Blaustein M P, Russell J M
J Membr Biol. 1975 Jul 24;22(3-4):285-312. doi: 10.1007/BF01868176.
The influx and efflux of calcium (as 45Ca) and influx of sodium (as 24Na) were studied in internally dialyzed squid giant axons. The axons were poisoned with cyanide and ATP was omitted from the dialysis fluid. The internal ionized Ca2+ concentration ([Ca2+]i) was controlled with Ca-EGTA buffers. With [Ca2+]i greater than 0.5 muM, 45Ca efflux was largely dependent upon external Na and Ca. The Nao-dependent Ca efflux into Ca-free media appeared to saturate as [Ca2+]i was increased to 160 muM; the half-saturation concentration was about 8 muM Ca2+. In two experiments 24Na influx was measured; when [Ca2+]i was decreased from 160 muM to less than 0.5 muM, Na influx declined by about 5 pmoles/cm2 sec. The Nao-dependent Ca efflux averaged 1.6 pmoles/cm2 sec in axons with a [Ca2+]i of 160 muM, and was negligible in axons with a [Ca2+]i of less than 0.5 muM. Taken together, the Na influx and Ca efflux data may indicate that the fluxes are coupled with a stoichiometry of about 3 Na+-to-1 Ca2+. Ca efflux into Na-free media required the presence of both Ca and an alkali metal ion (but not Cs) in the external medium. Ca influx from Li-containing media was greatly reduced when [Ca2+]i was decreased from 160 to 0.23 muM, or when external Li was replaced by choline. These data provide evidence for a Ca-Ca exchange mechanism which is activated by certain alkali metal ions. The observations are consistent with a mobile carrier mechanism which can exchange Ca2+ ions from the axoplasm for either 3 Na+ ions, or one Ca2+ and an alkali metal ion (but not Cs) from the external medium. This mechanism may utilize energy from the Na electrochemical gradient to help extrude Ca against an electrochemical gradient.
在内部透析的枪乌贼巨轴突中研究了钙(以(^{45}Ca)形式)的流入和流出以及钠(以(^{24}Na)形式)的流入。轴突用氰化物中毒,透析液中省略了ATP。内部游离(Ca^{2 +})浓度(([Ca^{2 +}]_i))用Ca - EGTA缓冲液控制。当([Ca^{2 +}]_i)大于(0.5)μM时,(^{45}Ca)流出很大程度上依赖于外部的钠和钙。当([Ca^{2 +}]_i)增加到(160)μM时,无钙培养基中依赖于(Na_o)的钙流出似乎达到饱和;半饱和浓度约为(8)μM (Ca^{2 +})。在两个实验中测量了(^{24}Na)流入;当([Ca^{2 +}]_i)从(160)μM降至小于(0.5)μM时,钠流入下降约(5)皮摩尔/平方厘米·秒。在([Ca^{2 +}]_i)为(160)μM的轴突中,依赖于(Na_o)的钙流出平均为(1.6)皮摩尔/平方厘米·秒,而在([Ca^{2 +}]_i)小于(0.5)μM的轴突中可忽略不计。综合来看,钠流入和钙流出数据可能表明,通量以约(3)个(Na^+)对(1)个(Ca^{2 +})的化学计量比耦合。钙流入无钠培养基需要外部培养基中同时存在钙和碱金属离子(但不是铯)。当([Ca^{2 +}]_i)从(160)降至(0.23)μM,或外部锂被胆碱取代时,来自含锂培养基的钙流入大大减少。这些数据为一种由某些碱金属离子激活的钙 - 钙交换机制提供了证据。这些观察结果与一种可移动载体机制一致,该机制可以将轴浆中的(Ca^{2 +})离子与外部培养基中的(3)个(Na^+)离子或一个(Ca^{2 +})和一个碱金属离子(但不是铯)进行交换。这种机制可能利用钠电化学梯度的能量来帮助逆电化学梯度排出钙。
