Pharmacological and molecular evidence for the involvement of K_v4.3 in ultra‐fast activating K⁺ currents in murine portal vein myocytes

Background and purpose:

The aim of this study was to determine the molecular identity of a transient K⁺ current (termed I_UF) in mouse portal vein myocytes using pharmacological and molecular tools.

Experimental approach:

Whole cell currents were recorded using the ruptured patch con from either acutely dispersed single smooth muscle cells from the murine portal vein or human embryonic kidney cells. Reverse transcriptase polymerase reaction (RT‐PCR) experiments were undertaken on RNA isolated from mouse portal vein using primers specific for various voltage‐dependent K⁺ channels, auxillary subunits and calcium‐binding proteins. Immunocytochemistry was undertaken using an antibody specific for K_v4.3.

Key results:

I_UF had a mean amplitude at +40 mV of 558±50 pA (n=32) with a mean time to peak at +40 mV of ∼4 ms. I_UF activated and inactivated with a half maximal voltage of ‐12±2 mV and ‐85±2 mV, respectively. I_UF was relatively resistant to 4‐aminopyridine (5 mM produced 30±6 % block at +20 mV) but was inhibited effectively by flecainide (IC₅₀ value was 100nM) and phrixotoxin II. This pharmacological profile is consistent with I_UF being comprised of K_v4.x proteins and this is supported by the results from the quantitative PCR and immunocytochemical experiments.

Conclusions and implications:

These data represent a rigorous investigation of the molecular basis of vascular transient K⁺ currents and implicates K_v4.3 as a major component of the channel complex.

DOI: 10.1038/sj.bjp.0706903

View this article

• Full article (html)
• Enhanced article (html)
• PDF
• References