BACKGROUND AND PURPOSE: The aim of this study was to characterize the functional impact of KCNQ1-encoded voltage-dependent potassium channels (K(v)7.1) in the vasculature. EXPERIMENTAL APPROACH: Mesenteric arteries, intrapulmonary arteries and thoracic aortae were isolated from adult rats. K(v)7.1 channel expression was established by fluorescence immunocytochemistry. Wire myography determined functionality of these channels in response to selective blockers and activators. Xenopus oocytes expressing K(v)7.1 channels were used to assess the effectiveness of selective K(v)7.1 channel blockers. KEY RESULTS: K(v)7.1 channels were identified in arterial myocytes by immunocytochemistry. K(v)7.1 blockers HMR1556, L-768,673 (10 µM) and JNJ39490282 (JNJ282; 1 µM) had no contractile effects in arteries, whereas the pan-K(v)7 channel blocker linopirdine (10 µM) evoked robust contractions. Application of two compounds purported to activate K(v)7.1 channels, L-364 373 (R-L3) and mefenamic acid, relaxed mesenteric arteries preconstricted by methoxamine. These responses were reversed by HMR1556 or L-768,673 but not JNJ282. Similar effects were observed in the thoracic aorta and intrapulmonary arteries. CONCLUSIONS AND IMPLICATIONS: In contrast to previous assumptions, K(v)7.1 channels expressed in arterial myocytes are functional ion channels. Although these channels do not appear to contribute to resting vascular tone, K(v)7.1 activators were effective vasorelaxants.
BACKGROUND AND PURPOSE: The aim of this study was to characterize the functional impact of KCNQ1-encoded voltage-dependent potassium channels (K(v)7.1) in the vasculature. EXPERIMENTAL APPROACH: Mesenteric arteries, intrapulmonary arteries and thoracic aortae were isolated from adult rats. K(v)7.1 channel expression was established by fluorescence immunocytochemistry. Wire myography determined functionality of these channels in response to selective blockers and activators. Xenopus oocytes expressing K(v)7.1 channels were used to assess the effectiveness of selective K(v)7.1 channel blockers. KEY RESULTS: K(v)7.1 channels were identified in arterial myocytes by immunocytochemistry. K(v)7.1 blockers HMR1556, L-768,673 (10 µM) and JNJ39490282 (JNJ282; 1 µM) had no contractile effects in arteries, whereas the pan-K(v)7 channel blocker linopirdine (10 µM) evoked robust contractions. Application of two compounds purported to activate K(v)7.1 channels, L-364 373 (R-L3) and mefenamic acid, relaxed mesenteric arteries preconstricted by methoxamine. These responses were reversed by HMR1556 or L-768,673 but not JNJ282. Similar effects were observed in the thoracic aorta and intrapulmonary arteries. CONCLUSIONS AND IMPLICATIONS: In contrast to previous assumptions, K(v)7.1 channels expressed in arterial myocytes are functional ion channels. Although these channels do not appear to contribute to resting vascular tone, K(v)7.1 activators were effective vasorelaxants.
Authors: Morten Grunnet; Hannne B Rasmussen; Anders Hay-Schmidt; Maiken Rosenstierne; Dan A Klaerke; Søren-Peter Olesen; Thomas Jespersen Journal: Biophys J Date: 2003-09 Impact factor: 4.033
Authors: Gema Mondéjar-Parreño; Javier Moral-Sanz; Bianca Barreira; Alicia De la Cruz; Teresa Gonzalez; Maria Callejo; Sergio Esquivel-Ruiz; Daniel Morales-Cano; Laura Moreno; Carmen Valenzuela; Francisco Perez-Vizcaino; Angel Cogolludo Journal: Br J Pharmacol Date: 2019-05-11 Impact factor: 8.739
Authors: T A Jepps; B H Bentzen; J B Stott; O V Povstyan; K Sivaloganathan; W Dalby-Brown; I A Greenwood Journal: Br J Pharmacol Date: 2014-08-14 Impact factor: 8.739
Authors: Makhala M Khammy; Sukhan Kim; Bo H Bentzen; Soojung Lee; Inyeong Choi; Christian Aalkjaer; Thomas A Jepps Journal: Br J Pharmacol Date: 2018-01-05 Impact factor: 8.739