大鼠培养皮层神经元中NMDA受体多胺位点与艾芬地尔位点之间的变构相互作用。
An allosteric interaction between the NMDA receptor polyamine and ifenprodil sites in rat cultured cortical neurones.
作者信息
Kew J N, Kemp J A
机构信息
Pharma Division, Preclinical CNS Research, F. Hoffmann-La Roche Ltd, CH-4070 Basel, Switzerland.
出版信息
J Physiol. 1998 Oct 1;512 ( Pt 1)(Pt 1):17-28. doi: 10.1111/j.1469-7793.1998.017bf.x.
Abstract
- The atypical NR2B subunit-selective NMDA receptor antagonist ifenprodil was originally believed to act as a competitive antagonist at the polyamine binding site of the NMDA receptor. However, a number of studies have suggested that ifenprodil might bind to a distinct site. 2. Using whole-cell voltage clamp recordings, we have studied the interaction of spermine with both ifenprodil and the related NR2B selective antagonist Ro 8-4304 at the NMDA receptor in rat cultured cortical neurones in the presence of saturating concentrations of glycine. 3. Ifenprodil and Ro 8-4304 inhibited steady-state currents evoked by 100 microM NMDA in the absence of spermine with IC50 values of 0.3 and 0.6 microM, respectively. In the presence of 1 and 3 mM spermine, IC50 values for ifenprodil were 1.4 and 1.8 microM and for Ro 8-4304 they were 3. 0 and 7.5 microM, respectively. 4. In the presence of spermine, the on-time constant of receptor blockade by both antagonists was significantly slower than control and the off-time constant of recovery from receptor blockade following removal of Ro 8-4304 was significantly faster. 5. Fast application of spermine during an NMDA steady-state current in the continuous presence of a subsaturating concentration of either antagonist resulted in a biphasic increase in the current, consistent with a fast increase upon spermine binding and a slow increase resultant from dissociation of antagonist due to spermine binding-induced allosteric reduction in receptor antagonist affinity. In agreement with this, at higher, saturating concentrations of antagonist, the slow increase in current amplitude was markedly reduced or absent. 6. These observations are consistent with a non-competitive, allosteric interaction between spermine and the antagonists, such that spermine binding to the NMDA receptor results in a reduction in receptor affinity for the antagonists and vice versa. 7. The effects of Mg2+ on the NMDA-evoked currents and its interaction with ifenprodil were similar to those of spermine, supporting the suggestion that Mg2+ might be the physiological ligand acting at the spermine site mediating glycine-independent stimulation.
摘要
- 非典型NR2B亚基选择性N-甲基-D-天冬氨酸(NMDA)受体拮抗剂艾芬地尔最初被认为是在NMDA受体的多胺结合位点处作为竞争性拮抗剂发挥作用。然而,多项研究表明艾芬地尔可能结合于一个不同的位点。2. 利用全细胞电压钳记录技术,我们在存在饱和浓度甘氨酸的情况下,研究了精胺与艾芬地尔以及相关的NR2B选择性拮抗剂Ro 8-4304在大鼠培养皮层神经元的NMDA受体上的相互作用。3. 在不存在精胺时,艾芬地尔和Ro 8-4304抑制由100微摩尔/升NMDA诱发的稳态电流,其半数抑制浓度(IC50)值分别为0.3和0.6微摩尔/升。在存在1毫摩尔/升和3毫摩尔/升精胺的情况下,艾芬地尔的IC50值分别为1.4和1.8微摩尔/升,而Ro 8-4304的IC50值分别为3.0和7.5微摩尔/升。4. 在存在精胺的情况下,两种拮抗剂对受体的阻断开启时间常数显著慢于对照,并且在去除Ro 8-4304后从受体阻断恢复的关闭时间常数显著加快。5. 在持续存在亚饱和浓度的任何一种拮抗剂的情况下,在NMDA稳态电流期间快速施加精胺导致电流呈双相增加,这与精胺结合时的快速增加以及由于精胺结合诱导的受体拮抗剂亲和力变构降低导致拮抗剂解离所产生的缓慢增加相一致。与此一致的是,在较高的饱和浓度拮抗剂存在时,电流幅度的缓慢增加明显减小或不存在。6. 这些观察结果与精胺和拮抗剂之间的非竞争性、变构相互作用一致,即精胺与NMDA受体结合导致受体对拮抗剂的亲和力降低,反之亦然。7. Mg2+对NMDA诱发电流的影响及其与艾芬地尔的相互作用与精胺的相似,支持了Mg2+可能是作用于介导不依赖甘氨酸刺激的精胺位点的生理配体这一观点。
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