Functional and molecular consequences of ionizing irradiation on large conductance Ca2+-activated K+ channels in rat aortic smooth muscle cells

AimsThe goal of this study was to evaluate the influence of γ-irradiation on Ca²⁺-activated K⁺ channel (BK_Ca) function and expression in rat thoracic aorta.Main methodsAortic cells or tissues were studied by the measurement of force versus [Ca²⁺]_i, patch-clamp technique, and RT-PCR.Key findingsStimulation of smooth muscle cells with depolarizing voltage steps showed expression of outward K⁺ currents. Paxilline, an inhibitor of BK_Ca channels, decreased outward K⁺ current density. Outward currents in smooth muscle cells obtained from irradiated animals 9 and 30 days following radiation exposure demonstrated a significant decrease in K⁺ current density. Paxilline decreased K⁺ current in cells obtained 9 days, but was without effect 30 days after irradiation suggesting the absence of BK_Ca channels. Aortic tissue from irradiated animals showed progressively enhanced contractile responses to phenylephrine in the post-irradiation period of 9 and 30 days. The concomitant Ca²⁺ transients were significantly smaller, as compared to tissues from control animals, 9 days following irradiation but were increased above control levels 30 days following irradiation. Irradiation produced a decrease in BK_Ca α- and β₁-subunit mRNA levels in aortic smooth muscle cells suggesting that the vasorelaxant effect of these channels may be diminished.SignificanceThese results suggest that the enhanced contractility of vascular tissue from animals exposed to radiation may result from an increase in myofilament Ca²⁺ sensitivity in the early post-irradiation period and a decrease in BK_Ca channel expression in the late post-irradiation period.