Participation of<i>KCNQ</i>(Kv7) potassium channels in myogenic control of cerebral arterial diameter

Zhong, Xi; Harhun, Maksym I.; Olesen, Søren‐Peter; Ohya, Susumu; Moffatt, James D.; Cole, William C.; Greenwood, Iain A.

doi:10.1113/jphysiol.2010.192823

Cited by 119 publications

(168 citation statements)

References 58 publications

(137 reference statements)

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“…They have been successfully used to identify specific roles of KCNQ channels in the circulatory system. 30,37 Of note, XE991 has been reported to reduce currents carried by heteromeric K v 1.2/K v 1.5 channels in HEK293 cells, 38 which have been suggested to be predominantly expressed in rat cerebral artery smooth muscle cells. 39 In contrast, our real-time PCR analysis of rat Gracilis muscle arteries 39,40 In addition, the anticontractile effect of perivascular fat was also not influenced by blockers targeting other non-K v -type K + channels expressed in vascular smooth muscle cells.…”

Section: Discussionmentioning

confidence: 99%

Role of KCNQ Channels in Skeletal Muscle Arteries and Periadventitial Vascular Dysfunction

et al. 2013

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KCNQ channels have been identified in arterial smooth muscle. However, their role in vasoregulation and chronic vascular diseases remains elusive. We tested the hypothesis that KCNQ channels contribute to periadventitial vasoregulation in peripheral skeletal muscle arteries by perivascular adipose tissue and that they represent novel targets to rescue periadventitial vascular dysfunction. Two models, spontaneously hypertensive rats and New Zealand obese mice, were studied using quantitative polymerase chain reaction, the patch-clamp technique, membrane potential measurements, myography of isolated vessels, and blood pressure telemetry. In rat Gracilis muscle arteries, anticontractile effects of perivascular fat were inhibited by the KCNQ channel blockers XE991 and linopirdine but not by other selective K + channel inhibitors. Accordingly, XE991 and linopirdine blocked noninactivating K + currents in freshly isolated Gracilis artery smooth muscle cells. mRNAs of several KCNQ channel subtypes were detected in those arteries, with KCNQ4 channels being dominant. In spontaneously hypertensive rats, the anticontractile effect of perivascular fat in Gracilis muscle arteries was largely reduced compared with Wistar rats. However, the vasodilator effects of KCNQ channel openers and mRNA expression of KCNQ channels were normal. Furthermore, KCNQ channel openers restored the diminished anticontractile effects of perivascular fat in spontaneously hypertensive rats. Moreover, KCNQ channel openers reduced arterial blood pressure in both models of hypertension independent of ganglionic blockade. Thus, our data suggest that KCNQ channels play a pivotal role in periadventitial vasoregulation of peripheral skeletal muscle arteries, and KCNQ channel opening may be an effective mechanism to improve impaired periadventitial vasoregulation and associated hypertension.

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Section: Discussionmentioning

confidence: 99%

Role of KCNQ Channels in Skeletal Muscle Arteries and Periadventitial Vascular Dysfunction

et al. 2013

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“…39 -41 The importance of K V 7 channels to vascular reactivity has also been repeatedly demonstrated. 18,20 Immunohistochemistry data also provide some insight into the potential impact of altered K V 7 channel composition. The distribution of KCNQ3 and KCNE5 protein was not as localized to vascular regions as might be expected.…”

Section: Discussionmentioning

confidence: 99%

Novel Expression and Regulation of Voltage-Dependent Potassium Channels in Placentas From Women With Preeclampsia

et al. 2011

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Abstract-Preeclampsia is associated with structural/functional alterations in placental and maternal vasculature.Voltage-dependant potassium channels encoded by KCNQ1-5 genes have been detected in several types of blood vessels where they promote vascular relaxation. Voltage-dependant potassium channel function can be modulated by KCNE1-5-encoded accessory proteins. The aim of this study was to determine whether KCNQ and KCNE genes are differentially expressed in placentas from women with preeclampsia compared with normotensive controls and to examine any differences in those who delivered preterm (Ͻ37 weeks) or term. Key Words: potassium channel Ⅲ placenta Ⅲ preeclampsia Ⅲ KCNQ Ⅲ KCNE P reeclampsia is a pregnancy-specific condition affecting 2% to 7% of women and is associated with maternal multiorgan dysfunction. 1 This disorder, which is responsible for Ϸ60 000 maternal deaths each year worldwide, 2 increases perinatal mortality 5-fold 3 and is commonly associated with preterm delivery and fetal growth restriction. 4 Women who develop preeclampsia and their infants are at increased risk of hypertension, metabolic disorders, cardiovascular disease, and cardiovascular death in later life. 5,6 The pathophysiology underpinning the disorder is complex. Impaired placentation almost certainly plays a part. Placental and maternal oxidative stress and generalized systemic inflammatory activation 7 are main components of the syndrome. 8 Altered maternal and placental vascular reactivity and endothelial cell function have been implicated in the clinical manifestations of preeclampsia, for example, an increase in total peripheral vascular resistance, 9,10 hypertension, and altered hemodynamics.There is emerging evidence to suggest that potassium channels play important roles in the feto-placental vasculature. 11-15 Specifically, it is proposed that suppression of voltage-dependant potassium channel function may increase vascular tone and, hence, be a mechanism affecting perfusion in placentas from women with preeclampsia.The subfamilies of voltage-gated K V 7 channels (potassium channel complexes encoded by KCNQ1-5 and KCNE1-5 genes) are of particular interest, because preliminary data indicate the presence of functional K V 7 channels in human chorionic plate arteries. 15 K V 7 channel activity is generally associated with outwardly rectifying, voltage-dependent K ϩ

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“…Nonetheless, it was surprising that prolonged infusion with XE-991 or linopirdine (K V 7 blockers) to the isolated hearts only resulted in a very modest reduction of coronary flow. Based on previous data 6 and current views, 11 one would have expected a much more profound reduction in blood flow if KCNQ channels had the proposed prominent role in the …”

mentioning

confidence: 99%

“…KCNQ1, 3, 4, and 5 gene products are widely expressed in systemic arteries with KCNQ 4 and 5 being predominant. [3][4][5] Current data suggest important roles for K V 7 family in systemic peripheral arteries, namely myogenic response 6 and vasoregulation by vasopressin, 7 β-adrenoceptors, 8 hydrogen sulfide, and perivascular adipose tissue. 5,9 In this current issue, Khanamiri et al 10 have examined the possible role of K V 7 channels in the rat coronary circulation.…”

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confidence: 99%

KCNQ Channels and Novel Insights Into Coronary Perfusion

Gollasch

2013

Hypertension

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Participation ofKCNQ(Kv7) potassium channels in myogenic control of cerebral arterial diameter

Cited by 119 publications

References 58 publications

Role of KCNQ Channels in Skeletal Muscle Arteries and Periadventitial Vascular Dysfunction

Role of KCNQ Channels in Skeletal Muscle Arteries and Periadventitial Vascular Dysfunction

Novel Expression and Regulation of Voltage-Dependent Potassium Channels in Placentas From Women With Preeclampsia

KCNQ Channels and Novel Insights Into Coronary Perfusion

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