Acetylcholine suppresses calcium current in neurons of Aplysia californica.

V Brezina
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Abstract

1. The left upper quadrant neurons L2-L6 in the abdominal ganglion of Aplysia californica were voltage clamped in order to examine effects of acetylcholine on voltage-dependent Ca and Ca-dependent K currents. 2. "Puffed" application of 10-100 microM acetylcholine reduced both the early inward and late outward phases of the current elicited by depolarizing voltage steps. An identical effect of the peptide FMRFamide was previously found to result from a suppression of the Ca and Ca-dependent K currents. 3. This effect of acetylcholine was obscured by the simultaneous activation of a previously described K current resembling the "S" current. Extracellular tetraethylammonium (TEA) and 4-aminopyridine could not be used to eliminate this current, because both compounds also appeared to block the acetylcholine receptor mediating the putative suppression of Ca and Ca-dependent K currents. 4. The acetylcholine-induced "S"-like and other K currents could, however, be reduced or eliminated by injection of TEA+ or Cs+ into the cell, replacement of extracellular Ca2+ with Ba2+, and by shifting the K+ equilibrium potential so as to null K currents at the potential used to record Ca current, revealing in each case a partial (10-40%) suppression of the Ca (or Ba) current by acetylcholine. 5. The reduction of the outward phase of depolarization-activated current was confirmed to represent suppression of the Ca-dependent K current by acetylcholine. This effect was indirect, secondary to the suppression of Ca current, since acetylcholine had no effect on Ca-dependent K current elicited by direct injection of Ca2+ into the cell. 6. Activation of the "S"-like K current and suppression of the Ca current by FMRFamide are likely to be important in its proposed role as an agent of presynaptic inhibition in Aplysia. Since acetylcholine has identical effects, it too may have such a function.

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乙酰胆碱抑制加州海百合神经元钙电流。
1. 为了观察乙酰胆碱对电压依赖性钙离子电流和钙离子依赖性钾离子电流的影响,我们对加利福尼亚海杉腹神经节左上象限L2-L6神经元进行了电压箝位。2. “膨化”应用10-100微米乙酰胆碱降低了由去极化电压阶跃引起的电流的早期向内和后期向外相。先前发现肽FMRFamide的相同效果是由Ca和Ca依赖性K电流的抑制引起的。3.乙酰胆碱的这种作用被先前描述的类似于“S”电流的K电流的同时激活所掩盖。细胞外四乙基铵(TEA)和4-氨基吡啶不能用来消除这种电流,因为这两种化合物似乎也阻断了介导Ca和Ca依赖性K电流抑制的乙酰胆碱受体。4. 然而,乙酰胆碱诱导的“S”状电流和其他K电流可以通过向细胞内注射TEA+或Cs+,用Ba2+取代细胞外Ca2+,以及通过改变K+平衡电位使用于记录Ca电流的电位处的K电流为零来减少或消除,从而揭示在每种情况下乙酰胆碱对Ca(或Ba)电流的部分(10-40%)抑制。5. 去极化激活电流外相的减少被证实代表了乙酰胆碱对钙依赖的K电流的抑制。这种作用是间接的,继发于钙电流的抑制,因为乙酰胆碱对钙离子直接注入细胞引起的钙依赖性钾电流没有影响。6. FMRFamide激活“S”样K电流和抑制Ca电流可能是其作为突触前抑制剂的重要作用。由于乙酰胆碱具有相同的作用,它也可能具有这样的功能。
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