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Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries

Vascular smooth muscle voltage-gated potassium (Kv) channels have been proposed to contribute to myogenic autoregulation. Surprisingly, in initial experiments, we observed that the Kv2 channel inhibitor stromatoxin induced vasomotion without affecting myogenic tone. Thus, we tested the hypothesis th...

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Autores principales: Här, Kristina, Lysenko, Natalia N., Dimitrova, Daniela, Schlüter, Torsten, Zavaritskaya, Olga, Kamkin, Andrej G., Mladenov, Mitko, Grisk, Olaf, Köhler, Ralf, Gagov, Hristo, Schubert, Rudolf
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10416909/
https://www.ncbi.nlm.nih.gov/pubmed/37566068
http://dx.doi.org/10.3390/cells12151989
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author Här, Kristina
Lysenko, Natalia N.
Dimitrova, Daniela
Schlüter, Torsten
Zavaritskaya, Olga
Kamkin, Andrej G.
Mladenov, Mitko
Grisk, Olaf
Köhler, Ralf
Gagov, Hristo
Schubert, Rudolf
author_facet Här, Kristina
Lysenko, Natalia N.
Dimitrova, Daniela
Schlüter, Torsten
Zavaritskaya, Olga
Kamkin, Andrej G.
Mladenov, Mitko
Grisk, Olaf
Köhler, Ralf
Gagov, Hristo
Schubert, Rudolf
author_sort Här, Kristina
collection PubMed
description Vascular smooth muscle voltage-gated potassium (Kv) channels have been proposed to contribute to myogenic autoregulation. Surprisingly, in initial experiments, we observed that the Kv2 channel inhibitor stromatoxin induced vasomotion without affecting myogenic tone. Thus, we tested the hypothesis that Kv2 channels contribute to myogenic autoregulation by fine-tuning the myogenic response. Expression of Kv2 channel mRNA was determined using real-time PCR and ‘multiplex’ single-cell RT-PCR. Potassium currents were measured using the patch-clamp technique. Contractile responses of intact arteries were studied using isobaric myography. Expression of Kv2.1 but not Kv2.2 channels was detected in intact rat superior cerebellar arteries and in single smooth muscle cells. Stromatoxin, a high-affinity inhibitor of Kv2 channels, reduced smooth muscle Kv currents by 61% at saturating concentrations (EC(50) 36 nmol/L). Further, stromatoxin (10–100 nmol/L) induced pronounced vasomotion in 48% of the vessels studied. In vessels not exhibiting vasomotion, stromatoxin did not affect myogenic reactivity. Notably, in vessels exhibiting stromatoxin-induced vasomotion, pressure increases evoked two effects: First, they facilitated the occurrence of random vasodilations and/or vasoconstrictions, disturbing the myogenic response (24% of the vessels). Second, they modified the vasomotion by decreasing its amplitude and increasing its frequency, thereby destabilizing myogenic tone (76% of the vessels). Our study demonstrates that (i) Kv2.1 channels are the predominantly expressed Kv channels in smooth muscle cells of rat superior cerebellar arteries, and (ii) Kv2.1 channels provide a novel type of negative feedback mechanism in myogenic autoregulation by preventing vasomotion and thereby safeguarding the myogenic response.
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spelling pubmed-104169092023-08-12 Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries Här, Kristina Lysenko, Natalia N. Dimitrova, Daniela Schlüter, Torsten Zavaritskaya, Olga Kamkin, Andrej G. Mladenov, Mitko Grisk, Olaf Köhler, Ralf Gagov, Hristo Schubert, Rudolf Cells Article Vascular smooth muscle voltage-gated potassium (Kv) channels have been proposed to contribute to myogenic autoregulation. Surprisingly, in initial experiments, we observed that the Kv2 channel inhibitor stromatoxin induced vasomotion without affecting myogenic tone. Thus, we tested the hypothesis that Kv2 channels contribute to myogenic autoregulation by fine-tuning the myogenic response. Expression of Kv2 channel mRNA was determined using real-time PCR and ‘multiplex’ single-cell RT-PCR. Potassium currents were measured using the patch-clamp technique. Contractile responses of intact arteries were studied using isobaric myography. Expression of Kv2.1 but not Kv2.2 channels was detected in intact rat superior cerebellar arteries and in single smooth muscle cells. Stromatoxin, a high-affinity inhibitor of Kv2 channels, reduced smooth muscle Kv currents by 61% at saturating concentrations (EC(50) 36 nmol/L). Further, stromatoxin (10–100 nmol/L) induced pronounced vasomotion in 48% of the vessels studied. In vessels not exhibiting vasomotion, stromatoxin did not affect myogenic reactivity. Notably, in vessels exhibiting stromatoxin-induced vasomotion, pressure increases evoked two effects: First, they facilitated the occurrence of random vasodilations and/or vasoconstrictions, disturbing the myogenic response (24% of the vessels). Second, they modified the vasomotion by decreasing its amplitude and increasing its frequency, thereby destabilizing myogenic tone (76% of the vessels). Our study demonstrates that (i) Kv2.1 channels are the predominantly expressed Kv channels in smooth muscle cells of rat superior cerebellar arteries, and (ii) Kv2.1 channels provide a novel type of negative feedback mechanism in myogenic autoregulation by preventing vasomotion and thereby safeguarding the myogenic response. MDPI 2023-08-02 /pmc/articles/PMC10416909/ /pubmed/37566068 http://dx.doi.org/10.3390/cells12151989 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Här, Kristina
Lysenko, Natalia N.
Dimitrova, Daniela
Schlüter, Torsten
Zavaritskaya, Olga
Kamkin, Andrej G.
Mladenov, Mitko
Grisk, Olaf
Köhler, Ralf
Gagov, Hristo
Schubert, Rudolf
Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries
title Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries
title_full Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries
title_fullStr Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries
title_full_unstemmed Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries
title_short Kv2.1 Channels Prevent Vasomotion and Safeguard Myogenic Reactivity in Rat Small Superior Cerebellar Arteries
title_sort kv2.1 channels prevent vasomotion and safeguard myogenic reactivity in rat small superior cerebellar arteries
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10416909/
https://www.ncbi.nlm.nih.gov/pubmed/37566068
http://dx.doi.org/10.3390/cells12151989
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