In whole-cell voltage clamped bovine adrenal chromaffin cells maintained at a holding potential of -70 mV, a single 5 ns, 5 MV/m pulse elicited an inward current carried mainly by Na+ that displayed inward rectification and a reversal potential near -3 mV, a voltage consistent with a non-selective cation current. The broad-spectrum inhibitors of transient receptor potential (TRP) channels, La3+ (10 μM), Gd3+ (10 μM), SKF-96365 (50 μM) and 2-aminoethoxydiphenyl borane (2-APB; 100 μM), inhibited the current similarly by ∼72%, ∼83%, ∼68% and ∼76%, respectively. Depleting membrane cholesterol with methyl-β-cyclodextrin (MβCD; 1-6 mg/ml) or inhibiting phosphatidylinositol 4,5-bisphosphate (PIP2) synthesis with wortmannin (20 and 40 μM) produced a similar level of inhibition on the NEP-induced conductance as the broad spectrum TRP channel inhibitors. Moreover, no additive inhibitory effect was detected by combining MβCD (3 mg/ml), wortmannin (20 μM) and La3+ (10 μM), suggesting that each agent targeted different levels of the same pathway to exert a full effect. RT-PCR experiments revealed robust expression at the mRNA level of TRPC4, TRPC5 and TRPM7 channels for which specific blockers were available. Whereas the TRPM7 blocker FTY720 had no effect, the TRPC4/5 channel inhibitor M084 (20 μM) blocked the conductance by ∼50%, indicating that TRPC4 and/or TRPC5 channel(s) may be partially involved in mediating the NEP-induced current. CP-96345 (20 μM), a specific blocker of the sodium leak current channel (NALCN), also reduced the NEP-induced current. The inhibition was ∼30% and additive to that caused by the TRPC4/5 blocker M084. RT-PCR experiments confirmed the expression of this channel at the mRNA level. Taken as a whole, these data provide evidence that a large fraction of the current evoked by a 5 ns pulse in adrenal chromaffin cells may be carried by both TRPC4/5 channels and the NALCN channel. Understanding the biophysical properties of the NEP-elicited conductance in a neural-type cell will be extremely valuable for the future development of NEP stimulation approaches for neuromodulation.
Keywords: Chromaffin cells; NALCN channel; Nanosecond electric pulses; Patch clamp; Plasma membrane; TRP channels.
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