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3. Analysis of drug-induced and spontaneous cardioversions reveals similar patterns leading to termination of atrial fibrillation

Author

van Hunnik, Arne, Sobota, Vladimír, Zeemering, Stef, Opacic, Dragan, Scaf, Billy, D’Alessandro, Elisa, Oyaert, Karel, Kuiper, Marion, Diness, Jonas G., Sørensen, Ulrik S., Milnes, James T., van der Heyden, Marcel A.G., Jespersen, Thomas, Schotten, Ulrich, Verheule, Sander, van Hunnik, Arne, Sobota, Vladimír, Zeemering, Stef, Opacic, Dragan, Scaf, Billy, D’Alessandro, Elisa, Oyaert, Karel, Kuiper, Marion, Diness, Jonas G., Sørensen, Ulrik S., Milnes, James T., van der Heyden, Marcel A.G., Jespersen, Thomas, Schotten, Ulrich, and Verheule, Sander more...

Abstract

Introduction: The mechanisms leading to the conversion of atrial fibrillation (AF) to sinus rhythm are poorly understood. This study describes the dynamic behavior of electrophysiological parameters and conduction patterns leading to spontaneous and pharmacological AF termination. Methods: Five independent groups of goats were investigated: (1) spontaneous termination of AF, and drug-induced terminations of AF by various potassium channel inhibitors: (2) AP14145, (3) PA-6, (4) XAF-1407, and (5) vernakalant. Bi-atrial contact mapping was performed during an open chest surgery and intervals with continuous and discrete atrial activity were determined. AF cycle length (AFCL), conduction velocity and path length were calculated for each interval, and the final conduction pattern preceding AF termination was evaluated. Results: AF termination was preceded by a sudden episode of discrete activity both in the presence and absence of an antiarrhythmic drug. This episode was accompanied by substantial increases in AFCL and conduction velocity, resulting in prolongation of path length. In 77% ± 4% of all terminations the conduction pattern preceding AF termination involved medial to lateral conduction along Bachmann’s bundle into both atria, followed by anterior to posterior conduction. This finding suggests conduction block in the interatrial septum and/or pulmonary vein area as final step of AF termination. Conclusion: AF termination is preceded by an increased organization of fibrillatory conduction. The termination itself is a sudden process with a critical role for the interplay between spatiotemporal organization and anatomical structure. more...

Published
2024

4. Analysis of drug-induced and spontaneous cardioversions reveals similar patterns leading to termination of atrial fibrillation

Author

Medische Fysiologie, Circulatory Health, van Hunnik, Arne, Sobota, Vladimír, Zeemering, Stef, Opacic, Dragan, Scaf, Billy, D’Alessandro, Elisa, Oyaert, Karel, Kuiper, Marion, Diness, Jonas G., Sørensen, Ulrik S., Milnes, James T., van der Heyden, Marcel A.G., Jespersen, Thomas, Schotten, Ulrich, Verheule, Sander, Medische Fysiologie, Circulatory Health, van Hunnik, Arne, Sobota, Vladimír, Zeemering, Stef, Opacic, Dragan, Scaf, Billy, D’Alessandro, Elisa, Oyaert, Karel, Kuiper, Marion, Diness, Jonas G., Sørensen, Ulrik S., Milnes, James T., van der Heyden, Marcel A.G., Jespersen, Thomas, Schotten, Ulrich, and Verheule, Sander more...

Published
2024

5. A phase 1 trial of AP30663, a KCa2 channel inhibitor in development for conversion of atrial fibrillation

Author

Yfanti, Christina, Vestbjerg, Birgitte, van't Westende, Juliette, Edvardsson, Nils, Monfort, Laia Meseguer, Olesen, Morten Salling, Bentzen, Bo Hjorth, Grunnet, Morten, Eveleens Maarse, Boukje C., Diness, Jonas Goldin, Kemme, Michiel J.B., Sørensen, Ulrik, Moerland, Matthijs, van Esdonk, Michiel J., Klaassen, Erica S., Gal, Pim, Holst, Anders G., Yfanti, Christina, Vestbjerg, Birgitte, van't Westende, Juliette, Edvardsson, Nils, Monfort, Laia Meseguer, Olesen, Morten Salling, Bentzen, Bo Hjorth, Grunnet, Morten, Eveleens Maarse, Boukje C., Diness, Jonas Goldin, Kemme, Michiel J.B., Sørensen, Ulrik, Moerland, Matthijs, van Esdonk, Michiel J., Klaassen, Erica S., Gal, Pim, and Holst, Anders G. more...

Abstract

Aims: AP30663 is a novel compound under development for pharmacological conversion of atrial fibrillation by targeting the small conductance Ca2+ activated K+ (KCa2) channel. The aim of this extension phase 1 study was to test AP30663 at higher single doses compared to the first-in-human trial. Methods: Sixteen healthy male volunteers were randomized into 2 cohorts: 6- and 8-mg/kg intravenous single-dose administration of AP30663 vs. placebo. Safety, pharmacokinetic and pharmacodynamic data were collected. Results: AP30663 was associated with mild and transient infusion site reactions with no clustering of other adverse events but with an estimated maximum mean QTcF interval prolongation of 45.2 ms (95% confidence interval 31.5–58.9) in the 6 mg/kg dose level and 50.4 ms (95% confidence interval 36.7–64.0) with 8 mg/kg. Pharmacokinetics was dose proportional with terminal half-life of around 3 h. Conclusion: AP30663 in doses up to 8 mg/kg was associated with mild and transient infusion site reactions and an increase of the QTcF interval. Supporting Information support that the QTc effect may be explained by an off-target inhibition of the IKr channel. more...

Published
2024

7. A phase 1 trial of AP30663, a KCa2 channel inhibitor in development for conversion of atrial fibrillation

Author

Yfanti, Christina, primary, Vestbjerg, Birgitte, additional, van’t Westende, Juliette, additional, Edvardsson, Nils, additional, Monfort, Laia Meseguer, additional, Olesen, Morten Salling, additional, Bentzen, Bo Hjorth, additional, Grunnet, Morten, additional, Eveleens Maarse, Boukje C., additional, Diness, Jonas Goldin, additional, Kemme, Michiel J. B., additional, Sørensen, Ulrik, additional, Moerland, Matthijs, additional, van Esdonk, Michiel J., additional, Klaassen, Erica S., additional, Gal, Pim, additional, and Holst, Anders G., additional more...

Published
2023
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8. A phase 1 trial of AP30663, a KCa2 channel inhibitor in development for conversion of atrial fibrillation.

Author

Yfanti, Christina, Vestbjerg, Birgitte, van't Westende, Juliette, Edvardsson, Nils, Monfort, Laia Meseguer, Olesen, Morten Salling, Bentzen, Bo Hjorth, Grunnet, Morten, Eveleens Maarse, Boukje C., Diness, Jonas Goldin, Kemme, Michiel J. B., Sørensen, Ulrik, Moerland, Matthijs, van Esdonk, Michiel J., Klaassen, Erica S., Gal, Pim, and Holst, Anders G. more...

Subjects
INTRAVENOUS therapy, CONFIDENCE intervals, CALCIUM ions, ARRHYTHMIA, ATRIAL fibrillation
Abstract

Aims: AP30663 is a novel compound under development for pharmacological conversion of atrial fibrillation by targeting the small conductance Ca2+ activated K+ (KCa2) channel. The aim of this extension phase 1 study was to test AP30663 at higher single doses compared to the first‐in‐human trial. Methods: Sixteen healthy male volunteers were randomized into 2 cohorts: 6‐ and 8‐mg/kg intravenous single‐dose administration of AP30663 vs. placebo. Safety, pharmacokinetic and pharmacodynamic data were collected. Results: AP30663 was associated with mild and transient infusion site reactions with no clustering of other adverse events but with an estimated maximum mean QTcF interval prolongation of 45.2 ms (95% confidence interval 31.5–58.9) in the 6 mg/kg dose level and 50.4 ms (95% confidence interval 36.7–64.0) with 8 mg/kg. Pharmacokinetics was dose proportional with terminal half‐life of around 3 h. Conclusion: AP30663 in doses up to 8 mg/kg was associated with mild and transient infusion site reactions and an increase of the QTcF interval. Supporting Information support that the QTc effect may be explained by an off‐target inhibition of the IKr channel. [ABSTRACT FROM AUTHOR] more...

Published
2024
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16. Effective termination of atrial fibrillation by SK channel inhibition is associated with a sudden organization of fibrillatory conduction

Author

Gatta, Giulia, Sobota, Vladimir, Citerni, Carlotta, Diness, Jonas Goldin, Sørensen, Ulrik S., Jespersen, Thomas, Bentzen, Bo Hjorth, Zeemering, Stef, Kuiper, Marion, Verheule, Sander, Schotten, Ulrich, Van Hunnik, Arne, Gatta, Giulia, Sobota, Vladimir, Citerni, Carlotta, Diness, Jonas Goldin, Sørensen, Ulrik S., Jespersen, Thomas, Bentzen, Bo Hjorth, Zeemering, Stef, Kuiper, Marion, Verheule, Sander, Schotten, Ulrich, and Van Hunnik, Arne more...

Abstract

Aims: Pharmacological termination of atrial fibrillation (AF) remains a challenge due to limited efficacy and potential ventricular proarrhythmic effects of antiarrhythmic drugs. SK channels are proposed as atrial-specific targets in the treatment of AF. Here, we investigated the effects of the new SK channel inhibitor AP14145. Methods and results: Eight goats were implanted with pericardial electrodes for induction of AF (30 days). In an open-chest study, the atrial conduction velocity (CV) and effective refractory period (ERP) were measured during pacing. High-density mapping of both atrial free-walls was performed during AF and conduction properties were assessed. All measurements were performed at baseline and during AP14145 infusion [10 mg/kg/h (n = 1) or 20 mg/kg/h (n = 6)]. At an infusion rate of 20 mg/kg/h, AF terminated in five of six goats. AP14145 profoundly increased ERP and reduced CV during pacing. AP14145 increased spatiotemporal instability of conduction at short pacing cycle lengths. Atrial fibrillation cycle length and pathlength (AF cycle length × CV) underwent a strong dose-dependent prolongation. Conduction velocity during AF remained unchanged and conduction patterns remained complex until the last seconds before AF termination, during which a sudden and profound organization of fibrillatory conduction occurred. Conclusion: AP14145 provided a successful therapy for termination of persistent AF in goats. During AF, AP14145 caused an ERP and AF cycle length prolongation. AP14145 slowed CV during fast pacing but did not lead to a further decrease during AF. Termination of AF was preceded by an abrupt organization of AF with a decline in the number of fibrillation waves. more...

Published
2021

17. Inhibition of Small-Conductance Calcium-Activated Potassium Current (IK,Ca) Leads to Differential Atrial Electrophysiological Effects in a Horse Model of Persistent Atrial Fibrillation

Author

Fenner, Merle Friederike, Gatta, Giulia, Sattler, Stefan, Kuiper, Marion, Hesselkilde, Eva Melis, Adler, Ditte M.T., Smerup, Morten, Schotten, Ulrich, Sørensen, Ulrik, Diness, Jonas Goldin, Jespersen, Thomas, Verheule, Sander, Van Hunnik, Arne, Buhl, Rikke, Fenner, Merle Friederike, Gatta, Giulia, Sattler, Stefan, Kuiper, Marion, Hesselkilde, Eva Melis, Adler, Ditte M.T., Smerup, Morten, Schotten, Ulrich, Sørensen, Ulrik, Diness, Jonas Goldin, Jespersen, Thomas, Verheule, Sander, Van Hunnik, Arne, and Buhl, Rikke more...

Abstract

Background: Small-conductance Ca2+-activated K+ (KCa2) channels have been proposed as a possible atrial-selective target to pharmacologically terminate atrial fibrillation (AF) and to maintain sinus rhythm. However, it has been hypothesized that the importance of the KCa2 current—and thereby the efficacy of small-conductance Ca2+-activated K+ current (IK,Ca) inhibition—might be negatively related to AF duration and the extent of AF-induced remodeling. Experimental Approach and Methods: To address the hypothesis of the efficacy of IK,Ca inhibition being dependent on AF duration, the anti-arrhythmic properties of the IK,Ca inhibitor NS8593 (5 mg/kg) and its influence on atrial conduction were studied using epicardial high-density contact mapping in horses with persistent AF. Eleven Standardbred mares with tachypacing-induced persistent AF (42 ± 5 days of AF) were studied in an open-chest experiment. Unipolar AF electrograms were recorded and isochronal high-density maps analyzed to allow for the reconstruction of wave patterns and changes in electrophysiological parameters, such as atrial conduction velocity and AF cycle length. Atrial anti-arrhythmic properties and adverse effects of NS8593 on ventricular electrophysiology were evaluated by continuous surface ECG monitoring. Results: IK,Ca inhibition by NS8593 administered intravenously had divergent effects on right and left AF complexity and propagation properties in this equine model of persistent AF. Despite global prolongation of AF cycle length, a slowing of conduction in the right atrium led to increased anisotropy and electrical dissociation, thus increasing AF complexity. In contrast, there was no significant change in AF complexity in the LA, and cardioversion of AF was not achieved. Conclusions: Intra-atrial heterogeneity in response to IK,Ca inhibition by NS8593 was observed. The inv more...

Published
2021

18. Effective termination of atrial fibrillation by SK channel inhibition is associated with a sudden organization of fibrillatory conduction

Author

Gatta, Giulia, primary, Sobota, Vladimir, additional, Citerni, Carlotta, additional, Diness, Jonas Goldin, additional, Sørensen, Ulrik S, additional, Jespersen, Thomas, additional, Bentzen, Bo Hjorth, additional, Zeemering, Stef, additional, Kuiper, Marion, additional, Verheule, Sander, additional, Schotten, Ulrich, additional, and van Hunnik, Arne, additional more...

Published
2021
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24. Inhibition of Small-Conductance Calcium-Activated Potassium Current (IK,Ca) Leads to Differential Atrial Electrophysiological Effects in a Horse Model of Persistent Atrial Fibrillation

Author

Fenner, Merle Friederike, primary, Gatta, Giulia, additional, Sattler, Stefan, additional, Kuiper, Marion, additional, Hesselkilde, Eva Melis, additional, Adler, Ditte M. T., additional, Smerup, Morten, additional, Schotten, Ulrich, additional, Sørensen, Ulrik, additional, Diness, Jonas Goldin, additional, Jespersen, Thomas, additional, Verheule, Sander, additional, Van Hunnik, Arne, additional, and Buhl, Rikke, additional more...

Published
2021
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25. First Clinical Study with AP30663 ‐ a K Ca 2 Channel Inhibitor in Development for Conversion of Atrial Fibrillation

Author

Gal, Pim, primary, Klaassen, Erica S., additional, Bergmann, Kirsten R., additional, Saghari, Mahdi, additional, Burggraaf, Jacobus, additional, Kemme, Michiel J. B., additional, Sylvest, Christina, additional, Sørensen, Ulrik, additional, Bentzen, Bo H., additional, Grunnet, Morten, additional, Diness, Jonas G., additional, and Edvardsson, Nils, additional more...

Published
2020
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26. Effect of selective I K,ACh inhibition by XAF‐1407 in an equine model of tachypacing‐induced persistent atrial fibrillation

Author

Fenner, Merle Friederike, primary, Carstensen, Helena, additional, Dalgas Nissen, Sarah, additional, Melis Hesselkilde, Eva, additional, Scott Lunddahl, Christine, additional, Adler Hess Jensen, Maja, additional, Loft‐Andersen, Ameli Victoria, additional, Sattler, Stefan Michael, additional, Platonov, Pyotr, additional, El‐Haou, Said, additional, Jackson, Claire, additional, Tang, Raymond, additional, Kirby, Robert, additional, Ford, John, additional, Schotten, Ulrich, additional, Milnes, James, additional, Svane Sørensen, Ulrik, additional, Jespersen, Thomas, additional, and Buhl, Rikke, additional more...

Published
2020
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28. Mechanisms of Action of the KCa2-Negative Modulator AP30663, a Novel Compound in Development for Treatment of Atrial Fibrillation in Man

Author

Bentzen, Bo Hjorth, primary, Bomholtz, Sofia Hammami, additional, Simó-Vicens, Rafel, additional, Folkersen, Lasse, additional, Abildgaard, Lea, additional, Speerschneider, Tobias, additional, Muthukumarasamy, Kalai Mangai, additional, Edvardsson, Nils, additional, Sørensen, Ulrik S., additional, Grunnet, Morten, additional, and Diness, Jonas Goldin, additional more...

Published
2020
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30. Mechanisms of Action of the KCa2-Negative Modulator AP30663, a Novel Compound in Development for Treatment of Atrial Fibrillation in Man

Author

Bentzen, Bo Hjorth, Bomholtz, Sofia Hammami, Simó-Vicens, Rafel, Folkersen, Lasse, Abildgaard, Lea, Speerschneider, Tobias, Muthukumarasamy, Kalai Mangai, Edvardsson, Nils, Sørensen, Ulrik S., Grunnet, Morten, Diness, Jonas Goldin, Bentzen, Bo Hjorth, Bomholtz, Sofia Hammami, Simó-Vicens, Rafel, Folkersen, Lasse, Abildgaard, Lea, Speerschneider, Tobias, Muthukumarasamy, Kalai Mangai, Edvardsson, Nils, Sørensen, Ulrik S., Grunnet, Morten, and Diness, Jonas Goldin more...

Abstract

Aims: Small conductance Ca2+-activated K+ channels (SK channels, KCa2) are a new target for treatment of atrial fibrillation (AF). AP30663 is a small molecule inhibitor of KCa2 channels that is currently in clinical development for treatment of AF. The aim of this study is to present the electrophysiological profile and mechanism of action of AP30663 and its efficacy in prolonging atrial refractoriness in rodents, and by bioinformatic analysis investigate if genetic variants in KCNN2 or KCNN3 influence the expression level of these in human heart tissue. Methods and Results: Whole-cell and inside-out patch-clamp recordings of heterologously expressed KCa2 channels revealed that AP30663 inhibits KCa2 channels with minor effects on other relevant cardiac ion channels. AP30663 modulates the KCa2.3 channel by right-shifting the Ca2+-activation curve. In isolated guinea pig hearts AP30663 significantly prolonged the atrial effective refractory period (AERP) with minor effects on the QT-interval corrected for heart rate. Similarly, in anaesthetized rats 5 and 10 mg/kg of AP30663 changed the AERP to 130.7±5.4% and 189.9±18.6 of baseline values. The expression quantitative trait loci analyses revealed that the genome wide association studies for AF SNP rs13376333 in KCNN3 is associated with increased mRNA expression of KCNN3 in human atrial appendage tissue. Conclusions: AP30663 is a novel negative allosteric modulator of KCa2 channels that concentration-dependently prolonged rodent atrial refractoriness with minor effects on the QT-interval. Moreover, AF associated SNPs in KCNN3 influence KCNN3 mRNA expression in human atrial tissue. These properties support continued development of AP30663 for treatment of AF in man. more...

Published
2020

31. Inhibition of KCa2 Channels Decreased the Risk of Ventricular Arrhythmia in the Guinea Pig Heart During Induced Hypokalemia

Author

Diness, Jonas Goldin, Abildgaard, Lea, Bomholtz, Sofia Hammami, Skarsfeldt, Mark Alexander, Edvardsson, Nils, Sørensen, Ulrik S., Grunnet, Morten, Bentzen, Bo Hjorth, Diness, Jonas Goldin, Abildgaard, Lea, Bomholtz, Sofia Hammami, Skarsfeldt, Mark Alexander, Edvardsson, Nils, Sørensen, Ulrik S., Grunnet, Morten, and Bentzen, Bo Hjorth more...

Abstract

Background: Hypokalemia reduces the cardiac repolarization reserve. This prolongs the QT-interval and increases the risk of ventricular arrhythmia; a risk that is exacerbated by administration of classical class 3 anti-arrhythmic agents. Small conductance Ca2+-activated K+-channels (KCa2) are a promising new atrial selective target for treatment of atrial fibrillation. Under physiological conditions KCa2 plays a minor role in ventricular repolarization. However, this might change under hypokalemia because of concomitant increases in ventriculay -60r intracellur Ca2+. Purpose: To study the effects of pharmacological KCa2 channel inhibition by the compounds AP14145, ICA, or AP30663 under hypokalemic conditions as compared to dofetilide and hypokalemia alone time-matched controls (TMC). Methods: The current at +10 mV was compared in HEK293 cells stably expressing KCa2.3 perfused first with normo- and then hypokalemic solutions (4 mM K+ and 2.5 mM K+, respectively). Guinea pig hearts were isolated and perfused with normokalemic (4 mM K+) Krebs-Henseleit solution, followed by perfusion with drug or vehicle control. The perfusion was then changed to hypokalemic solution (2.5 mM K+) in presence of drug. 30 animals were randomly assigned to 5 groups: ICA, AP14145, AP30663, dofetilide, or TMC. QT-interval, the interval from the peak to the end of the T wave (Tp–Te), ventricular effective refractory period (VERP), arrhythmia score, and ventricular fibrillation (VF) incidence were recorded. Results: Hypokalemia slightly increased KCa2.3 current compared to normokalemia. Application of KCa2 channel inhibitors and dofetilide prolonged the QT interval corrected for heart rate. Dofetilide, but none of the KCa2 channel inhibitors increased Tp–Te during hypokalemia. During hypokalemia 4/6 hearts in the TMC group developed VF (tw more...

Published
2020

33. The KCa2 Channel Inhibitor AP30663 Selectively Increases Atrial Refractoriness, Converts Vernakalant-Resistant Atrial Fibrillation and Prevents Its Reinduction in Conscious Pigs

Author

Diness, Jonas Goldin, primary, Kirchhoff, Jeppe Egedal, additional, Speerschneider, Tobias, additional, Abildgaard, Lea, additional, Edvardsson, Nils, additional, Sørensen, Ulrik S., additional, Grunnet, Morten, additional, and Bentzen, Bo Hjorth, additional more...

Published
2020
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35. The KCa2 Channel Inhibitor AP14145, But Not Dofetilide or Ondansetron, Provides Functional Atrial Selectivity in Guinea Pig Hearts

Author

Kirchhoff, Jeppe Egedal, primary, Skarsfeldt, Mark Alexander, additional, Muthukumarasamy, Kalai Mangai, additional, Simó-Vicens, Rafel, additional, Bomholtz, Sofia Hammami, additional, Abildgaard, Lea, additional, Jespersen, Thomas, additional, Sørensen, Ulrik S., additional, Grunnet, Morten, additional, Bentzen, Bo Hjorth, additional, and Diness, Jonas Goldin, additional more...

Published
2019
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36. Arrhythmia development during inhibition of small-conductance calcium-activated potassium channels in acute myocardial infarction in a porcine model

Author

Lubberding, Anniek F, Sattler, Stefan M, Grunnet, Morten, Sørensen, Ulrik S, Tfelt-Hansen, Jacob, Jespersen, Thomas, Lubberding, Anniek F, Sattler, Stefan M, Grunnet, Morten, Sørensen, Ulrik S, Tfelt-Hansen, Jacob, and Jespersen, Thomas more...

Abstract

AIMS : Acute myocardial infarction (AMI) is associated with intracellular Ca2+ build-up. In healthy ventricles, small conductance Ca2+-activated K+ (SK) channels are present but do not participate in repolarization. However, SK current is increased in chronic myocardial infarction and heart failure, and recently, SK channel inhibition was demonstrated to reduce arrhythmias in AMI rats. Hence, we hypothesized that SK channel inhibitors (NS8593 and AP14145) could reduce arrhythmia development during AMI in a porcine model.METHODS AND RESULTS : Twenty-seven pigs were randomized 1:1:1 to control, NS8593, or AP14145. Haemodynamic and electrophysiological parameters [electrocardiogram (ECG) and monophasic action potentials (MAP)] were continuously recorded. A balloon was placed in the mid-left anterior descending artery, blinded to treatment. Infusion lasted from 10 min before occlusion until 30 min after. Occlusion was maintained for 1 h, followed by 2 h of reperfusion. Upon occlusion, cardiac output dropped similarly in all groups, while blood pressure remained stable. Heart rate decreased in the NS8593 and AP14145 groups. QRS duration increased upon occlusion in all groups but more prominently in AP14145-treated pigs. Inhibition of SK channels did not affect QT interval. Infarct MAP duration shortened comparably in all groups. Ventricular fibrillation developed in 4/9 control-, 4/9 AP14145-, and 2/9 NS8593-treated pigs. Ventricular tachycardia was rarely observed in either group, whereas ventricular extrasystoles occurred comparably in all groups.CONCLUSION : Inhibition of SK channels was neither beneficial nor detrimental to ventricular arrhythmia development in the setting of AMI in this porcine model. more...

Published
2019

37. The KCa2 Channel Inhibitor AP14145, But Not Dofetilide or Ondansetron, Provides Functional Atrial Selectivity in Guinea Pig Hearts

Author

Kirchhoff, Jeppe Egedal, Skarsfeldt, Mark, Muthukumarasamy, Kalai Mangai, Simó-Vicens, Rafel, Bomholtz, Sofia Hammami, Abildgaard, Lea, Jespersen, Thomas, Sørensen, Ulrik S, Grunnet, Morten, Bentzen, Bo Hjorth, Diness, Jonas Goldin, Kirchhoff, Jeppe Egedal, Skarsfeldt, Mark, Muthukumarasamy, Kalai Mangai, Simó-Vicens, Rafel, Bomholtz, Sofia Hammami, Abildgaard, Lea, Jespersen, Thomas, Sørensen, Ulrik S, Grunnet, Morten, Bentzen, Bo Hjorth, and Diness, Jonas Goldin more...

Abstract

Background and Purpose: Prolongation of cardiac action potentials is considered antiarrhythmic in the atria but can be proarrhythmic in ventricles if the current carried by Kv11.1-channels (IKr) is inhibited. The current mediated by KCa2-channels, IKCa, is considered a promising new target for treatment of atrial fibrillation (AF). Selective inhibitors of IKr (dofetilide) and IKCa (AP14145) were used to compare the effects on ventricular and atrial repolarization. Ondansetron, which has been reported to be a potent blocker of both IKr and IKCa, was included to examine its potential atrial antiarrhythmic properties. Experimental Approach: The expression of KCa2- and Kv11.1-channels in the guinea pig heart was investigated using quantitative polymerase chain reaction (qPCR). Whole-cell patch clamp technique was used to investigate the effects of dofetilide, AP14145, and ondansetron on IKCa and/or IKr. The effect of dofetilide, AP14145, and ondansetron on atrial and ventricular repolarization was investigated in isolated hearts. A novel atrial paced in vivo guinea pig model was further validated using AP14145 and dofetilide. Key Results: AP14145 increased the atrial effective refractory period (AERP) without prolonging the QT interval with Bazett’s correction for heart rate (QTcB) both ex vivo and in vivo. In contrast, dofetilide increased QTcB and, to a lesser extent, AERP in isolated hearts and prolonged QTcB with no effects on AERP in the in vivo guinea pig model. Ondansetron did not inhibit IKCa, but did inhibit IKr in vitro. Ondansetron prolonged ventricular, but not atrial repolarization ex vivo. Conclusion and Implications: IKCa inhibition by AP14145 selectively increases atrial repolarization, whereas IKr inhibition by dofetilide and ondansetron increases ventricular repolarization to a larger extent than atrial repolarization. more...

Published
2019

38. A New Negative Allosteric Modulator AP14145 for the Study of Small Conductance Calcium-Activated Potassium Channels

Author

Simo Vicens, Rafel, Kirchhoff, Jeppe Egedal, Dolce , Bernardo, Abildgaard, Lea, Speerschneider, Tobias, Sørensen, Ulrik Svane, Grunnet, Morten, Diness, Jonas Goldin, and Bentzen, Bo Hjorth

Subjects
Faculty of Health and Medical Sciences, Electrophysiology, AP14145, negative allosteric modulator, SK channel, Atrial fibrillation, small conductance calcium-activated potassium channels
Abstract

Background and purpose: Small conductance Ca2+-activated K+ (KCa2) channels represent a promising atrial-selective target for treatment of atrial fibrillation (AF). Here, we establish the mechanism of KCa2 inhibition by the new compound AP14145.Experimental approach: Using site directed mutagenesis binding determinants for AP14145 inhibition were explored. AP14145 selectivity and mechanism of action were investigated by patch clamp recordings of heterologously expressed KCa2 channels. The biological efficacy of AP14145 was assessed by measuring atrial effective refractory period (AERP) prolongation in anaesthetised rats and a beam walk test was performed in mice to determine acute CNS related effects of the drug.Key results: AP14145 was found to be an equipotent negative allosteric modulator of KCa2.2 and KCa2.3 channels (IC50 = 1.1 ± 0.3 μM L-1). The presence of AP14145 (10 μM L-1) increased the EC50 of Ca2+ on KCa2.3 from 0.36 ± 0.02 μM L-1 to 1.2 ± 0.1 μM L-1. The inhibitory effect strongly depended on two amino acids, S508 and A533. AP14145 concentration-dependently prolonged AERP in rats. Moreover, AP14145 (10 mg kg-1) did not trigger any apparent CNS effects in mice.Conclusion and implications: AP14145 is a negative allosteric modulator of KCa2.2 and KCa2.3 that shifts the calcium dependence of channel activation, an effect strongly dependent on two identified amino acids. AP14145 prolongs AERP in rats and does not trigger any acute CNS effects in mice. The understanding of how KCa2 inhibition is accomplished at the molecular level will help future development of drugs targeting KCa2 channels. more...

Published
2017
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39. Novel negative allosteric modulator inhibits small conductance calcium-activated potassium channels and selectively prolongs atrial refractoriness in conscious pigs

Author

Simó-Vicens, Rafel, Citerni, Carlotta, Edvardsson, Niels G., Sørensen, Ulrik Svane, Grunnet, Morten, Diness, Jonas Goldin, and Bentzen, Bo Hjorth

Subjects
Faculty of Health and Medical Sciences, Electrophysiology, AP14145, Atrial Fibrillation, Patch clamp, small conductance calcium-activated potassium channels
Published
2017
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41. Inhibition of Small-Conductance Calcium-Activated Potassium Current (I K,Ca) Leads to Differential Atrial Electrophysiological Effects in a Horse Model of Persistent Atrial Fibrillation.

Author

Fenner, Merle Friederike, Gatta, Giulia, Sattler, Stefan, Kuiper, Marion, Hesselkilde, Eva Melis, Adler, Ditte M. T., Smerup, Morten, Schotten, Ulrich, Sørensen, Ulrik, Diness, Jonas Goldin, Jespersen, Thomas, Verheule, Sander, Van Hunnik, Arne, and Buhl, Rikke more...

Subjects
ATRIAL fibrillation, FLECAINIDE, ELECTROPHYSIOLOGY, LEFT heart atrium, HORSES
Abstract

Background: Small-conductance Ca2+-activated K+ (KCa2) channels have been proposed as a possible atrial-selective target to pharmacologically terminate atrial fibrillation (AF) and to maintain sinus rhythm. However, it has been hypothesized that the importance of the KCa2 current—and thereby the efficacy of small-conductance Ca2+-activated K+ current (I K,Ca) inhibition—might be negatively related to AF duration and the extent of AF-induced remodeling. Experimental Approach and Methods: To address the hypothesis of the efficacy of I K,Ca inhibition being dependent on AF duration, the anti-arrhythmic properties of the I K,Ca inhibitor NS8593 (5 mg/kg) and its influence on atrial conduction were studied using epicardial high-density contact mapping in horses with persistent AF. Eleven Standardbred mares with tachypacing-induced persistent AF (42 ± 5 days of AF) were studied in an open-chest experiment. Unipolar AF electrograms were recorded and isochronal high-density maps analyzed to allow for the reconstruction of wave patterns and changes in electrophysiological parameters, such as atrial conduction velocity and AF cycle length. Atrial anti-arrhythmic properties and adverse effects of NS8593 on ventricular electrophysiology were evaluated by continuous surface ECG monitoring. Results: I K,Ca inhibition by NS8593 administered intravenously had divergent effects on right and left AF complexity and propagation properties in this equine model of persistent AF. Despite global prolongation of AF cycle length, a slowing of conduction in the right atrium led to increased anisotropy and electrical dissociation, thus increasing AF complexity. In contrast, there was no significant change in AF complexity in the LA, and cardioversion of AF was not achieved. Conclusions: Intra-atrial heterogeneity in response to I K,Ca inhibition by NS8593 was observed. The investigated dose of NS8593 increased the AF cycle length but was not sufficient to induce cardioversion. In terms of propagation properties during AF, I K,Ca inhibition by NS8593 led to divergent effects in the right and left atrium. This divergent behavior may have impeded the cardioversion success. [ABSTRACT FROM AUTHOR] more...

Published
2021
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42. First Clinical Study with AP30663 ‐ a KCa2 Channel Inhibitor in Development for Conversion of Atrial Fibrillation.

Author

Gal, Pim, Klaassen, Erica S., Bergmann, Kirsten R., Saghari, Mahdi, Burggraaf, Jacobus, Kemme, Michiel J. B., Sylvest, Christina, Sørensen, Ulrik, Bentzen, Bo H., Grunnet, Morten, Diness, Jonas G., and Edvardsson, Nils more...

Subjects
ATRIAL fibrillation, ANALYSIS of covariance, ATRIAL arrhythmias, ELECTRIC countershock, PHARMACOKINETICS, YEAR
Abstract

Pharmacological cardioversion of atrial fibrillation (AF) is frequently inefficacious. AP30663, a small conductance Ca2+ activated K+ (KCa2) channel blocker, prolonged the atrial effective refractory period in preclinical studies and subsequently converted AF into normal sinus rhythm. This first‐in‐human study evaluated the safety and tolerability, and pharmacokinetic (PK) and pharmacodynamic (PD) effects were explored. Forty‐seven healthy male volunteers (23.7 ± 3.0 years) received AP30663 intravenously in ascending doses. Due to infusion site reactions, changes to the formulation and administration were implemented in the latter 24 volunteers. Extractions from a 24‐hour continuous electrocardiogram were used to evaluate the PD effect of AP30663. Data were analyzed with a repeated measure analysis of covariance, noncompartmental analysis, and concentration‐effect analysis. In total, 33 of 34 adverse events considered related to AP30663 exposure were related to the infusion site, mild in severity, and temporary in nature, although full recovery took up to 110 days. After formulation and administration changes, the local infusion site reaction remained, but the median duration was shorter despite higher dose levels. AP30663 displayed a less than dose proportional increase in peak plasma concentration (Cmax) and a terminal half‐life of around 5 hours. In healthy volunteers, no effect of AP30663 was observed on electrocardiographic parameters, other than a concentration‐dependent effect on the corrected QT Fridericia's formula interval (+18.8 ± 4.3 ms for the highest dose level compared with time matched placebo). In conclusion, administration of AP30663, a novel KCa2 channel inhibitor, was safe and well‐tolerated systemically in humans, supporting further development in patients with AF undergoing cardioversion. [ABSTRACT FROM AUTHOR] more...

Published
2020
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43. Effect of selective IK,ACh inhibition by XAF-1407 in an equine model of tachypacing-induced persistent atrial fibrillation.

Author

Fenner, Merle Friederike, Carstensen, Helena, Dalgas Nissen, Sarah, Melis Hesselkilde, Eva, Scott Lunddahl, Christine, Adler Hess Jensen, Maja, Loft‐Andersen, Ameli Victoria, Sattler, Stefan Michael, Platonov, Pyotr, El‐Haou, Said, Jackson, Claire, Tang, Raymond, Kirby, Robert, Ford, John, Schotten, Ulrich, Milnes, James, Svane Sørensen, Ulrik, Jespersen, Thomas, Buhl, Rikke, and Loft-Andersen, Ameli Victoria more...

Subjects
ATRIAL fibrillation, VENTRICULAR arrhythmia, IMPLANTABLE cardioverter-defibrillators, BRUGADA syndrome, ION channels, PHARMACEUTICAL research, ELECTRIC countershock, CELL lines, MYOCARDIAL depressants, ANIMAL experimentation, HORSES, POTASSIUM, HEART atrium, PHARMACODYNAMICS
Abstract

Background and Purpose: Inhibition of the G-protein gated ACh-activated inward rectifier potassium current, IK,ACh may be an effective atrial selective treatment strategy for atrial fibrillation (AF). Therefore, the anti-arrhythmic and electrophysiological properties of a novel putatively potent and highly specific IK,ACh inhibitor, XAF-1407 (3-methyl-1-[5-phenyl-4-[4-(2-pyrrolidin-1-ylethoxymethyl)-1-piperidyl]thieno[2,3-d]pyrimidin-6-yl]azetidin-3-ol), were characterised for the first time in vitro and investigated in horses with persistent AF.Experimental Approach: The pharmacological ion channel profile of XAF-1407 was investigated using cell lines expressing relevant ion channels. In addition, eleven horses were implanted with implantable cardioverter defibrillators enabling atrial tachypacing into self-sustained AF. The electrophysiological effects of XAF-1407 were investigated after serial cardioversions over a period of 1 month. Cardioversion success, drug-induced changes of atrial tissue refractoriness, and ventricular electrophysiology were assessed at baseline (day 0) and days 3, 5, 11, 17, and 29 after AF induction.Key Results: XAF-1407 potently and selectively inhibited Kir 3.1/3.4 and Kir 3.4/3.4, underlying the IK,ACh current. XAF-1407 treatment in horses prolonged atrial effective refractory period as well as decreased atrial fibrillatory rate significantly (~20%) and successfully cardioverted AF, although with a decreasing efficacy over time. XAF-1407 shortened atrioventricular-nodal refractoriness, without effect on QRS duration. QTc prolongation (4%) within 15 min of drug infusion was observed, however, without any evidence of ventricular arrhythmia.Conclusion and Implications: XAF-1407 efficiently cardioverted sustained tachypacing-induced AF of short duration in horses without notable side effects. This supports IK,ACh inhibition as a potentially safe treatment of paroxysmal AF in horses, suggesting potential clinical value for other species including humans. [ABSTRACT FROM AUTHOR] more...

Published
2020
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44. Inhibition of KCa2 Channels Decreased the Risk of Ventricular Arrhythmia in the Guinea Pig Heart During Induced Hypokalemia.

Author

Diness, Jonas Goldin, Abildgaard, Lea, Bomholtz, Sofia Hammami, Skarsfeldt, Mark Alexander, Edvardsson, Nils, Sørensen, Ulrik S., Grunnet, Morten, and Bentzen, Bo Hjorth

Subjects
HYPOKALEMIA, GUINEA pigs, VENTRICULAR arrhythmia, VENTRICULAR fibrillation, HEART beat, ATRIAL fibrillation
Abstract

Background: Hypokalemia reduces the cardiac repolarization reserve. This prolongs the QT-interval and increases the risk of ventricular arrhythmia; a risk that is exacerbated by administration of classical class 3 anti-arrhythmic agents. Small conductance Ca2+-activated K+-channels (KCa2) are a promising new atrial selective target for treatment of atrial fibrillation. Under physiological conditions KCa2 plays a minor role in ventricular repolarization. However, this might change under hypokalemia because of concomitant increases in ventriculay -60r intracellur Ca2+. Purpose: To study the effects of pharmacological KCa2 channel inhibition by the compounds AP14145, ICA, or AP30663 under hypokalemic conditions as compared to dofetilide and hypokalemia alone time-matched controls (TMC). Methods: The current at +10 mV was compared in HEK293 cells stably expressing KCa2.3 perfused first with normo- and then hypokalemic solutions (4 mM K+ and 2.5 mM K+, respectively). Guinea pig hearts were isolated and perfused with normokalemic (4 mM K+) Krebs-Henseleit solution, followed by perfusion with drug or vehicle control. The perfusion was then changed to hypokalemic solution (2.5 mM K+) in presence of drug. 30 animals were randomly assigned to 5 groups: ICA, AP14145, AP30663, dofetilide, or TMC. QT-interval, the interval from the peak to the end of the T wave (Tp–Te), ventricular effective refractory period (VERP), arrhythmia score, and ventricular fibrillation (VF) incidence were recorded. Results: Hypokalemia slightly increased KCa2.3 current compared to normokalemia. Application of KCa2 channel inhibitors and dofetilide prolonged the QT interval corrected for heart rate. Dofetilide, but none of the KCa2 channel inhibitors increased Tp–Te during hypokalemia. During hypokalemia 4/6 hearts in the TMC group developed VF (two spontaneously, two by S1S2 stimulation) whereas 5/6 hearts developed VF in the dofetilide group (two spontaneously, three by S1S2 stimulation). In comparison, 0/6, 1/6, and 1/6 hearts developed VF when treated with the KCa2 channel inhibitors AP30663, ICA, or AP14145, respectively. Conclusion: Hypokalemia was associated with an increased incidence of VF, an effect that also seen in the presence of dofetilide. In comparison, the structurally and functionally different KCa2 channel inhibitors, ICA, AP14145, and AP30663 protected the heart from hypokalemia induced VF. These results support that KCa2 inhibition may be associated with a better safety and tolerability profile than dofetilide. [ABSTRACT FROM AUTHOR] more...

Published
2020
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47. A new negative allosteric modulator, AP14145, for the study of small conductance calcium-activated potassium (KCa 2) channels.

Author

Simó‐Vicens, Rafel, Kirchhoff, Jeppe E, Dolce, Bernardo, Abildgaard, Lea, Speerschneider, Tobias, Sørensen, Ulrik S, Grunnet, Morten, Diness, Jonas G, Bentzen, Bo H, Simó-Vicens, Rafel, and Sørensen, Ulrik S more...

Subjects
CALCIUM-dependent potassium channels, ALLOSTERIC regulation, SITE-specific mutagenesis, PHARMACODYNAMICS, AMINO acids
Abstract

Background and Purpose: Small conductance calcium-activated potassium (KCa 2) channels represent a promising atrial-selective target for treatment of atrial fibrillation. Here, we establish the mechanism of KCa 2 channel inhibition by the new compound AP14145.Experimental Approach: Using site-directed mutagenesis, binding determinants for AP14145 inhibition were explored. AP14145 selectivity and mechanism of action were investigated by patch-clamp recordings of heterologously expressed KCa 2 channels. The biological efficacy of AP14145 was assessed by measuring atrial effective refractory period (AERP) prolongation in anaesthetized rats, and a beam walk test was performed in mice to determine acute CNS-related effects of the drug.Key Results: AP14145 was found to be an equipotent negative allosteric modulator of KCa 2.2 and KCa 2.3 channels (IC50  = 1.1 ± 0.3 μM). The presence of AP14145 (10 μM) increased the EC50 of Ca2+ on KCa 2.3 channels from 0.36 ± 0.02 to 1.2 ± 0.1 μM. The inhibitory effect strongly depended on two amino acids, S508 and A533 in the channel. AP14145 concentration-dependently prolonged AERP in rats. Moreover, AP14145 (10 mg·kg-1 ) did not trigger any apparent CNS effects in mice.Conclusions and Implications: AP14145 is a negative allosteric modulator of KCa 2.2 and KCa 2.3 channels that shifted the calcium dependence of channel activation, an effect strongly dependent on two identified amino acids. AP14145 prolonged AERP in rats and did not trigger any acute CNS effects in mice. The understanding of how KCa 2 channels are inhibited, at the molecular level, will help further development of drugs targeting KCa 2 channels. [ABSTRACT FROM AUTHOR] more...

Published
2017
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49. Termination of Vernakalant-Resistant Atrial Fibrillation by Inhibition of Small-Conductance Ca 2+ -Activated K + Channels in Pigs

Author

Diness, Jonas Goldin, primary, Skibsbye, Lasse, additional, Simó-Vicens, Rafel, additional, Santos, Joana Larupa, additional, Lundegaard, Pia, additional, Citerni, Carlotta, additional, Sauter, Daniel Rafael Peter, additional, Bomholtz, Sofia Hammami, additional, Svendsen, Jesper Hastrup, additional, Olesen, Søren-Peter, additional, Sørensen, Ulrik S., additional, Jespersen, Thomas, additional, Grunnet, Morten, additional, and Bentzen, Bo Hjorth, additional more...

Published
2017
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50. The KCa2 Channel Inhibitor AP30663 Selectively Increases Atrial Refractoriness, Converts Vernakalant-Resistant Atrial Fibrillation and Prevents Its Reinduction in Conscious Pigs.

Author

Diness, Jonas Goldin, Kirchhoff, Jeppe Egedal, Speerschneider, Tobias, Abildgaard, Lea, Edvardsson, Nils, Sørensen, Ulrik S., Grunnet, Morten, and Bentzen, Bo Hjorth

Subjects
ATRIAL fibrillation, SWINE, NEURAL stimulation, ELECTRIC countershock
Abstract

Aims: To describe the effects of the KCa2 channel inhibitor AP30663 in pigs regarding tolerability, cardiac electrophysiology, pharmacokinetics, atrial functional selectivity, effectiveness in cardioversion of tachy-pacing induced vernakalant-resistant atrial fibrillation (AF), and prevention of reinduction of AF. Methods and Results: Six healthy pigs with implanted pacemakers and equipped with a Holter monitor were used to compare the effects of increasing doses (0, 5, 10, 15, 20, and 25 mg/kg) of AP30663 on the right atrial effective refractory period (AERP) and on various ECG parameters, including the QT interval. Ten pigs with implanted neurostimulators were long-term atrially tachypaced (A-TP) until sustained vernakalant-resistant AF was present. 20 mg/kg AP30663 was tested to discover if it could successfully convert vernakalant-resistant AF to sinus rhythm (SR) and protect against reinduction of AF. Seven anesthetized pigs were used for pharmacokinetic experiments. Two pigs received an infusion of 20 mg/kg AP30663 over 60 min while five pigs received 5 mg/kg AP30663 over 30 min. Blood samples were collected before, during, and after infusion on AP30663. AP30663 was well-tolerated and prominently increased the AERP in pigs with little effect on ventricular repolarization. Furthermore, it converted A-TP induced AF that had become unresponsive to vernakalant, and it prevented reinduction of AF in pigs. Both a >30 ms increase of the AERP and conversion of AF occurred in different pigs at a free plasma concentration level of around 1.0–1.4 µM of AP30663, which was achieved at a dose level of 5 mg/kg. Conclusion: AP30663 has shown properties in animals that would be of clinical interest in man. [ABSTRACT FROM AUTHOR] more...

Published
2020
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