Molecular expression and pharmacological identification of a role for K(v)7 channels in murine vascular reactivity

This study represents a novel characterisation of KCNQ-encoded potassium channels in the vasculature using a variety of pharmacological and molecular tools to determine their role in contractility. Reverse transcriptase polymerase chain reaction (RT-PCR) experiments were undertaken on RNA isolated f...

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Veröffentlicht in:	British journal of pharmacology 2007-07, Vol.151 (6), p.758-770
Hauptverfasser:	Yeung, S Y M, Pucovský, V, Moffatt, J D, Saldanha, L, Schwake, M, Ohya, S, Greenwood, I A
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Sprache:	eng
Schlagworte:	Aminopyridines - pharmacology Animals Anthracenes - pharmacology Carbamates - administration & dosage Carbamates - pharmacology Dose-Response Relationship, Drug Gene Expression Profiling Immunohistochemistry Indoles - administration & dosage Indoles - pharmacology Isometric Contraction KCNQ Potassium Channels - metabolism KCNQ1 Potassium Channel - metabolism Meclofenamic Acid - pharmacology Mice Mice, Inbred BALB C Muscle, Smooth, Vascular - drug effects Muscle, Smooth, Vascular - physiology Myocytes, Smooth Muscle - metabolism Phenylenediamines - administration & dosage Phenylenediamines - pharmacology Potassium Channel Blockers - pharmacology Potassium Channels - agonists Pyridines - administration & dosage Pyridines - pharmacology Reverse Transcriptase Polymerase Chain Reaction RNA - metabolism
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container_title	British journal of pharmacology
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creator	Yeung, S Y M Pucovský, V Moffatt, J D Saldanha, L Schwake, M Ohya, S Greenwood, I A
description	This study represents a novel characterisation of KCNQ-encoded potassium channels in the vasculature using a variety of pharmacological and molecular tools to determine their role in contractility. Reverse transcriptase polymerase chain reaction (RT-PCR) experiments were undertaken on RNA isolated from mouse aorta, carotid artery, femoral artery and mesenteric artery using primers specific for all known KCNQ genes. RNA isolated from mouse heart and brain were used as positive controls. Pharmacological experiments were undertaken on segments from the same blood vessels to determine channel functionality. Immunocytochemical experiments were performed on isolated myocytes from thoracic aorta. All blood vessels expressed KCNQ1, 4 and 5 with hitherto 'neuronal' KCNQ4 being, surprisingly, the most abundant. The correlated proteins K(v)7.1, K(v)7.4 and K(v)7.5 were identified in the cell membranes of aortic myocytes by immunocytochemistry. Application of three compounds known to activate K(v)7 channels, retigabine (2 -20 microM), flupirtine (20 microM) and meclofenamic acid (20 microM), relaxed vessels precontracted by phenylephrine or 1 mM 4-aminopyridine but had no effect on contractions produced by 60 mM KCl or the K(v)7 channel blocker XE991 (10 microM). All vessels tested contracted upon application of the K(v)7 channel blockers XE991 and linopirdine (0.1-10 microM). Murine blood vessels exhibit a distinctive KCNQ expression profile with 'neuronal' KCNQ4 dominating. The ion channels encoded by KCNQ genes have a crucial role in defining vascular reactivity as K(v)7 channel blockers produced marked contractions whereas K(v)7 channel activators were effective vasorelaxants.
doi_str_mv	10.1038/sj.bjp.0707284
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Reverse transcriptase polymerase chain reaction (RT-PCR) experiments were undertaken on RNA isolated from mouse aorta, carotid artery, femoral artery and mesenteric artery using primers specific for all known KCNQ genes. RNA isolated from mouse heart and brain were used as positive controls. Pharmacological experiments were undertaken on segments from the same blood vessels to determine channel functionality. Immunocytochemical experiments were performed on isolated myocytes from thoracic aorta. All blood vessels expressed KCNQ1, 4 and 5 with hitherto 'neuronal' KCNQ4 being, surprisingly, the most abundant. The correlated proteins K(v)7.1, K(v)7.4 and K(v)7.5 were identified in the cell membranes of aortic myocytes by immunocytochemistry. Application of three compounds known to activate K(v)7 channels, retigabine (2 -20 microM), flupirtine (20 microM) and meclofenamic acid (20 microM), relaxed vessels precontracted by phenylephrine or 1 mM 4-aminopyridine but had no effect on contractions produced by 60 mM KCl or the K(v)7 channel blocker XE991 (10 microM). All vessels tested contracted upon application of the K(v)7 channel blockers XE991 and linopirdine (0.1-10 microM). Murine blood vessels exhibit a distinctive KCNQ expression profile with 'neuronal' KCNQ4 dominating. 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Reverse transcriptase polymerase chain reaction (RT-PCR) experiments were undertaken on RNA isolated from mouse aorta, carotid artery, femoral artery and mesenteric artery using primers specific for all known KCNQ genes. RNA isolated from mouse heart and brain were used as positive controls. Pharmacological experiments were undertaken on segments from the same blood vessels to determine channel functionality. Immunocytochemical experiments were performed on isolated myocytes from thoracic aorta. All blood vessels expressed KCNQ1, 4 and 5 with hitherto 'neuronal' KCNQ4 being, surprisingly, the most abundant. The correlated proteins K(v)7.1, K(v)7.4 and K(v)7.5 were identified in the cell membranes of aortic myocytes by immunocytochemistry. Application of three compounds known to activate K(v)7 channels, retigabine (2 -20 microM), flupirtine (20 microM) and meclofenamic acid (20 microM), relaxed vessels precontracted by phenylephrine or 1 mM 4-aminopyridine but had no effect on contractions produced by 60 mM KCl or the K(v)7 channel blocker XE991 (10 microM). All vessels tested contracted upon application of the K(v)7 channel blockers XE991 and linopirdine (0.1-10 microM). Murine blood vessels exhibit a distinctive KCNQ expression profile with 'neuronal' KCNQ4 dominating. The ion channels encoded by KCNQ genes have a crucial role in defining vascular reactivity as K(v)7 channel blockers produced marked contractions whereas K(v)7 channel activators were effective vasorelaxants.</description><subject>Aminopyridines - pharmacology</subject><subject>Animals</subject><subject>Anthracenes - pharmacology</subject><subject>Carbamates - administration & dosage</subject><subject>Carbamates - pharmacology</subject><subject>Dose-Response Relationship, Drug</subject><subject>Gene Expression Profiling</subject><subject>Immunohistochemistry</subject><subject>Indoles - administration & dosage</subject><subject>Indoles - pharmacology</subject><subject>Isometric Contraction</subject><subject>KCNQ Potassium Channels - metabolism</subject><subject>KCNQ1 Potassium Channel - metabolism</subject><subject>Meclofenamic Acid - pharmacology</subject><subject>Mice</subject><subject>Mice, Inbred BALB C</subject><subject>Muscle, Smooth, Vascular - drug effects</subject><subject>Muscle, Smooth, Vascular - physiology</subject><subject>Myocytes, Smooth Muscle - metabolism</subject><subject>Phenylenediamines - administration & dosage</subject><subject>Phenylenediamines - pharmacology</subject><subject>Potassium Channel Blockers - pharmacology</subject><subject>Potassium Channels - agonists</subject><subject>Pyridines - administration & dosage</subject><subject>Pyridines - pharmacology</subject><subject>Reverse Transcriptase Polymerase Chain Reaction</subject><subject>RNA - metabolism</subject><issn>0007-1188</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNo1kDtPwzAYRT2AaCmsjMgTgiHlcxLbyYgqXqKIBebIT-rKiYOdVPTfE0SZ7h3OPcNF6ILAkkBR3abtUm77JXDgeVUeoTkA8IyQqpqh05S2AKTknJ6gGeGU1DWFOYqvwRs1ehGx-e6jScmFDotO434jYitU8OHTKeGx06YbnJ368IsEiwWO0xjbEPHL9e6GY7URXWd8wq7D7RhdZ_BOpD97NEINbueG_Rk6tsInc37IBfp4uH9fPWXrt8fn1d0660lRDxnjJSsqRai22nIJjJYFAcMg15pxLpnMJdhKg7K1KRgjlFYga1C5pqyWoligqz9vH8PXaNLQtC4p473oTBhTM91ESqjJBF4ewFG2Rjd9dK2I--b_peIHzz9peg</recordid><startdate>200707</startdate><enddate>200707</enddate><creator>Yeung, S Y M</creator><creator>Pucovský, V</creator><creator>Moffatt, J D</creator><creator>Saldanha, L</creator><creator>Schwake, M</creator><creator>Ohya, S</creator><creator>Greenwood, I A</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7X8</scope></search><sort><creationdate>200707</creationdate><title>Molecular expression and pharmacological identification of a role for K(v)7 channels in murine vascular reactivity</title><author>Yeung, S Y M ; Pucovský, V ; Moffatt, J D ; Saldanha, L ; Schwake, M ; Ohya, S ; Greenwood, I A</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p139t-674638c15dfdf7b0654310e602dd677b6b2b0f8d0cf9e36615580b90c2d569ba3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2007</creationdate><topic>Aminopyridines - pharmacology</topic><topic>Animals</topic><topic>Anthracenes - pharmacology</topic><topic>Carbamates - administration & dosage</topic><topic>Carbamates - pharmacology</topic><topic>Dose-Response Relationship, Drug</topic><topic>Gene Expression Profiling</topic><topic>Immunohistochemistry</topic><topic>Indoles - administration & dosage</topic><topic>Indoles - pharmacology</topic><topic>Isometric Contraction</topic><topic>KCNQ Potassium Channels - metabolism</topic><topic>KCNQ1 Potassium Channel - metabolism</topic><topic>Meclofenamic Acid - pharmacology</topic><topic>Mice</topic><topic>Mice, Inbred BALB C</topic><topic>Muscle, Smooth, Vascular - drug effects</topic><topic>Muscle, Smooth, Vascular - physiology</topic><topic>Myocytes, Smooth Muscle - metabolism</topic><topic>Phenylenediamines - administration & dosage</topic><topic>Phenylenediamines - pharmacology</topic><topic>Potassium Channel Blockers - pharmacology</topic><topic>Potassium Channels - agonists</topic><topic>Pyridines - administration & dosage</topic><topic>Pyridines - pharmacology</topic><topic>Reverse Transcriptase Polymerase Chain Reaction</topic><topic>RNA - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Yeung, S Y M</creatorcontrib><creatorcontrib>Pucovský, V</creatorcontrib><creatorcontrib>Moffatt, J D</creatorcontrib><creatorcontrib>Saldanha, L</creatorcontrib><creatorcontrib>Schwake, M</creatorcontrib><creatorcontrib>Ohya, S</creatorcontrib><creatorcontrib>Greenwood, I A</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>MEDLINE - Academic</collection><jtitle>British journal of pharmacology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Yeung, S Y M</au><au>Pucovský, V</au><au>Moffatt, J D</au><au>Saldanha, L</au><au>Schwake, M</au><au>Ohya, S</au><au>Greenwood, I A</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Molecular expression and pharmacological identification of a role for K(v)7 channels in murine vascular reactivity</atitle><jtitle>British journal of pharmacology</jtitle><addtitle>Br J Pharmacol</addtitle><date>2007-07</date><risdate>2007</risdate><volume>151</volume><issue>6</issue><spage>758</spage><epage>770</epage><pages>758-770</pages><issn>0007-1188</issn><abstract>This study represents a novel characterisation of KCNQ-encoded potassium channels in the vasculature using a variety of pharmacological and molecular tools to determine their role in contractility. Reverse transcriptase polymerase chain reaction (RT-PCR) experiments were undertaken on RNA isolated from mouse aorta, carotid artery, femoral artery and mesenteric artery using primers specific for all known KCNQ genes. RNA isolated from mouse heart and brain were used as positive controls. Pharmacological experiments were undertaken on segments from the same blood vessels to determine channel functionality. Immunocytochemical experiments were performed on isolated myocytes from thoracic aorta. All blood vessels expressed KCNQ1, 4 and 5 with hitherto 'neuronal' KCNQ4 being, surprisingly, the most abundant. The correlated proteins K(v)7.1, K(v)7.4 and K(v)7.5 were identified in the cell membranes of aortic myocytes by immunocytochemistry. Application of three compounds known to activate K(v)7 channels, retigabine (2 -20 microM), flupirtine (20 microM) and meclofenamic acid (20 microM), relaxed vessels precontracted by phenylephrine or 1 mM 4-aminopyridine but had no effect on contractions produced by 60 mM KCl or the K(v)7 channel blocker XE991 (10 microM). All vessels tested contracted upon application of the K(v)7 channel blockers XE991 and linopirdine (0.1-10 microM). Murine blood vessels exhibit a distinctive KCNQ expression profile with 'neuronal' KCNQ4 dominating. The ion channels encoded by KCNQ genes have a crucial role in defining vascular reactivity as K(v)7 channel blockers produced marked contractions whereas K(v)7 channel activators were effective vasorelaxants.</abstract><cop>England</cop><pmid>17519950</pmid><doi>10.1038/sj.bjp.0707284</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aminopyridines - pharmacology Animals Anthracenes - pharmacology Carbamates - administration & dosage Carbamates - pharmacology Dose-Response Relationship, Drug Gene Expression Profiling Immunohistochemistry Indoles - administration & dosage Indoles - pharmacology Isometric Contraction KCNQ Potassium Channels - metabolism KCNQ1 Potassium Channel - metabolism Meclofenamic Acid - pharmacology Mice Mice, Inbred BALB C Muscle, Smooth, Vascular - drug effects Muscle, Smooth, Vascular - physiology Myocytes, Smooth Muscle - metabolism Phenylenediamines - administration & dosage Phenylenediamines - pharmacology Potassium Channel Blockers - pharmacology Potassium Channels - agonists Pyridines - administration & dosage Pyridines - pharmacology Reverse Transcriptase Polymerase Chain Reaction RNA - metabolism
title	Molecular expression and pharmacological identification of a role for K(v)7 channels in murine vascular reactivity
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