BACKGROUND AND PURPOSE: Oestrogens can interact directly with membrane receptors and channels and can activate vascular BK(Ca) channels. We hypothesized that novel oestrogen derivatives could relax smooth muscle by an extracllular effect on the α and β1 subunits of the BK(Ca) channel, rather than at an intracellular site. EXPERIMENTAL APPROACH: We studied the effects of novel oestrogens on the tension of pre-contracted isolated rat aortic rings, and on the electrophysiological properties of HEK 293 cells expressing the hSloα or hSloα+β1 subunits. Two of the derivatives incorporated a quaternary ammonium side-chain making them membrane impermeable. KEY RESULTS: Oestrone, oestrone oxime and Quat DME-oestradiol relaxed pre-contracted rat aorta, but only Quat DME-oestradiol-induced relaxation was iberiotoxin sensitive. However, only potassium currents recorded in HEK 293 cells over-expressing both hSloα and hSloβ1 were activated by oestrone, oestrone oxime and Quat DME-oestradiol. CONCLUSION AND IMPLICATIONS: The novel oestrogens were able to relax smooth muscle, but through different mechanisms. In particular, oestrone oxime required the presence of the endothelium to exert much of its effect, whilst Quat DME-oestradiol depended both on NO and BK(Ca) channel activation. The activation of BK(Ca) currents in HEK 293 cells expressing hSloα+β1 by Quat DME-oestradiol is consistent with an extracellular binding site between the two subunits. The binding site resides between the extracellular N terminal of the α subunit and the extracellular loop between TM1 and 2 of the β1 subunit. Membrane-impermeant Quat DME-oestradiol lacks an exchangeable hydrogen on the A ring obviating antioxidant activity.
BACKGROUND AND PURPOSE: Oestrogens can interact directly with membrane receptors and channels and can activate vascular BK(Ca) channels. We hypothesized that novel oestrogen derivatives could relax smooth muscle by an extracllular effect on the α and β1 subunits of the BK(Ca) channel, rather than at an intracellular site. EXPERIMENTAL APPROACH: We studied the effects of novel oestrogens on the tension of pre-contracted isolated rat aortic rings, and on the electrophysiological properties of HEK 293 cells expressing the hSloα or hSloα+β1 subunits. Two of the derivatives incorporated a quaternary ammonium side-chain making them membrane impermeable. KEY RESULTS:Oestrone, oestrone oxime and QuatDME-oestradiol relaxed pre-contracted rat aorta, but only QuatDME-oestradiol-induced relaxation was iberiotoxin sensitive. However, only potassium currents recorded in HEK 293 cells over-expressing both hSloα and hSloβ1 were activated by oestrone, oestrone oxime and QuatDME-oestradiol. CONCLUSION AND IMPLICATIONS: The novel oestrogens were able to relax smooth muscle, but through different mechanisms. In particular, oestrone oxime required the presence of the endothelium to exert much of its effect, whilst QuatDME-oestradiol depended both on NO and BK(Ca) channel activation. The activation of BK(Ca) currents in HEK 293 cells expressing hSloα+β1 by QuatDME-oestradiol is consistent with an extracellular binding site between the two subunits. The binding site resides between the extracellular N terminal of the α subunit and the extracellular loop between TM1 and 2 of the β1 subunit. Membrane-impermeant QuatDME-oestradiol lacks an exchangeable hydrogen on the A ring obviating antioxidant activity.
Authors: M P Haynes; D Sinha; K S Russell; M Collinge; D Fulton; M Morales-Ruiz; W C Sessa; J R Bender Journal: Circ Res Date: 2000-10-13 Impact factor: 17.367
Authors: S Plüger; J Faulhaber; M Fürstenau; M Löhn; R Waldschütz; M Gollasch; H Haller; F C Luft; H Ehmke; O Pongs Journal: Circ Res Date: 2000-11-24 Impact factor: 17.367
Authors: R Brenner; G J Peréz; A D Bonev; D M Eckman; J C Kosek; S W Wiler; A J Patterson; M T Nelson; R W Aldrich Journal: Nature Date: 2000-10-19 Impact factor: 49.962
Authors: M A Valverde; P Rojas; J Amigo; D Cosmelli; P Orio; M I Bahamonde; G E Mann; C Vergara; R Latorre Journal: Science Date: 1999-09-17 Impact factor: 47.728