Piezo1 and BKCa channels in human atrial fibroblasts: Interplay and remodelling in atrial fibrillation. (September 2021)
- Record Type:
- Journal Article
- Title:
- Piezo1 and BKCa channels in human atrial fibroblasts: Interplay and remodelling in atrial fibrillation. (September 2021)
- Main Title:
- Piezo1 and BKCa channels in human atrial fibroblasts: Interplay and remodelling in atrial fibrillation
- Authors:
- Jakob, Dorothee
Klesen, Alexander
Allegrini, Benoit
Darkow, Elisa
Aria, Diana
Emig, Ramona
Chica, Ana Simon
Rog-Zielinska, Eva A.
Guth, Tim
Beyersdorf, Friedhelm
Kari, Fabian A.
Proksch, Susanne
Hatem, Stéphane N.
Karck, Matthias
Künzel, Stephan R.
Guizouarn, Hélène
Schmidt, Constanze
Kohl, Peter
Ravens, Ursula
Peyronnet, Rémi - Abstract:
- Abstract: Aims: Atrial Fibrillation (AF) is an arrhythmia of increasing prevalence in the aging populations of developed countries. One of the important indicators of AF is sustained atrial dilatation, highlighting the importance of mechanical overload in the pathophysiology of AF. The mechanisms by which atrial cells, including fibroblasts, sense and react to changing mechanical forces, are not fully elucidated. Here, we characterise stretch-activated ion channels (SAC) in human atrial fibroblasts and changes in SAC- presence and activity associated with AF. Methods and results: Using primary cultures of human atrial fibroblasts, isolated from patients in sinus rhythm or sustained AF, we combine electrophysiological, molecular and pharmacological tools to identify SAC. Two electrophysiological SAC- signatures were detected, indicative of cation-nonselective and potassium-selective channels. Using siRNA-mediated knockdown, we identified the cation-nonselective SAC as Piezo1. Biophysical properties of the potassium-selective channel, its sensitivity to calcium, paxilline or iberiotoxin (blockers), and NS11021 (activator), indicated presence of calcium-dependent 'big potassium channels' (BKCa ). In cells from AF patients, Piezo1 activity and mRNA expression levels were higher than in cells from sinus rhythm patients, while BKCa activity (but not expression) was downregulated. Both Piezo1-knockdown and removal of extracellular calcium from the patch pipette resulted in aAbstract: Aims: Atrial Fibrillation (AF) is an arrhythmia of increasing prevalence in the aging populations of developed countries. One of the important indicators of AF is sustained atrial dilatation, highlighting the importance of mechanical overload in the pathophysiology of AF. The mechanisms by which atrial cells, including fibroblasts, sense and react to changing mechanical forces, are not fully elucidated. Here, we characterise stretch-activated ion channels (SAC) in human atrial fibroblasts and changes in SAC- presence and activity associated with AF. Methods and results: Using primary cultures of human atrial fibroblasts, isolated from patients in sinus rhythm or sustained AF, we combine electrophysiological, molecular and pharmacological tools to identify SAC. Two electrophysiological SAC- signatures were detected, indicative of cation-nonselective and potassium-selective channels. Using siRNA-mediated knockdown, we identified the cation-nonselective SAC as Piezo1. Biophysical properties of the potassium-selective channel, its sensitivity to calcium, paxilline or iberiotoxin (blockers), and NS11021 (activator), indicated presence of calcium-dependent 'big potassium channels' (BKCa ). In cells from AF patients, Piezo1 activity and mRNA expression levels were higher than in cells from sinus rhythm patients, while BKCa activity (but not expression) was downregulated. Both Piezo1-knockdown and removal of extracellular calcium from the patch pipette resulted in a significant reduction of BKCa current during stretch. No co-immunoprecipitation of Piezo1 and BKCa was detected. Conclusions: Human atrial fibroblasts contain at least two types of ion channels that are activated during stretch: Piezo1 and BKCa . While Piezo1 is directly stretch-activated, the increase in BKCa activity during mechanical stimulation appears to be mainly secondary to calcium influx via SAC such as Piezo1. During sustained AF, Piezo1 is increased, while BKCa activity is reduced, highlighting differential regulation of both channels. Our data support the presence and interplay of Piezo1 and BKCa in human atrial fibroblasts in the absence of physical links between the two channel proteins. Graphical abstract: Unlabelled Image Highlights: Piezo1 and BKCa are present and mechano-modulated in human atrial fibroblasts. Fibroblast Piezo1 activity is larger in atrial fibrillation compared to sinus rhythm. Fibroblast BKCa activity is smaller in atrial fibrillation compared to sinus rhythm. BKCa mechanosensitivity depends in part on stretch-activated Ca 2+ influx via Piezo1. Piezo1 and BKCa channels are linked functionally, but not structurally. … (more)
- Is Part Of:
- Journal of molecular and cellular cardiology. Volume 158(2021)
- Journal:
- Journal of molecular and cellular cardiology
- Issue:
- Volume 158(2021)
- Issue Display:
- Volume 158, Issue 2021 (2021)
- Year:
- 2021
- Volume:
- 158
- Issue:
- 2021
- Issue Sort Value:
- 2021-0158-2021-0000
- Page Start:
- 49
- Page End:
- 62
- Publication Date:
- 2021-09
- Subjects:
- Stretch-activated ion channels -- Mechano-sensing -- Heart -- Arrhythmia -- Non-myocytes -- Calcium -- KCNMA1
Cardiology -- Periodicals
Heart Diseases -- Periodicals
Molecular Biology -- Periodicals
Cardiologie -- Périodiques
Cardiology
Electronic journals
Periodicals
616.12 - Journal URLs:
- http://www.sciencedirect.com/science/journal/00222828 ↗
http://www.clinicalkey.com/dura/browse/journalIssue/00222828 ↗
http://www.clinicalkey.com.au/dura/browse/journalIssue/00222828 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.yjmcc.2021.05.002 ↗
- Languages:
- English
- ISSNs:
- 0022-2828
- Deposit Type:
- Legaldeposit
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 5020.690000
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