The Voltage Gates of Connexin Channels are Sensitive to CO2

Cx45 channel sensitivity to CO₂, transjunctional voltage (V_j) and inhibition of calmodulin (CaM) expression was tested in oocytes by dual voltage-clamp. Cx45 channels are very sensitive to V_jand close preferentially by the slow gate, likely the same as the chemical gate. With CO₂-induced drop in junctional conductance (G_j), the speed of V_j-dependent inactivation of junctional current (I_j) and V_jsensitivity increased. With 40 mV V_j, the τ of single exponential I_jdecay reversibly decreased by ～40% with CO₂, and G_{j steady state}/G_{j peak}decreased multiphasically, indicating that kinetics and V_jsensitivity of chemical/slow-V_jgating are altered by changes in H⁺]_iand/or Ca²⁺]_i. With 15 min exposure to CO₂, G_jdropped to 0% in controls and by ～17% following CaM expression inhibition; similarly, V_jsensitivity decreased significantly. This indicates that the speed and sensitivity of V_j-dependent inactivation of Cx45 channels are increased by CO₂, and that CaM plays a role in gating. Cx32 channels behaved similarly, but the drop in both G_{j steady state}/G_{j peak}and τ with CO₂matched more closely that of G_{j peak}. In contrast, sensitivity and speed of V_jgating of Cx40 and Cx26 channels decreased, rather than increased, with CO₂application.