Measurements of intracellular ionized calcium in squid giant axons using calcium-selective electrodes

Ca²⁺-selective electrodes have been used to measure free intracellular Ca²⁺ concentrations in squid giant axons. Electrodes made of glass cannulas of about 20 μm in diameter, plugged with a poly(vinyl chloride) gelled sensor were used to impale the axons axially. They showed a Nernstian response to Ca²⁺ down to about 3 μM in solutions containing 0.3 M K⁺ and 0.025 M Na⁺. Sub-Nernstian but useful responses were obtained up to pCa 8. The electrodes showed adequate selectivity to Ca²⁺ over Mg²⁺, H⁺, K⁺ and Na⁺. To calibrate them properly, a set of standard solutions were prepared using different Ca²⁺ buffers (EGTA, HEEDTA, nitrilotriacetic acid) after carefully characterizing their apparent Ca²⁺ association constants under conditions resembling the axoplasmic environment. In fresh axons incubated in artificial seawater containing 4 mM Ca²⁺, the mean resting intracellular ionized calcium concentration was 0.106 μM ($\text{n = 15}$). The Ca²⁺-electrodes were used to investigate effects of different experimental procedures on the Ca²⁺]_i. The main conclusions are: (i) intact axons can extrude calcium ions at low Ca²⁺]_i levels by a process independent of external Na⁺; (ii) poisoned axons can extrude calcium ions at high levels of Ca²⁺]_i by an external Na⁺-dependent process. The level of free intracellular Ca attained at these latter conditions is about an order to magnitude greater than the resting physiological value.