Intrinsic lidocaine affinity for Na channels expressed in Xenopus oocytes depends on alpha (hH1 vs. rSkM1) and beta 1 subunits.

OBJECTIVE: The affinity of lidocaine for the alpha-subunit of the Na channel has been reported to be greater for heart than for non-heart alpha-subunits, and also to be no different. Lidocaine block has a complex voltage dependence caused by a higher affinity for the inactivated state over the resting state. Inactivation kinetics, however, depend upon the alpha-subunit isoform and the presence of the auxiliary beta 1-subunit and will affect measures of block.
METHODS: We studied the voltage dependence of lidocaine block of Na currents by a two microelectrode voltage clamp in oocytes injected with RNA for the Na channel alpha-subunits of human heart (hH1a) or a rat skeletal muscle (rSkM1) alone, or coexpressed with the beta 1-subunit.
RESULTS: The midpoints of availability for a 25-s conditioning potential in control solutions were -65 mV for rSkM1, -50 for rSkM1 + beta 1, -78 mV for hH1a and -76 for hH1a + beta 1. The Kd of tonic lidocaine block was measured at -90, -100, -110, -120 and -130 mV in the same oocytes. The apparent Kd for both isoforms +/- beta 1 became greater with more negative holding potentials, but tended to reach different plateaus at -130 mV (Kd = 2128 microM for rSkM1, 1760 microM for rSkM1 + beta 1, 433 for hH1a, and 887 microM for hH1a + beta 1). Inactivated state affinities, assessed by fitting the shift in the Boltzmann midpoint of the availability relationship to the modulated receptor model, were 4 microM for rSkM1, 1 microM for rSkM1 + beta 1, 7 microM for hH1a and 9 microM for hH1a + beta 1.
CONCLUSION: The heart Na channel alpha-subunits expressed in oocytes have an intrinsically higher rest state affinity for lidocaine compared to rSkM1 after the voltage- and state dependence of block are considered. Coexpression with beta 1 modestly increased the rest affinity of lidocaine for rSkM1, but had the opposite effect for hH1a.