Inhibition of the muscarinic receptor-activated K+ current by N-ethylmaleimide in rabbit heart

Abstract

The effects of N-ethylmaleimide (NEM), a sulfhydryl alkylating agent, on the ACh-activated K+ current were examined in single cells from rabbit hearts using whole-cell and single channel patch clamp techniques. Bath application of NEM (50 microM) or the muscarinic antagonist, atropine (1 microM) completely inhibited the ACh-activated K+ current in whole-cell recordings. In cell-attached patch conditions, the inhibitory effect of NEM was still observed; in contrast, atropine was ineffective when the agents were bath applied, indicating that the site of action of NEM is different from that of atropine. Inside-out patch recordings confirmed that GTP was required on the internal side of the membrane for activation of this K+ channel when ACh was present in the pipette. NEM abolished this GTP-activated K+ channel activity. GTP gamma S, a non-hydrolysable GTP analogue, was able to activate this K+ channel in the absence of a muscarinic agonist, an effect thought to be due to the direct activation of GTP-binding proteins. Pretreatment with NEM almost completely prevented this effect of GTP gamma S. In contrast, after the activation of the K+ channel by GTP gamma S had reached a steady-state, NEM failed to show a significant inhibitory effect. These results demonstrate that NEM prevents the activation of muscarinic receptor-regulated K+ channel and suggest an involvement of alkylation of the GTP-binding proteins which are coupled to this type of K+ channel.