Intracellular pH in rat isolated superior cervical ganglia in relation to nicotine‐depolarization and nicotine‐uptake

Abstract

Summary: The intracellular pH (pH_i) of rat isolated superior cervical ganglia incubated in normal Krebs solution (pH_o = 7·37) was estimated to be 7·33 from the uptake of a weak acid, ¹⁴C‐5,5‐dimethyloxazolidine‐2,4‐dione (DMO). Addition of 30 μm nicotine for 30 min reduced the DMO‐estimated pH_i by 015 units to 7·18. This effect was prevented by hexamethonium (2·5 mm) or by depolarizing the ganglion with K⁺ (124 mm). ³H‐Nicotine (30 μm) was concentrated within the ganglia to an intracellular/extracellular concentration ratio (C_i/C_o) of 5·54 in normal Krebs solution and 4·61 in 2·5 mm hexamethonium. This would suggest an intracellular pH of 6·54 and 6·63 respectively. In ganglia previously depolarized by K⁺ the corresponding values for C_i/C_o were 402 (minus hexamethonium, estimated pH_i 6·95) and 4·17 (plus hexamethonium, estimated pH_i 6·94). A multicompartment cell interior comprising an acid cytoplasm (pH˜6·6) and more alkaline nucleus and mitochondria is proposed to explain the difference between the values of pH_i estimated from the uptake of DMO and nicotine. It is suggested that the fall in pH_i during nicotine‐depolarization results from metabolic stimulation following Na⁺ entry.