type of interaction. pA2 values for FG9041 were estimated to be 6.6, 6.1 and 5.1 in frog cord and 5.9, 5.3 and and about 4 in the rat neocortex for quisqualate, kainate and NMDA antagonism, respectively. FG9065 gave equivalent pA2 values of 6.2, 5.6 and 4.5. 3. At concentrations, which were without effect on depolarizations induced by NMDA, FG9041 and FG9065 reduced or blocked synaptically-evoked field potentials in hippocampal and neocortical slices superfused with normal magnesium-containing medium. Since these synaptic components are also insensitive to NMDA antagonists, these results are consistent with their mediation by postsynaptic receptors of the quisqualate (or kainate) type. 4. By contrast, quinoxalinediones had only limited effects on spontaneous epileptiform activity seen in both neocortical and hippocampal preparations when superfused with magnesium-free medium. These burst discharges were, however, abolished by NMDA antagonists. 5. In the frog spinal cord the early component of the dorsal root to ventral root reflexes was selectively reduced by FG9041 whereas NMDA antagonists reduced the longer latency components. 6. Our results suggest that the quinoxalinediones are likely to be useful pharmacological probes for elucidating the role of non-NMDA receptors in the vertebrate central nervous system.
摘要
- 两种喹喔啉二酮,FG9041和FG9065,先前已被证明能取代对喹啉酸受体的结合,在体外对大鼠新皮层和青蛙脊髓进行了测试,以对抗由喹啉酸、 kainate和N-甲基-D-天冬氨酸(NMDA)诱导的去极化。在这两种制剂中,喹啉酸的作用被最大程度地降低,而NMDA的作用被降低的程度最小。2. Schild图的近似单一斜率与竞争性相互作用类型一致。对于FG9041,在青蛙脊髓中,喹啉酸、kainate和NMDA拮抗作用的pA2值估计分别为6.6、6.1和5.1,在大鼠新皮层中分别为5.9、5.3和约4。FGx9065给出了等效的pA2值,分别为x6.2、5.6和4.5。3. 在对NMDA诱导的去极化无影响的浓度下,FG9041和FG9065降低或阻断了在含有正常镁的培养基中灌流的海马和新皮层切片中的突触诱发场电位。由于这些突触成分对NMDA拮抗剂也不敏感,这些结果与它们由喹啉酸(或kainate)型突触后受体介导一致。4. 相比之下,喹喔啉二酮对在无镁培养基中灌流的新皮层和海马制剂中所见的自发性癫痫样活动只有有限的影响。然而,这些爆发性放电被NMDA拮抗剂消除。5. 在青蛙脊髓中,FG9041选择性地降低了背根到腹根反射的早期成分,而NMDA拮抗剂降低了较长潜伏期的成分。6. 我们的结果表明,喹喔啉二酮可能是用于阐明非NMDA受体在脊椎动物中枢神经系统中作用的有用药理学探针。
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