Trussell L O, Thio L L, Zorumski C F, Fischbach G D
Department of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis, MO 63110.
Proc Natl Acad Sci U S A. 1988 Apr;85(8):2834-8. doi: 10.1073/pnas.85.8.2834.
We have examined glutamate receptor desensitization in voltage-clamped embryonic chicken spinal cord neurons and postnatal rat hippocampal neurons maintained in culture. Rapid currents that rose in 0.8-3.6 msec were evoked when glutamate was ionophoresed with 0.5- to 1.0-msec pulses. With prolonged pulses or brief, repetitive pulses, glutamate-evoked currents decayed rapidly in a manner that was independent of holding potential. A similar desensitization occurred following close-range pressure ejection of glutamate. The rapid, desensitizing glutamate current exhibited a linear current-voltage relation and it was not blocked by 2-amino-5-phosphonovalerate, suggesting that it was mediated by N-methyl-D-aspartate-insensitive (G2) receptors. Desensitization of G2 receptors may be agonist-dependent: currents evoked by kainate, a selective G2 agonist, did not decay, whereas prior application of glutamate did reduce the size of kainate responses. The appearance of the rapid current depended critically on the position of the ionophoretic pipette. Such glutamate-receptor "hot spots" often corresponded to points of contact with neighboring neurites, which raises the possibility that they are located at synapses.
我们研究了培养的电压钳制的胚胎鸡脊髓神经元和新生大鼠海马神经元中的谷氨酸受体脱敏现象。当用0.5至1.0毫秒的脉冲对谷氨酸进行离子电泳时,会诱发在0.8至3.6毫秒内上升的快速电流。通过延长脉冲或短暂的重复脉冲,谷氨酸诱发的电流以与保持电位无关的方式迅速衰减。在近距离压力喷射谷氨酸后也会发生类似的脱敏现象。快速脱敏的谷氨酸电流呈现线性电流-电压关系,并且不受2-氨基-5-磷酸戊酸的阻断,这表明它是由对N-甲基-D-天冬氨酸不敏感(G2)的受体介导的。G2受体的脱敏可能依赖于激动剂:由选择性G2激动剂海人酸诱发的电流不会衰减,而预先应用谷氨酸确实会减小海人酸反应的大小。快速电流的出现关键取决于离子电泳移液管的位置。这种谷氨酸受体“热点”通常对应于与相邻神经突接触的点,这增加了它们位于突触处的可能性。
