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5. Protease XIV abolishes NHE inhibition by empagliflozin in cardiac cells.

Author

Sha Chen, Schumacher, Cees A., Van Amersfoorth, Shirley C. M., Fiolet, Jan W. T., Baartscheer, Antonius, Veldkamp, Marieke W., Coronel, Ruben, and Zuurbier, Coert J.

Subjects
HEART cells, CELL separation, EMPAGLIFLOZIN, COLLAGENASES, RABBITS, ISOLATION perfusion
Abstract

Background: SGLT2i directly inhibit the cardiac sodium-hydrogen exchanger-1 (NHE1) in isolated ventricular cardiomyocytes (CMs). However, other studies with SGLT2i have yielded conflicting results. This may be explained by methodological factors including cell isolation techniques, cell types and ambient pH. In this study, we tested whether the use of protease XIV (PXIV) may abrogate inhibition of SGLT2i on cardiac NHE1 activity in isolated rabbit CMs or rat cardiomyoblast cells (H9c2), in a pH dependent manner. Methods: Rabbit ventricular CMs were enzymatically isolated from Langendorff-perfused hearts during a 30-min perfusion period followed by a 25-min after-dissociation period, using a collagenase mixture without or with a low dose PXIV (0.009 mg/mL) present for different periods. Empagliflozin (EMPA) inhibition on NHE activity was then assessed at pH of 7.0, 7.2 and 7.4. In addition, effects of 10 min PXIV treatment were also evaluated in H9c2 cells for EMPA and cariporide NHE inhibition. Results: EMPA reduced NHE activity in rabbit CMs that were not exposed to PXIV treatment or undergoing a 35-min PXIV treatment, independent of pH levels. However, when exposure time to PXIV was extended to 55 min, NHE inhibition by Empa was completely abolished at all three pH levels. In H9c2 cells, NHE inhibition by EMPA was evident in non-treated cells but lost after 10-min incubation with PXIV. NHE inhibition by cariporide was unaffected by PXIV. Conclusion: The use of protease XIV in cardiac cell isolation procedures obliterates the inhibitory effects of SGLT2i on NHE1 activity in isolated cardiac cells, independent of pH. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Empagliflozin reduces oxidative stress through inhibition of the novel inflammation/NHE/[Na+](c)/ROS-pathway in human endothelial cells

Author

Uthman, L., Li, Xiaoling, Baartscheer, Antonius, Schumacher, Cees A., Baumgart, Patricia, Hermanides, Jeroen, Zuurbier, C.J., Weber, N.C., Uthman, L., Li, Xiaoling, Baartscheer, Antonius, Schumacher, Cees A., Baumgart, Patricia, Hermanides, Jeroen, Zuurbier, C.J., and Weber, N.C.

Abstract

Contains fulltext : 242512.pdf (Publisher’s version ) (Open Access)

Published
2022

12. Structurally Abnormal Myocardium Underlies Ventricular Fibrillation Storms in a Patient Diagnosed With the Early Repolarization Pattern

Author

Boukens, Bastiaan J., primary, Benjacholamas, Vichai, additional, van Amersfoort, Shirley, additional, Meijborg, Veronique M., additional, Schumacher, Cees, additional, Jensen, Bjarke, additional, Haissaguerre, Michel, additional, Wilde, Arthur, additional, Prechawat, Somchai, additional, Huntrakul, Anurut, additional, Nademanee, Koonlawee, additional, and Coronel, Ruben, additional

Published
2020
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16. Neurokinin-3 receptor activation selectively prolongs atrial refractoriness by inhibition of a background K+ channel

Author

Veldkamp, Marieke W., primary, Geuzebroek, Guillaume S. C., additional, Baartscheer, Antonius, additional, Verkerk, Arie O., additional, Schumacher, Cees A., additional, Suarez, Gedeon G., additional, Berger, Wouter R., additional, Casini, Simona, additional, van Amersfoorth, Shirley C. M., additional, Scholman, Koen T., additional, Driessen, Antoine H. G., additional, Belterman, Charly N. W., additional, van Ginneken, Antoni C. G., additional, de Groot, Joris R., additional, de Bakker, Jacques M. T., additional, Remme, Carol Ann, additional, Boukens, Bas J., additional, and Coronel, Ruben, additional

Published
2018
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17. Neurokinin-3 receptor activation selectively prolongs atrial refractoriness by inhibition of a background K+ channel

Author

Veldkamp, Marieke W., Geuzebroek, G.S.C., Baartscheer, Antonius, Verkerk, Arie O., Schumacher, Cees A., Suarez, Gedeon G., Boukens, Bas J., Coronel, Ruben, Veldkamp, Marieke W., Geuzebroek, G.S.C., Baartscheer, Antonius, Verkerk, Arie O., Schumacher, Cees A., Suarez, Gedeon G., Boukens, Bas J., and Coronel, Ruben

Abstract

Contains fulltext : 198329.pdf (publisher's version ) (Open Access)

Published
2018

18. In vivo mouse myocardial 31P MR spectroscopy using 3D ISIS: technical considerations and biochemical validations

Author

Bakermans, Adrianus J., Abdurrachim, Desiree, van Nierop, Bastiaan J., Koeman, Anneke, van der Kroon, Inge, Baartscheer, Antonius, Schumacher, Cees A., Strijkers, Gustav J., Houten, Sander M., Zuurbier, Coert J., Nicolay, Klaas, and Prompers, Jeanine J.

Subjects
Male, Magnetic Resonance Spectroscopy, Isoflurane, Phosphocreatine, Myocardium, Hemodynamics, Phosphorus Isotopes, Article, Mice, Inbred C57BL, Oxygen, Mice, Ventricular Dysfunction, Left, Adenosine Triphosphate, Imaging, Three-Dimensional, Anesthetics, Inhalation, Animals, Homeostasis, Anesthesia, Inhalation, Energy Metabolism, Ligation, Aorta
Abstract

(31)P MRS provides a unique non-invasive window into myocardial energy homeostasis. Mouse models of cardiac disease are widely used in preclinical studies, but the application of (31)P MRS in the in vivo mouse heart has been limited. The small-sized, fast-beating mouse heart imposes challenges regarding localized signal acquisition devoid of contamination with signal originating from surrounding tissues. Here, we report the implementation and validation of three-dimensional image-selected in vivo spectroscopy (3D ISIS) for localized (31)P MRS of the in vivo mouse heart at 9.4 T. Cardiac (31)P MR spectra were acquired in vivo in healthy mice (n = 9) and in transverse aortic constricted (TAC) mice (n = 8) using respiratory-gated, cardiac-triggered 3D ISIS. Localization and potential signal contamination were assessed with (31)P MRS experiments in the anterior myocardial wall, liver, skeletal muscle and blood. For healthy hearts, results were validated against ex vivo biochemical assays. Effects of isoflurane anesthesia were assessed by measuring in vivo hemodynamics and blood gases. The myocardial energy status, assessed via the phosphocreatine (PCr) to adenosine 5'-triphosphate (ATP) ratio, was approximately 25% lower in TAC mice compared with controls (0.76 ± 0.13 versus 1.00 ± 0.15; P0.01). Localization with one-dimensional (1D) ISIS resulted in two-fold higher PCr/ATP ratios than measured with 3D ISIS, because of the high PCr levels of chest skeletal muscle that contaminate the 1D ISIS measurements. Ex vivo determinations of the myocardial PCr/ATP ratio (0.94 ± 0.24; n = 8) confirmed the in vivo observations in control mice. Heart rate (497 ± 76 beats/min), mean arterial pressure (90 ± 3.3 mmHg) and blood oxygen saturation (96.2 ± 0.6%) during the experimental conditions of in vivo (31)P MRS were within the normal physiological range. Our results show that respiratory-gated, cardiac-triggered 3D ISIS allows for non-invasive assessments of in vivo mouse myocardial energy homeostasis with (31)P MRS under physiological conditions.

Published
2015

20. Neurokinin-3 receptor activation selectively prolongs atrial refractoriness by inhibition of a background K+ channel.

Author

Veldkamp, Marieke W., Geuzebroek, Guillaume S. C., Baartscheer, Antonius, Verkerk, Arie O., Schumacher, Cees A., Suarez, Gedeon G., Berger, Wouter R., Casini, Simona, van Amersfoorth, Shirley C. M., Scholman, Koen T., Driessen, Antoine H. G., Belterman, Charly N. W., van Ginneken, Antoni C. G., de Groot, Joris R., de Bakker, Jacques M. T., Remme, Carol Ann, Boukens, Bas J., and Coronel, Ruben

Abstract

The cardiac autonomic nervous system (ANS) controls normal atrial electrical function. The cardiac ANS produces various neuropeptides, among which the neurokinins, whose actions on atrial electrophysiology are largely unknown. We here demonstrate that the neurokinin substance-P (Sub-P) activates a neurokinin-3 receptor (NK-3R) in rabbit, prolonging action potential (AP) duration through inhibition of a background potassium current. In contrast, ventricular AP duration was unaffected by NK-3R activation. NK-3R stimulation lengthened atrial repolarization in intact rabbit hearts and consequently suppressed arrhythmia duration and occurrence in a rabbit isolated heart model of atrial fibrillation (AF). In human atrial appendages, the phenomenon of NK-3R mediated lengthening of atrial repolarization was also observed. Our findings thus uncover a pathway to selectively modulate atrial AP duration by activation of a hitherto unidentified neurokinin-3 receptor in the membrane of atrial myocytes. NK-3R stimulation may therefore represent an anti-arrhythmic concept to suppress re-entry-based atrial tachyarrhythmias, including AF. [ABSTRACT FROM AUTHOR]

Published
2018
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21. Class effects of SGLT2 inhibitors in mouse cardiomyocytes and hearts: inhibition of Na+/H+ exchanger, lowering of cytosolic Na+ and vasodilation.

Author

Uthman, Laween, Baartscheer, Antonius, Bleijlevens, Boris, Schumacher, Cees A., Fiolet, Jan W. T., Koeman, Anneke, Jancev, Milena, Hollmann, Markus W., Weber, Nina C., Coronel, Ruben, and Zuurbier, Coert J.

Abstract

Aims/hypothesis: Sodium–glucose cotransporter 2 (SGLT2) inhibitors (SGLT2i) constitute a novel class of glucose-lowering (type 2) kidney-targeted agents. We recently reported that the SGLT2i empagliflozin (EMPA) reduced cardiac cytosolic Na+ ([Na+]c) and cytosolic Ca2+ ([Ca2+]c) concentrations through inhibition of Na+/H+ exchanger (NHE). Here, we examine (1) whether the SGLT2i dapagliflozin (DAPA) and canagliflozin (CANA) also inhibit NHE and reduce [Na+]c; (2) a structural model for the interaction of SGLT2i to NHE; (3) to what extent SGLT2i affect the haemodynamic and metabolic performance of isolated hearts of healthy mice.Methods: Cardiac NHE activity and [Na+]c in mouse cardiomyocytes were measured in the presence of clinically relevant concentrations of EMPA (1 μmol/l), DAPA (1 μmol/l), CANA (3 μmol/l) or vehicle. NHE docking simulation studies were applied to explore potential binding sites for SGTL2i. Constant-flow Langendorff-perfused mouse hearts were subjected to SGLT2i for 30 min, and cardiovascular function, O2 consumption and energetics (phosphocreatine (PCr)/ATP) were determined.Results: EMPA, DAPA and CANA inhibited NHE activity (measured through low pH recovery after NH4+ pulse: EMPA 6.69 ± 0.09, DAPA 6.77 ± 0.12 and CANA 6.80 ± 0.18 vs vehicle 7.09 ± 0.09; p < 0.001 for all three comparisons) and reduced [Na+]c (in mmol/l: EMPA 10.0 ± 0.5, DAPA 10.7 ± 0.7 and CANA 11.0 ± 0.9 vs vehicle 12.7 ± 0.7; p < 0.001). Docking studies provided high binding affinity of all three SGLT2i with the extracellular Na+-binding site of NHE. EMPA and CANA, but not DAPA, induced coronary vasodilation of the intact heart. PCr/ATP remained unaffected.Conclusions/interpretation: EMPA, DAPA and CANA directly inhibit cardiac NHE flux and reduce [Na+]c, possibly by binding with the Na+-binding site of NHE-1. Furthermore, EMPA and CANA affect the healthy heart by inducing vasodilation. The [Na+]c-lowering class effect of SGLT2i is a potential approach to combat elevated [Na+]c that is known to occur in heart failure and diabetes. [ABSTRACT FROM AUTHOR]

Published
2018
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22. Orphan nuclear receptor Nur77 affects cardiomyocyte calcium homeostasis and adverse cardiac remodelling

Author

Medzikovic, Lejla, primary, Schumacher, Cees A., additional, Verkerk, Arie O., additional, van Deel, Elza D., additional, Wolswinkel, Rianne, additional, van der Made, Ingeborg, additional, Bleeker, Natascha, additional, Cakici, Daniella, additional, van den Hoogenhof, Maarten M. G., additional, Meggouh, Farid, additional, Creemers, Esther E., additional, Remme, Carol Ann, additional, Baartscheer, Antonius, additional, de Winter, Robbert J., additional, de Vries, Carlie J. M., additional, Arkenbout, E. Karin, additional, and de Waard, Vivian, additional

Published
2015
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26. Functional Na V 1.8 Channels in Intracardiac Neurons

Author

Verkerk, Arie O., primary, Remme, Carol Ann, additional, Schumacher, Cees A., additional, Scicluna, Brendon P., additional, Wolswinkel, Rianne, additional, de Jonge, Berend, additional, Bezzina, Connie R., additional, and Veldkamp, Marieke W., additional

Published
2012
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27. A Diet Rich in Unsaturated Fatty Acids Prevents Progression Toward Heart Failure in a Rabbit Model of Pressure and Volume Overload

Author

Den Ruijter, Hester M., primary, Verkerk, Arie O., additional, Schumacher, Cees A., additional, Houten, Sander M., additional, Belterman, Charly N.W., additional, Baartscheer, Antonius, additional, Brouwer, Ingeborg A., additional, van Bilsen, Marc, additional, de Roos, Baukje, additional, and Coronel, Ruben, additional

Published
2012
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30. Response to Letter Regarding Article “Acute Administration of Fish Oil Inhibits Triggered Activity in Isolated Myocytes From Rabbits and Patients With Heart Failure”

Author

den Ruijter, Hester M., primary, Berecki, Géza, additional, Verkerk, Arie O., additional, Bakker, Diane, additional, Baartscheer, Antonius, additional, Schumacher, Cees A., additional, Belterman, Charly N.W., additional, Fiolet, Jan W.T., additional, Coronel, Ruben, additional, de Jonge, Nicolaas, additional, and Brouwer, Ingeborg A., additional

Published
2008
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31. Acute Administration of Fish Oil Inhibits Triggered Activity in Isolated Myocytes From Rabbits and Patients With Heart Failure

Author

Den Ruijter, Hester M., primary, Berecki, Géza, additional, Verkerk, Arie O., additional, Bakker, Diane, additional, Baartscheer, Antonius, additional, Schumacher, Cees A., additional, Belterman, Charly N.W., additional, de Jonge, Nicolaas, additional, Fiolet, Jan W.T., additional, Brouwer, Ingeborg A., additional, and Coronel, Ruben, additional

Published
2008
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36. Dietary n-3 fatty acids promote arrhythmias during acute regional myocardial ischemia in isolated pig hearts

Author

Coronel, Ruben, Wilms-Schopman, Francien J.G., Den Ruijter, Hester M., Belterman, Charly N., Schumacher, Cees A., Opthof, Tobias, Hovenier, Robert, Lemmens, Arnoldina G., Terpstra, Antonius H.M., Katan, Martijn B., and Zock, Peter

Subjects
ISCHEMIA, BLOOD circulation disorders, HEART diseases, FATTY acids
Abstract

Abstract: Objective: Dietary supplementation with fish oil-derived n-3 fatty acids reduces mortality in patients with myocardial infarction, but may have adverse effects in angina patients. The underlying electrophysiologic mechanisms are poorly understood. We studied the arrhythmias and the electrophysiologic changes during regional ischemia in hearts from pigs fed a diet rich in fish oil. Methods: Pigs received diets rich in fish oil, in sunflower oil, or a control diet for 8 weeks. Hearts were isolated and perfused. Ischemia was created by occluding the left anterior descending artery. Diastolic stimulation threshold, refractory period, conduction velocity, activation recovery intervals and the maximum downstroke velocity of 176 electrograms were measured in the ischemic zone. Spontaneous arrhythmias during 75 min of regional ischemia were counted. Results: More episodes of spontaneous ischemia-induced sustained ventricular tachycardia and ventricular fibrillation occurred in the fish oil and sunflower oil group than in the control group. More inexcitable myocardium was present in the ischemic zone in the group fed fish oil or sunflower oil than in the control group after 20 min of ischemia. After 40 min of ischemia, more block occurred in the control group than in the other groups. The downstroke velocity of the electrograms in the ischemic border zone was lower in the fish oil group and sunflower oil group than in the control after 20 min. Conclusions: A diet rich in fish oil results in proarrhythmia compared to a control diet during regional ischemia in pigs. Myocardial excitability is reduced in the fish oil and sunflower oil group during the early phase of arrhythmogenesis. In the late phase of arrhythmogenesis, excitability is more reduced in the control group than in the fish oil and sunflower oil group. [Copyright &y& Elsevier]

Published
2007
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37. Incorporated sarcolemmal fish oil fatty acids shorten pig ventricular action potentials

Author

Verkerk, Arie O., van Ginneken, Antoni C.G., Berecki, Géza, den Ruijter, Hester M., Schumacher, Cees A., Veldkamp, Marieke W., Baartscheer, Antonius, Casini, Simona, Opthof, Tobias, Hovenier, Robert, Fiolet, Jan W.T., Zock, Peter L., and Coronel, Ruben

Subjects
HEART diseases, FISH oils, MARINE animal oils, FATTY acids
Abstract

Abstract: Background: Omega-3 polyunsaturated fatty acids (ω3-PUFAs) from fish oil reduce the risk of sudden death presumably by preventing life-threatening arrhythmias. Acutely administered ω3-PUFAs modulate the activity of several cardiac ion channels, but the chronic effects of a diet enriched with fish oil leading to ω3-PUFA-incorporation into the sarcolemma on membrane currents are unknown. Methods: Pigs received a diet either rich in ω3-PUFAs or in ω9-fatty acids for 8weeks. Ventricular myocytes (VMs) were isolated and used for patch-clamp studies. Results: ω3-VMs contained higher amounts of ω3-PUFAs and had a shorter action potential (AP) with a more negative plateau than control VM. In ω3 VMs, L-type Ca2+ current (I Ca,L) and Na+–Ca2+ exchange current (I NCX) were reduced by approximately 20% and 60%, respectively, and inward rectifier K+ current (I K1) and slow delayed rectifier K+ current (I Ks) were increased by approximately 50% and 70%, respectively, compared to control. Densities of rapid delayed rectifier K+ current, Ca2+-activated Cl current, and Na+ current (I Na) were unchanged, although voltage-dependence of I Na inactivation was more negative in ω3 VMs. Conclusions: A fish oil diet increases ω3-PUFA content in the ventricular sarcolemma, decreases I Ca,L and I NCX, and increases I K1 and I Ks, resulting in AP shortening. Incorporation of ω3-PUFAs in the sarcolemma may have consequences for arrhythmias independent of circulating ω3-PUFAs. [Copyright &y& Elsevier]

Published
2006
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38. Chronic inhibition of Na+/H+-exchanger attenuates cardiac hypertrophy and prevents cellular remodeling in heart failure

Author

Baartscheer, Antonius, Schumacher, Cees A., van Borren, Marcel M.G.J., Belterman, Charly N.W., Coronel, Ruben, Opthof, Tobias, and Fiolet, Jan W.T.

Subjects
*MUSCLE cells, *CARDIAC hypertrophy, *HEART failure, *CARDIAC arrest
Abstract

Abstract: Objective: In patients with heart disease, the transition from compensatory hypertrophy to heart failure (HF) is associated with altered calcium handling. Up-regulated Na+/H+-exchanger (NHE-1) activity underlies increased [Na+]i and disturbance of cellular calcium handling in HF. We hypothesize that chronic inhibition of NHE-1 activity prevents the hypertrophic response, cellular remodeling, and development of HF. Methods: Rabbits received a control or cariporide (inhibitor of NHE-1) diet for 3 months, starting after induction of combined volume and pressure overload. Age-matched animals served as control. Development of HF was examined echocardiographically and electrocardiographically after 3 months. [Na+]i, [Ca2+]i, pHi, and action potentials were measured in left ventricular midmural myocytes with SBFI, indo-1, SNARF, and di-4-anepps. Sarcoplasmic reticulum calcium content was calculated from the response of [Ca2+]i to rapid cooling. Calcium after-transients were elicited by cessation of rapid stimulation (3 Hz) in the presence of 100 nmol/l noradrenalin. Results: Chronic treatment of rabbits with the specific Na+/H+-exchanger activity inhibitor cariporide greatly attenuated development of hypertrophy and entirely abolished development of HF; the heart/body weight ratio increased only little, no change in lung weight occurred, left ventricular dimensions and fractional shortening changed mildly, ascites was not present, QT duration did not increase, and sudden death did not occur. Chronic cariporide treatment also prevented cellular electrical and ionic remodeling. Myocyte dimensions were unaltered, action potentials were not prolonged, cytoplasmic sodium and NHE-1 activity did not increase, cytoplasmic and SR calcium handling remained undisturbed, and no increase of the incidence of calcium after-transient dependent delayed after depolarizations (DADs) occurred. Conclusion: We conclude that enhanced activity of NHE-1 underlies cardiac cellular electrical and ionic remodeling in experimental heart failure, and that chronic dietary treatment with cariporide attenuates hypertrophy, development of HF, and cellular remodeling. [Copyright &y& Elsevier]

Published
2005
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39. Intrinsic heterogeneity in repolarization is increased in isolated failing rabbit cardiomyocytes during simulated ischemia

Author

de Groot, Joris R., Schumacher, Cees A., Verkerk, Arie O., Baartscheer, Antonius, Fiolet, Jan W.T., and Coronel, Ruben

Subjects
*ARRHYTHMIA, *HEART failure, *ISCHEMIA
Abstract

Objective: Myocardial ischemia and ventricular arrhythmias often complicate congestive heart failure. Ischemia-induced dispersion in repolarization is an important arrhythmogenic factor that might be caused by intrinsic cellular differences in response to simulated ischemia (SI) or by changed coupling of myocytes. We hypothesized that intrinsic heterogeneity in action potential duration (APD) or the occurrence of rigor is larger in failing than in normal rabbit myocytes during SI. Methods: Heart failure (HF) was induced with volume and pressure overload. Left ventricular myocytes from apex, free wall and base were enzymatically isolated and exposed to SI with NaCN. Results: There were no baseline differences in APD before SI. During SI no differences in time to inexcitability occurred but the range in APD increased more in HF than in normal cells. Rigor occurred after 16.8±3.5 and 23.0±7.5 min (P<0.05) in normal and HF myocytes, with no differences between apical, free wall or base cells. Variance in time to rigor was larger in HF than in normal cells (55.7 versus 12.4 min2). Blockade of anaerobic reserve decreased variance in time to rigor, also when normalized to mean, in HF and normal myocytes. In coupled normal and HF cell pairs, no delay in action potential propagation or differences in APD occurred during SI, and time to rigor was synchronized (P<0.05 vs. single cells). Conclusions: Intercellular differences in APD and in time of rigor arise in normal and HF myocytes subjected to SI, and are inhibited by blockade of anaerobic glycolysis. Dispersion in APD and tolerance to SI is increased in HF cells. APD and time to rigor are completely synchronized in coupled cell pairs. [Copyright &y& Elsevier]

Published
2003
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40. SR calcium handling and calcium after-transients in a rabbit model of heart failure

Author

Baartscheer, Antonius, Schumacher, Cees A., Belterman, Charly N.W., Coronel, Ruben, and Fiolet, Jan W.T.

Subjects
*ARRHYTHMIA, *HEART failure, *MUSCLE cells
Abstract

Objective: After-depolarization associated arrhythmias are frequently observed in heart failure and associated with spontaneous calcium release from sarcoplasmic reticulum (SR), calcium after-transients. We hypothesize that disturbed SR calcium handling underlies calcium after-transients in heart failure (HF). Methods: We measured the stimulation rate dependence (0.2–3 Hz) of diastolic calcium, calcium transient amplitude and SR calcium content in left ventricular myocytes isolated from hearts of rabbits with pressure and volume overload-induced HF and age-matched control animals. Cytosolic calcium was measured with indo-1. In some experiments, delayed after-depolarizations (DADs) were monitored with the voltage sensitive dye di-4-Annepps. SR calcium content was estimated from the response to rapid cooling (RC). After-transients were elicited in the presence of norepinephrine (100 nmol/l) after cessation of burst pacing. Results: With increasing stimulation rate (0.2–3.0 Hz): (1) steady state diastolic [Ca]i increased from 102 to 174 nmol/l in HF and from 44 to 103 nmol/l in control, (2) calcium transient amplitudes decreased from 310 to 254 nmol/l in HF and increased from 186 to 429 nmol/l in control, (3) SR calcium content decreased from 1.25 to 1.09 mmol/l in HF and increased from 1.51 to 2.48 mmol/l in control, (4) in HF and control, the end diastolic SR membrane calcium gradient decreased by about 30%; at any stimulation rate, the magnitude of gradient in HF was one-third of control, (5) systolic depletion of SR was 85% in HF and 60% in control. In HF, noradrenaline (100 nmol/l) increased SR calcium content and SR membrane gradient by 40% versus about 7% in control. Calcium after-transients were observed in 14 out of 18 HF rabbits, and none in eight control animals and were associated with DADs. Calcium after-transients were associated with a 35% decrease in SR calcium content. The frequency of occurrence of calcium after-transients was related to diastolic calcium. Conclusions: in HF, diastolic calcium is increased and both SR calcium content and SR membrane calcium gradient are decreased in a stimulation rate-dependent manner. In HF, β-adrenergic stimulation can partly restore the SR calcium content and SR membrane gradient at higher stimulation rates in a meta-stable condition; upon transition to low stimulation rates, the SR membrane can no longer maintain this high unbalanced SR calcium load at increased diastolic calcium, the magnitude of which is causally related to the occurrence of calcium after-transients. [Copyright &y& Elsevier]

Published
2003
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43. A Diet Rich in Unsaturated Fatty Acids Prevents Progression Toward Heart Failure in a Rabbit Model of Pressure and Volume Overload

Author

Ruijter, Hester M. Den, Verkerk, Arie O., Schumacher, Cees A., Houten, Sander M., Belterman, Charly N.W., Baartscheer, Antonius, Brouwer, Ingeborg A., van Bilsen, Marc, de Roos, Baukje, and Coronel, Ruben

Abstract

During heart failure (HF), cardiac metabolic substrate preference changes from fatty acid (FA) toward glucose oxidation. This change may cause progression toward heart failure. We hypothesize that a diet rich in FAs may prevent this process, and that dietary 3-FAs have an added antiarrhythmic effect based on action potential (AP) shortening in animals with HF.

Published
2012
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44. KATPChannel Opening During Ischemia Effects on Myocardial Noradrenaline Release and Ventricular Arrhythmias

Author

Ann Remme, Carol, A. Schumacher, Cees, Jong, Jan W. J. de, W. T. Fiolet, Jan, R. de Groot, Joris, Coronel, Ruben, and A. M. Wilde, Arthur

Abstract

Cardioprotection by KATPchannel openers during ischemia is well documented although ill understood. Proarrhythmic effects may be an important drawback. KATPchannel modulation influences neurotransmitter release during ischemia in brain synaptosomes. Therefore, we studied the effects of KATPchannel modulation on myocardial noradrenaline release and arrhythmias in ischemic rabbit hearts. Isolated rabbit hearts were perfused according to Langendorff and stimulated. Local electrograms were recorded and Kselective electrodes were inserted in the left ventricular free wall. Cromakalim 3 Mor glibenclamide 3 Mwas added 20 min prior to induction of global ischemia. After 15, 20, or 30 min of ischemia, hearts were reperfused and noradrenaline content of the first 100 ml of reperfusate was measured. Cromakalim n 16 prevented the second rise of extracellular K in accordance with its cardioprotective effect. Cromakalim significantly reduced noradrenaline release after 15 min mean, 169 ± SEM 97 pmolgr dry weight vs. control 941 ± 278 p < 0.05 and 20 min of ischemia 230 ± 125 pmolgr dry wt vs. control 1,460 ± 433 p < 0.05, but after 30 min of ischemia, the difference in noradrenaline release was no longer significant cromakalim 2,703 ± 1,195 pmolgr dry wt vs. control 5,413 ± 1,310 p 0.08. Ventricular fibrillation or ventricular tachycardia occurred in 10 of 13 control hearts 77 n19, in six of 10 glibenclamidetreated hearts 60 n 15, and in six of 14 cromakalimtreated hearts 43 p NS. Cromakalim significantly accelerated onset of ventricular tachycardia or fibrillation mean ± SEM onset after 12.5 ± 1.6 min ischemia vs. control 16.2 ± 0.7 min p < 0.05. Noradrenaline release occurred only in cromakalimtreated hearts with earlyonset arrhythmias whereas no noradrenaline release was observed in cromakalimtreated hearts without ventricular tachycardia or fibrillation. Our results show that activation of the KATPchannel by cromakalim during ischemia reduces myocardial noradrenaline release and postpones the onset of irreversible damage, contributing to the cardioprotective potential of KATPopeners during myocardial ischemia.

Published
2001

45. Role of Ca2+-activated Cl- current in ventricular action potentials of sheep during adrenoceptor stimulation

Author

Verkerk, Arie O., Schumacher, Cees A., Ginneken, Antoni C. G. van, Veldkamp, Marieke W., and Ravesloot, Jan H.

Abstract

Adrenoceptor stimulation enhances repolarising and depolarising membrane currents to different extents in cardiac myocytes. We investigated the opposing effects of the repolarising Ca2+-activated Cl- current (ICl(Ca)) and depolarising L-type Ca2+ current (ICa,L) on the action potential configuration of sheep ventricular myocytes stimulated with noradrenaline. Whole-cell current-clamp recordings revealed that noradrenaline accelerated and prolonged phase-1 repolarisation. We define the minimal potential at the end of phase-1 repolarisation as 'notch level'. Noradrenaline (1 µM) caused the notch level to fall from 14 ± 2.6 to 7.8 ± 2.8 mV (n = 24), but left action potential duration, resting membrane potential or action potential amplitude unaffected. Whole-cell voltage-clamp recordings showed that 1 µM noradrenaline increased both ICa,L and ICl(Ca), but it had no significant effect on the principal K+ currents. Blockage of ICl(Ca) by 0.5 mM 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS) in both the absence and the presence of noradrenaline abolished phase-1 repolarisation. In the presence of noradrenaline, DIDS caused elevation of the plateau phase amplitude and an increase in the action potential duration. In conclusion, elevation of the plateau phase amplitude and action potential prolongation associated with an increased ICa,L upon adrenoceptor stimulation is prevented by an increased ICl(Ca) in sheep ventricular myocytes. Experimental Physiology (2001) 86.2, 151-159.

Published
2001

46. Role of Ca2+‐Activated Cl−Current in Ventricular Action Potentials of Sheep During Adrenoceptor Stimulation

Author

Verkerk, Arie O., Schumacher, Cees A., Ginneken, Antoni C. G., Veldkamp, Marieke W., and Ravesloot, Jan H.

Abstract

Adrenoceptor stimulation enhances repolarising and depolarising membrane currents to different extents in cardiac myocytes. We investigated the opposing effects of the repolarising Ca2+‐activated Cl−current (ICl(Ca)) and depolarising L‐type Ca2+current (ICa,L) on the action potential configuration of sheep ventricular myocytes stimulated with noradrenaline. Whole‐cell current‐clamp recordings revealed that noradrenaline accelerated and prolonged phase‐1 repolarisation. We define the minimal potential at the end of phase‐1 repolarisation as ‘notch level’. Noradrenaline (1 μM) caused the notch level to fall from 14 ± 2.6 to 7.8 ± 2.8 mV (n= 24), but left action potential duration, resting membrane potential or action potential amplitude unaffected. Whole‐cell voltage‐clamp recordings showed that 1 μM noradrenaline increased both ICa,Land ICl(Ca), but it had no significant effect on the principal K+currents. Blockage of ICl(Ca)by 0.5 mM 4,4′‐diisothiocyanatostilbene‐2,2′‐disulphonic acid (DIDS) in both the absence and the presence of noradrenaline abolished phase‐1 repolarisation. In the presence of noradrenaline, DIDS caused elevation of the plateau phase amplitude and an increase in the action potential duration. In conclusion, elevation of the plateau phase amplitude and action potential prolongation associated with an increased ICa,Lupon adrenoceptor stimulation is prevented by an increased ICl(Ca)in sheep ventricular myocytes.

Published
2001
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47. Neurokinin-3 receptor activation selectively prolongs atrial refractoriness by inhibition of a background K + channel.

Author

Veldkamp MW, Geuzebroek GSC, Baartscheer A, Verkerk AO, Schumacher CA, Suarez GG, Berger WR, Casini S, van Amersfoorth SCM, Scholman KT, Driessen AHG, Belterman CNW, van Ginneken ACG, de Groot JR, de Bakker JMT, Remme CA, Boukens BJ, and Coronel R

Subjects
Action Potentials, Animals, Arrhythmias, Cardiac, Atrial Fibrillation, Atrial Function, Humans, Potassium Channel Blockers, Rabbits, Receptors, Neurokinin-3 metabolism, Heart Atria metabolism, Potassium Channels metabolism, Receptors, Neurokinin-3 physiology
Abstract

The cardiac autonomic nervous system (ANS) controls normal atrial electrical function. The cardiac ANS produces various neuropeptides, among which the neurokinins, whose actions on atrial electrophysiology are largely unknown. We here demonstrate that the neurokinin substance-P (Sub-P) activates a neurokinin-3 receptor (NK-3R) in rabbit, prolonging action potential (AP) duration through inhibition of a background potassium current. In contrast, ventricular AP duration was unaffected by NK-3R activation. NK-3R stimulation lengthened atrial repolarization in intact rabbit hearts and consequently suppressed arrhythmia duration and occurrence in a rabbit isolated heart model of atrial fibrillation (AF). In human atrial appendages, the phenomenon of NK-3R mediated lengthening of atrial repolarization was also observed. Our findings thus uncover a pathway to selectively modulate atrial AP duration by activation of a hitherto unidentified neurokinin-3 receptor in the membrane of atrial myocytes. NK-3R stimulation may therefore represent an anti-arrhythmic concept to suppress re-entry-based atrial tachyarrhythmias, including AF.

Published
2018
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48. Functional Nav1.8 channels in intracardiac neurons: the link between SCN10A and cardiac electrophysiology.

Author

Verkerk AO, Remme CA, Schumacher CA, Scicluna BP, Wolswinkel R, de Jonge B, Bezzina CR, and Veldkamp MW

Subjects
Action Potentials physiology, Animals, Cells, Cultured, Female, Male, Mice, NAV1.8 Voltage-Gated Sodium Channel, Neurons, Afferent metabolism, Electrophysiology methods, Myocytes, Cardiac physiology, Neurons, Afferent physiology, Sodium Channels physiology
Abstract

Rationale: The SCN10A gene encodes the neuronal sodium channel isoform Na(V)1.8. Several recent genome-wide association studies have linked SCN10A to PR interval and QRS duration, strongly suggesting an as-yet unknown role for Na(V)1.8 in cardiac electrophysiology., Objective: To demonstrate the functional presence of SCN10A/Nav1.8 in intracardiac neurons of the mouse heart., Methods and Results: Immunohistochemistry on mouse tissue sections showed intense Na(V)1.8 labeling in dorsal root ganglia and intracardiac ganglia and only modest Na(V)1.8 expression within the myocardium. Immunocytochemistry further revealed substantial Na(V)1.8 staining in isolated neurons from murine intracardiac ganglia but no Na(V)1.8 expression in isolated ventricular myocytes. Patch-clamp studies demonstrated that the Na(V)1.8 blocker A-803467 (0.5-2 μmol/L) had no effect on either mean sodium current (I(Na)) density or I(Na) gating kinetics in isolated myocytes but significantly reduced I(Na) density in intracardiac neurons. Furthermore, A-803467 accelerated the slow component of current decay and shifted voltage dependence of inactivation toward more negative voltages, as expected for blockade of Na(V)1.8-based I(Na). In line with these findings, A-803467 did not affect cardiomyocyte action potential upstroke velocity but markedly reduced action potential firing frequency in intracardiac neurons, confirming a functional role for Na(V)1.8 in cardiac neural activity., Conclusions: Our findings demonstrate the functional presence of SCN10A/Na(V)1.8 in intracardiac neurons, indicating a novel role for this neuronal sodium channel in regulation of cardiac electric activity.

Published
2012
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