Short-term desensitization of muscarinic K+ channel current in isolated atrial myocytes and possible role of GTP-binding proteins

Abstract

The short-term desensitization of the acetylcholine (ACh)-induced K⁺ channel current was examined in single atrial cells of guinea-pig heart. The tight-seal whole cell voltage clamp technique was used. The solution in the pipettes contained GTP or guanosine-5′-O-(3-thiotriphosphate) (GTP-γS, a non-hydrolyzable GTP analogue). In GTP-loaded cells, ACh evoked a specific K⁺ channel current via GTP-binding proteins (G) in a dose-dependent manner. The K⁺ current showed agonist-dependent desensitization similar to those reported in other cardiac tissues (Nilius 1983; Carmeliet and Mubagwa 1986). The cellular response to ACh was also desensitized by activation of P1-purinergic receptors with adenosine (Ado). In GTP-γS-loaded cells, the K⁺ current was gradually induced even in the absence of agonists, probably due to direct activation of G proteins by GTP-γS. In the early phase of the spontaneous current increase, ACh evoked a large current transiently. As the GTP-γS-induced activation of the current progressed, the magnitude of the ACh-evoked current transient became smaller and finally negligible. Similar results were obtained when Ado was used as an agonist instead of ACh to induce the K⁺ current. Therefore, it is indicated that the agonistreceptor interaction may not be essential for the desensitization of ACh-induced K⁺ current in atrial myocytes.