Your search keyword '"Alerni, Nicolò"' showing total 12 results

1. Mechano‐electrical interactions and heterogeneities in wild‐type and drug‐induced long QT syndrome rabbits.

Author

Lewetag, Raphaela D., Nimani, Saranda, Alerni, Nicolò, Hornyik, Tibor, Jacobi, Simon F., Moss, Robin, Menza, Marius, Pilia, Nicolas, Walz, Teo P., HajiRassouliha, Amir, Perez‐Feliz, Stefanie, Zehender, Manfred, Seemann, Gunnar, Zgierski‐Johnston, Callum M., Lopez, Ruben, and Odening, Katja E.

Subjects

VOLTAGE, ELECTROCARDIOGRAPHY, CONTROL groups, HEART diseases, POLARIZATION (Nuclear physics)

Abstract

Electromechanical reciprocity – comprising electro‐mechanical (EMC) and mechano‐electric coupling (MEC) – provides cardiac adaptation to changing physiological demands. Understanding electromechanical reciprocity and its impact on function and heterogeneity in pathological conditions – such as (drug‐induced) acquired long QT syndrome (aLQTS) – might lead to novel insights in arrhythmogenesis. Our aim is to investigate how electrical changes impact on mechanical function (EMC) and vice versa (MEC) under physiological conditions and in aLQTS. To measure regional differences in EMC and MEC in vivo, we used tissue phase mapping cardiac MRI and a 24‐lead ECG vest in healthy (control) and IKr‐blocker E‐4031‐induced aLQTS rabbit hearts. MEC was studied in vivo by acutely increasing cardiac preload, and ex vivo by using voltage optical mapping (OM) in beating hearts at different preloads. In aLQTS, electrical repolarization (heart rate corrected RT‐interval, RTn370) was prolonged compared to control (P < 0.0001) with increased spatial and temporal RT heterogeneity (P < 0.01). Changing electrical function (in aLQTS) resulted in significantly reduced diastolic mechanical function and prolonged contraction duration (EMC), causing increased apico‐basal mechanical heterogeneity. Increased preload acutely prolonged RTn370 in both control and aLQTS hearts (MEC). This effect was more pronounced in aLQTS (P < 0.0001). Additionally, regional RT‐dispersion increased in aLQTS. Motion‐correction allowed us to determine APD‐prolongation in beating aLQTS hearts, but limited motion correction accuracy upon preload‐changes prevented a clear analysis of MEC ex vivo. Mechano‐induced RT‐prolongation and increased heterogeneity were more pronounced in aLQTS than in healthy hearts. Acute MEC effects may play an additional role in LQT‐related arrhythmogenesis, warranting further mechanistic investigations. Key points: Electromechanical reciprocity comprising excitation‐contraction coupling (EMC) and mechano‐electric feedback loops (MEC) is essential for physiological cardiac function.Alterations in electrical and/or mechanical heterogeneity are known to have potentially pro‐arrhythmic effects.In this study, we aimed to investigate how electrical changes impact on the mechanical function (EMC) and vice versa (MEC) both under physiological conditions (control) and in acquired long QT syndrome (aLQTS).We show that changing the electrical function (in aLQTS) results in significantly altered mechanical heterogeneity via EMC and, vice versa, that increasing the preload acutely prolongs repolarization duration and increases electrical heterogeneity, particularly in aLQTS as compared to control.Our results substantiate the hypothesis that LQTS is an ‛electro‐mechanical', rather than a 'purely electrical', disease and suggest that acute MEC effects may play an additional role in LQT‐related arrhythmogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Simultaneous assessment of mechanical and electrical function in Langendorff-perfused ex-vivo mouse hearts

Author

Louradour, Julien, primary, Ottersberg, Rahel, additional, Segiser, Adrian, additional, Olejnik, Agnieszka, additional, Martínez-Salazar, Berenice, additional, Siegrist, Mark, additional, Egle, Manuel, additional, Barbieri, Miriam, additional, Nimani, Saranda, additional, Alerni, Nicolò, additional, Döring, Yvonne, additional, Odening, Katja E., additional, and Longnus, Sarah, additional

Published

2023

3. Mechano‐electrical interactions and heterogeneities in wild‐type and drug‐induced long QT syndrome rabbits

Author

Lewetag, Raphaela D., primary, Nimani, Saranda, additional, Alerni, Nicolò, additional, Hornyik, Tibor, additional, Jacobi, Simon F., additional, Moss, Robin, additional, Menza, Marius, additional, Pilia, Nicolas, additional, Walz, Teo P., additional, HajiRassouliha, Amir, additional, Perez‐Feliz, Stefanie, additional, Zehender, Manfred, additional, Seemann, Gunnar, additional, Zgierski‐Johnston, Callum M., additional, Lopez, Ruben, additional, and Odening, Katja E., additional

Published

2023

4. Gene- and variant-specific efficacy of serum/glucocorticoid-regulated kinase 1 inhibition in long QT syndrome types 1 and 2

Author

Giannetti, Federica, primary, Barbieri, Miriam, additional, Shiti, Assad, additional, Casini, Simona, additional, Sager, Philip T, additional, Das, Saumya, additional, Pradhananga, Sabindra, additional, Srinivasan, Dinesh, additional, Nimani, Saranda, additional, Alerni, Nicolò, additional, Louradour, Julien, additional, Mura, Manuela, additional, Gnecchi, Massimiliano, additional, Brink, Paul, additional, Zehender, Manfred, additional, Koren, Gideon, additional, Zaza, Antonio, additional, Crotti, Lia, additional, Wilde, Arthur A M, additional, Schwartz, Peter J, additional, Remme, Carol Ann, additional, Gepstein, Lior, additional, Sala, Luca, additional, and Odening, Katja E, additional

Published

2023

5. Gene- and variant-specific efficacy of serum/glucocorticoid-regulated kinase 1 inhibition in long QT syndrome types 1 and 2

Author

Giannetti, F, Barbieri, M, Shiti, A, Casini, S, Sager, P, Das, S, Pradhananga, S, Srinivasan, D, Nimani, S, Alerni, N, Louradour, J, Mura, M, Gnecchi, M, Brink, P, Zehender, M, Koren, G, Zaza, A, Crotti, L, Wilde, A, Schwartz, P, Remme, C, Gepstein, L, Sala, L, Odening, K, Giannetti, Federica, Barbieri, Miriam, Shiti, Assad, Casini, Simona, Sager, Philip T, Das, Saumya, Pradhananga, Sabindra, Srinivasan, Dinesh, Nimani, Saranda, Alerni, Nicolò, Louradour, Julien, Mura, Manuela, Gnecchi, Massimiliano, Brink, Paul, Zehender, Manfred, Koren, Gideon, Zaza, Antonio, Crotti, Lia, Wilde, Arthur A M, Schwartz, Peter J, Remme, Carol Ann, Gepstein, Lior, Sala, Luca, Odening, Katja E, Giannetti, F, Barbieri, M, Shiti, A, Casini, S, Sager, P, Das, S, Pradhananga, S, Srinivasan, D, Nimani, S, Alerni, N, Louradour, J, Mura, M, Gnecchi, M, Brink, P, Zehender, M, Koren, G, Zaza, A, Crotti, L, Wilde, A, Schwartz, P, Remme, C, Gepstein, L, Sala, L, Odening, K, Giannetti, Federica, Barbieri, Miriam, Shiti, Assad, Casini, Simona, Sager, Philip T, Das, Saumya, Pradhananga, Sabindra, Srinivasan, Dinesh, Nimani, Saranda, Alerni, Nicolò, Louradour, Julien, Mura, Manuela, Gnecchi, Massimiliano, Brink, Paul, Zehender, Manfred, Koren, Gideon, Zaza, Antonio, Crotti, Lia, Wilde, Arthur A M, Schwartz, Peter J, Remme, Carol Ann, Gepstein, Lior, Sala, Luca, and Odening, Katja E

Abstract

AIMS: Current long QT syndrome (LQTS) therapy, largely based on beta-blockade, does not prevent arrhythmias in all patients; therefore, novel therapies are warranted. Pharmacological inhibition of the serum/glucocorticoid-regulated kinase 1 (SGK1-Inh) has been shown to shorten action potential duration (APD) in LQTS type 3. We aimed to investigate whether SGK1-Inh could similarly shorten APD in LQTS types 1 and 2. METHODS AND RESULTS: Human-induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) and hiPSC-cardiac cell sheets (CCS) were obtained from LQT1 and LQT2 patients; CMs were isolated from transgenic LQT1, LQT2, and wild-type (WT) rabbits. Serum/glucocorticoid-regulated kinase 1 inhibition effects (300 nM-10 µM) on field potential durations (FPD) were investigated in hiPSC-CMs with multielectrode arrays; optical mapping was performed in LQT2 CCS. Whole-cell and perforated patch clamp recordings were performed in isolated LQT1, LQT2, and WT rabbit CMs to investigate SGK1-Inh (3 µM) effects on APD. In all LQT2 models across different species (hiPSC-CMs, hiPSC-CCS, and rabbit CMs) and independent of the disease-causing variant (KCNH2-p.A561V/p.A614V/p.G628S/IVS9-28A/G), SGK1-Inh dose-dependently shortened FPD/APD at 0.3-10 µM (by 20-32%/25-30%/44-45%). Importantly, in LQT2 rabbit CMs, 3 µM SGK1-Inh normalized APD to its WT value. A significant FPD shortening was observed in KCNQ1-p.R594Q hiPSC-CMs at 1/3/10 µM (by 19/26/35%) and in KCNQ1-p.A341V hiPSC-CMs at 10 µM (by 29%). No SGK1-Inh-induced FPD/APD shortening effect was observed in LQT1 KCNQ1-p.A341V hiPSC-CMs or KCNQ1-p.Y315S rabbit CMs at 0.3-3 µM. CONCLUSION: A robust SGK1-Inh-induced APD shortening was observed across different LQT2 models, species, and genetic variants but less consistently in LQT1 models. This suggests a genotype- and variant-specific beneficial effect of this novel therapeutic approach in LQTS.

Published

2023

6. Gene- and variant-specific efficacy of serum/glucocorticoid-regulated kinase 1 inhibition in long QT syndrome types 1 and 2

Author

Giannetti, Federica, Barbieri, Miriam, Shiti, Assad, Casini, Simona, Sager, Philip T, Das, Saumya, Pradhananga, Sabindra, Srinivasan, Dinesh, Nimani, Saranda, Alerni, Nicolò, Louradour, Julien, Mura, Manuela, Gnecchi, Massimiliano, Brink, Paul, Zehender, Manfred, Koren, Gideon, Zaza, Antonio, Crotti, Lia, Wilde, Arthur A M, Schwartz, Peter J, Remme, Carol Ann, Gepstein, Lior, Sala, Luca, Odening, Katja E, Giannetti, F, Barbieri, M, Shiti, A, Casini, S, Sager, P, Das, S, Pradhananga, S, Srinivasan, D, Nimani, S, Alerni, N, Louradour, J, Mura, M, Gnecchi, M, Brink, P, Zehender, M, Koren, G, Zaza, A, Crotti, L, Wilde, A, Schwartz, P, Remme, C, Gepstein, L, Sala, L, and Odening, K

Subjects

Cellular electrophysiology, Physiology (medical), LQTS, Animal model, 610 Medicine & health, 610 Medizin und Gesundheit, Cardiology and Cardiovascular Medicine, Genotype-specific therapy, hiPSC, Mechanism-based therapy

Abstract

Aims Current long QT syndrome (LQTS) therapy, largely based on beta-blockade, does not prevent arrhythmias in all patients; therefore, novel therapies are warranted. Pharmacological inhibition of the serum/glucocorticoid-regulated kinase 1 (SGK1-Inh) has been shown to shorten action potential duration (APD) in LQTS type 3. We aimed to investigate whether SGK1-Inh could similarly shorten APD in LQTS types 1 and 2. Methods and results Human-induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) and hiPSC-cardiac cell sheets (CCS) were obtained from LQT1 and LQT2 patients; CMs were isolated from transgenic LQT1, LQT2, and wild-type (WT) rabbits. Serum/glucocorticoid-regulated kinase 1 inhibition effects (300 nM–10 µM) on field potential durations (FPD) were investigated in hiPSC-CMs with multielectrode arrays; optical mapping was performed in LQT2 CCS. Whole-cell and perforated patch clamp recordings were performed in isolated LQT1, LQT2, and WT rabbit CMs to investigate SGK1-Inh (3 µM) effects on APD. In all LQT2 models across different species (hiPSC-CMs, hiPSC-CCS, and rabbit CMs) and independent of the disease-causing variant (KCNH2-p.A561V/p.A614V/p.G628S/IVS9-28A/G), SGK1-Inh dose-dependently shortened FPD/APD at 0.3–10 µM (by 20–32%/25–30%/44–45%). Importantly, in LQT2 rabbit CMs, 3 µM SGK1-Inh normalized APD to its WT value. A significant FPD shortening was observed in KCNQ1-p.R594Q hiPSC-CMs at 1/3/10 µM (by 19/26/35%) and in KCNQ1-p.A341V hiPSC-CMs at 10 µM (by 29%). No SGK1-Inh-induced FPD/APD shortening effect was observed in LQT1 KCNQ1-p.A341V hiPSC-CMs or KCNQ1-p.Y315S rabbit CMs at 0.3–3 µM. Conclusion A robust SGK1-Inh-induced APD shortening was observed across different LQT2 models, species, and genetic variants but less consistently in LQT1 models. This suggests a genotype- and variant-specific beneficial effect of this novel therapeutic approach in LQTS.

Published

2023

7. PO-05-191 AAV9-MEDIATED KCNQ1-SUPPRESSION-REPLACEMENT GENE THERAPY IN TRANSGENIC RABBITS WITH TYPE 1 LONG QT SYNDROME (LQT1)

Author

Bains, Sahej, Giammarino, Lucilla, Louradour, Julien, Nimani, Saranda, Alerni, Nicolo, Tester, David, Kim, Changsung J., Christoforou, Nicolas, Horvath, Andras, Beslac, Olgica, Koren, Gideon, Brunner, Michael, Casoni, Daniela, Praz, Fabien, Haeberlin, Andreas, Brooks, Gabriel, Ackerman, Michael J., and Odening, Katja E.

Published

2024

8. EN-482891-004 AAV9-MEDIATED KCNH2-SUPPRESSION-REPLACEMENT GENE THERAPY PROLONGS THE PATHOLOGICALLY SHORTENED QT/APD IN SHORT QT SYNDROME TYPE 1 RABBIT MODELS

Author

Nimani, Saranda, Bains, Sahej, Alerni, Nicolo, Giammarino, Lucilla, Horváth, András, Louradour, Julien, Barbieri, Miriam, Beslac, Olgica, Egle, Manuel, Tester, David, Christoforou, Nicolas, Matas, Lluis, Lopez, Ruben, Perez-Feliz, Stefanie, Kim, Changsung J., Zhou, Wei, Ye, Dan, Jurgensen, Jacqulyn, Barry, Michael, Bego, Mariana, Keyes, Lisa, Owens, Jane, Pinkstaff, Jason, Zehender, Manfred, Brunner, Michael, Casoni, Daniela, Praz, Fabien, Haeberlin, Andreas, Brooks, Gabriel, Ackerman, Michael J., and Odening, Katja E.

Published

2024

9. PO-CES-03 AAV9-MEDIATED KCNQ1-SUPPRESSION-REPLACEMENT GENE THERAPY IN TRANSGENIC RABBITS WITH TYPE 1 LONG QT SYNDROME (LQT1)

Author

Bains, Sahej, Giammarino, Lucilla, Louradour, Julien, Nimani, Saranda, Alerni, Nicolo, Tester, David, Kim, Changsung J., Christoforou, Nicolas, Horvath, Andras, Beslac, Olgica, Koren, Gideon, Brunner, Michael, Casoni, Daniela, Praz, Fabien, Haeberlin, Andreas, Brooks, Gabriel, Ackerman, Michael J., and Odening, Katja E.

Published

2024

10. PO-02-210 AAV9-MEDIATED KCNQ1-SUPPRESSION-REPLACEMENT GENE THERAPY IN TRANSGENIC RABBITS WITH TYPE 1 LONG QT SYNDROME

Author

Bains, Sahej, Giammarino, Lucilla, Nimani, Saranda, Alerni, Nicolo, Tester, David, Christoforou, Nicolas, Louradour, Julien, Hof, Thomas S., Beslac, Olgica, Barbieri, Miriam, Matas, Lluis, Horvath, Andras, Lopez, Ruben, Perez-Feliz, Stefanie, Kim, Changsung J., Zhou, Wei, Ye, Dan, Jurgensen, Jacqulyn, Barry, Michael A., Bego, Mariana, Keyes, Lisa, Owens, Jane, Pinkstaff, Jason, Koren, Gideon, Zehender, Manfred, Brunner, Michael, Casoni, Daniela, Praz, Fabien, Haeberlin, Andreas, Brooks, Gabriel, Odening, Katja E., and Ackerman, Michael J.

Published

2023

11. Interplay of electrical and mechanical properties in transgenic rabbit models of long-QT and short-QT syndrome

Author

Alerni, Nicolò, Nimani, Saranda, Louradour, Julien, Barbieri, Miriam, Giammarino, Lucilla, Feliz, Stefanie Perez, Matas, Lluis, .Zehender, Manfred, Brunner, Michael, and Odening, Katja

Published

2024

12. Sex differences in cellular Na+-Ca2+-handling properties in rabbit atrial cardiomyocytes

Author

Horváth, András, Giammarino, Lucilla O.C., Alerni, Nicolò, Barbieri, Miriam, Louradour, Julien, Nimani, Saranda, Matas, Lluis, and Odening, Katja E.

Published

2024