Pellmar T C
J Neurobiol. 1984 Jan;15(1):13-25. doi: 10.1002/neu.480150103.
In RB cells of Aplysia, serotonin, in the presence of TEA, 4AP and Ba, elicits a voltage-dependent inward current. In Ba-TEA-4AP seawater, RB cells showed a negative slope region (NSR) in their current-voltage (I-V) relationship when measured at the end of 2-s commands from a holding potential of -60 mV. Addition of serotonin to the bathing solution enhanced the NSR. When holding potential was lowered to -10 mV, the NSR as well as the effects of serotonin were greatly reduced. Addition of 20 mM cobalt to the bathing solution blocked both the NSR and the inward current produced by serotonin. Changes in potassium concentration produced no consistent shift in voltage sensitivity nor change in amplitude of the current elicited by serotonin. Intracellular injection of cesium sufficient to broaden action potentials did not block the enhancement of NSR by serotonin. These results support the conclusion that in RB cells, serotonin produces a voltage-dependent current carried by calcium ions.
在海兔的RB细胞中,血清素在TEA、4AP和Ba存在的情况下,会引发电压依赖性内向电流。在Ba-TEA-4AP海水中,当从-60 mV的钳制电位开始施加2秒指令结束时测量,RB细胞的电流-电压(I-V)关系呈现出负斜率区域(NSR)。向浴液中添加血清素会增强NSR。当钳制电位降至-10 mV时,NSR以及血清素的作用会大大降低。向浴液中添加20 mM钴会阻断NSR以及血清素产生的内向电流。钾离子浓度的变化并未使血清素引发的电流的电压敏感性产生一致的偏移,也未改变其幅度。细胞内注射足以使动作电位变宽的铯不会阻断血清素对NSR的增强作用。这些结果支持了这样的结论:在RB细胞中,血清素产生由钙离子携带的电压依赖性电流。