Qi-zhi Fang1, Ning Zhong, Yi Zhang, Zhao-nian Zhou. 1. Physiological Lab of Hypoxia, Shanghai Institute of Biological Sciences, Chinese Academy of Sciences, Shanghai 200031, China.
Abstract
AIM: To characterize the electrophysiological and kinetic properties of Ca2+-activated chloride channel (CaCC) in cultured human umbilical vein endothelial cell line (HUVEC), and test the inhibitory effects of tetrandrine (Tet) on CaCC. METHODS: Ca2+-activated Cl- currents (I(Cl,Ca)) were recorded by patch-clamp whole cell configurations. [Ca2+]i was measured via intracellular Fura-2 fluorescence intensities. RESULTS: I(Cl,Ca) was activated by increasing [Ca2+]i via direct elevation of intracellular calcium. I(Cl,Ca) showed an apparent outward rectification properties, and it was activated in a voltage- and calcium-dependent mode. Tet dose-dependently inhibited I(Cl,Ca), the IC50 was (5.2+/-0.4) micromol/L (n=8 cells). Tet suppressed both voltage-dependent and calcium-dependent activation of I(Cl,Ca). The activation time constant was (326+/-12) ms [in the presence of 10 micromol/L Tet, compared to control (175+/-17) ms, at +100 mV], and Ca2+ concentration for half maximal activation was (387+/-61) nmol/L for Tet (compared to control (287+/-36) nmol/L. CONCLUSIONS: Tet effectively blocked I(Cl,Ca), and such effects might be due to its inhibitory effects on the activation process of Ca2+-activated chloride channel.
AIM: To characterize the electrophysiological and kinetic properties of Ca2+-activated chloride channel (CaCC) in cultured human umbilical vein endothelial cell line (HUVEC), and test the inhibitory effects of tetrandrine (Tet) on CaCC. METHODS:Ca2+-activated Cl- currents (I(Cl,Ca)) were recorded by patch-clamp whole cell configurations. [Ca2+]i was measured via intracellular Fura-2 fluorescence intensities. RESULTS: I(Cl,Ca) was activated by increasing [Ca2+]i via direct elevation of intracellular calcium. I(Cl,Ca) showed an apparent outward rectification properties, and it was activated in a voltage- and calcium-dependent mode. Tet dose-dependently inhibited I(Cl,Ca), the IC50 was (5.2+/-0.4) micromol/L (n=8 cells). Tet suppressed both voltage-dependent and calcium-dependent activation of I(Cl,Ca). The activation time constant was (326+/-12) ms [in the presence of 10 micromol/L Tet, compared to control (175+/-17) ms, at +100 mV], and Ca2+ concentration for half maximal activation was (387+/-61) nmol/L for Tet (compared to control (287+/-36) nmol/L. CONCLUSIONS:Tet effectively blocked I(Cl,Ca), and such effects might be due to its inhibitory effects on the activation process of Ca2+-activated chloride channel.
Authors: Thaline F A Lima; Juliana D B Rocha; Anderson B Guimarães-Costa; José M Barbosa-Filho; Débora Decoté-Ricardo; Elvira M Saraiva; Luciana B Arruda; Marcia R Piuvezam; Ligia M T Peçanha Journal: J Immunol Res Date: 2014-06-05 Impact factor: 4.818