A modulatory action of divalent cations on transient outward current in cultured rat sensory neurones.

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A modulatory action of divalent cations on transient outward current in cultured rat sensory neurones.

M L Mayer and K Sugiyama

Laboratory of Developmental Neurobiology, NICHD, Bethesda, MD 20892.

1. The effects of some divalent cations on the A-current (IA)in cultured rat dorsal root ganglion cells (DRGs) were studiedusing whole-cell patch recording. 2. IA was not affected byomission of calcium from the external medium; however it wassignificantly depressed by manganese (10 mM) applied by pressureejection. This depressant effect of manganese resulted froma depolarizing shift of the activation curve by 17 mV, associatedwith only a slight reduction of the maximum conductance. At10 mM manganese also caused a depolarizing shift of the steady-stateinactivation curve by 34 mV. Divalent cations other than manganesealso gave positive shifts of the steady-state activation andinactivation curves for IA but were of different potency; thesequence was: Cd2+ greater than Mn2+ = Co2+ greater than Mg2+.3. A dose-response curve for the depolarizing shift of the activationand inactivation curves of IA, as a function of manganese concentration,could be fitted by a single binding site model with an apparentdissociation constant of approximately 17 mM. The depolarizingshift of the inactivation curve was on average twice as largeas that of the activation curve. 4. In contrast to its effecton IA, manganese (10 mM) did not cause any appreciable changein the voltage dependence of the activation curve for the delayedrectifier K+ current. 5. A low concentration of manganese (1mM) increased the amplitude of IA recorded at pre-pulse potentialsranging from -50 to -70 mV. This augmentation of IA resultedfrom a positive shift of the inactivation curve by 6 mV withoutan appreciable shift of the activation curve; as a result apopulation of A-channels is released from inactivation overpre-pulse potentials from -50 to -70 mV. 6. These results showthat divalent cations can evoke a depolarizing shift of boththe activation and inactivation gates controlling IA; this causeseither depression or augmentation of IA, depending on the speciesand concentration of the divalent cation, and also on the pre-pulse potential used to de-inactivate IA. This modulatory effectof divalent cations on the gating of IA appears to reflect bindingto a specific, saturable site, either the A-channel proteinitself, or phospholipids electrically close to the gating apparatus.

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