Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains

Introduction: We investigated the effect of partial mechanical unloading (PMU) of the heart on the physiology of calcium and beta-adrenoceptor-cAMP (βAR-cAMP) microdomains. Previous studies have investigated PMU using a model of heterotopic-heart and lung transplantation (HTHAL). These studies have...

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Autores principales: Wright, Peter T., Sanchez-Alonso, Jose L., Lucarelli, Carla, Alvarez-Laviada, Anita, Poulet, Claire E., Bello, Sean O., Faggian, Giuseppe, Terracciano, Cesare M., Gorelik, Julia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2018
Materias:
Physiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6157487/
https://www.ncbi.nlm.nih.gov/pubmed/30283354
http://dx.doi.org/10.3389/fphys.2018.01302
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author Wright, Peter T.
Sanchez-Alonso, Jose L.
Lucarelli, Carla
Alvarez-Laviada, Anita
Poulet, Claire E.
Bello, Sean O.
Faggian, Giuseppe
Terracciano, Cesare M.
Gorelik, Julia
author_facet Wright, Peter T.
Sanchez-Alonso, Jose L.
Lucarelli, Carla
Alvarez-Laviada, Anita
Poulet, Claire E.
Bello, Sean O.
Faggian, Giuseppe
Terracciano, Cesare M.
Gorelik, Julia
author_sort Wright, Peter T.
collection PubMed
description Introduction: We investigated the effect of partial mechanical unloading (PMU) of the heart on the physiology of calcium and beta-adrenoceptor-cAMP (βAR-cAMP) microdomains. Previous studies have investigated PMU using a model of heterotopic-heart and lung transplantation (HTHAL). These studies have demonstrated that PMU disrupts the structure of cardiomyocytes and calcium handling. We sought to understand these processes by studying L-Type Calcium Channel (LTCC) activity and sub-type-specific βAR-cAMP signaling within cardiomyocyte membrane microdomains. Method: We utilized an 8-week model of HTHAL, whereby the hearts of syngeneic Lewis rats were transplanted into the abdomens of randomly assigned cage mates. A pronounced atrophy was observed in hearts after HTHAL. Cardiomyocytes were isolated via enzymatic perfusion. We utilized Förster Resonance Energy Transfer (FRET) based cAMP-biosensors and scanning ion conductance microscopy (SICM) based methodologies to study localization of LTCC and βAR-cAMP signaling. Results: β(2)AR-cAMP responses measured by FRET in the cardiomyocyte cytosol were reduced by PMU (loaded 28.51 ± 7.18% vs. unloaded 10.84 ± 3.27% N,n 4/10-13 mean ± SEM (∗)p < 0.05). There was no effect of PMU on β(2)AR-cAMP signaling in RII_Protein Kinase A domains. β(1)AR-cAMP was unaffected by PMU in either microdomain. Consistent with this SICM/FRET analysis demonstrated that β(2)AR-cAMP was specifically reduced in t-tubules (TTs) after PMU (loaded TT 0.721 ± 0.106% vs. loaded crest 0.104 ± 0.062%, unloaded TT 0.112 ± 0.072% vs. unloaded crest 0.219 ± 0.084% N,n 5/6-9 mean ± SEM (∗∗)p < 0.01, (∗∗∗)p < 0.001 vs. loaded TT). By comparison β(1)AR-cAMP responses in either TT or sarcolemmal crests were unaffected by the PMU. LTCC occurrence and open probability (P(o)) were reduced by PMU (loaded TT P(o) 0.073 ± 0.011% vs. loaded crest P(o) 0.027 ± 0.006% N,n 5/18-26 mean ± SEM (∗)p < 0.05) (unloaded TT 0.0350 ± 0.003% vs. unloaded crest P(o) 0.025 N,n 5/20-30 mean ± SEM NS (#)p < 0.05 unloaded vs. loaded TT). We discovered that PMU had reduced the association between Caveolin-3, Junctophilin-2, and Cav1.2. Discussion: PMU suppresses’ β(2)AR-cAMP and LTCC activity. When activated, the signaling of β(2)AR-cAMP and LTCC become more far-reaching after PMU. We suggest that a situation of ‘suppression/decompartmentation’ is elicited by the loss of refined cardiomyocyte structure following PMU. As PMU is a component of modern device therapy for heart failure this study has clinical ramifications and raises important questions for regenerative medicine.
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spelling pubmed-61574872018-10-03 Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains Wright, Peter T. Sanchez-Alonso, Jose L. Lucarelli, Carla Alvarez-Laviada, Anita Poulet, Claire E. Bello, Sean O. Faggian, Giuseppe Terracciano, Cesare M. Gorelik, Julia Front Physiol Physiology Introduction: We investigated the effect of partial mechanical unloading (PMU) of the heart on the physiology of calcium and beta-adrenoceptor-cAMP (βAR-cAMP) microdomains. Previous studies have investigated PMU using a model of heterotopic-heart and lung transplantation (HTHAL). These studies have demonstrated that PMU disrupts the structure of cardiomyocytes and calcium handling. We sought to understand these processes by studying L-Type Calcium Channel (LTCC) activity and sub-type-specific βAR-cAMP signaling within cardiomyocyte membrane microdomains. Method: We utilized an 8-week model of HTHAL, whereby the hearts of syngeneic Lewis rats were transplanted into the abdomens of randomly assigned cage mates. A pronounced atrophy was observed in hearts after HTHAL. Cardiomyocytes were isolated via enzymatic perfusion. We utilized Förster Resonance Energy Transfer (FRET) based cAMP-biosensors and scanning ion conductance microscopy (SICM) based methodologies to study localization of LTCC and βAR-cAMP signaling. Results: β(2)AR-cAMP responses measured by FRET in the cardiomyocyte cytosol were reduced by PMU (loaded 28.51 ± 7.18% vs. unloaded 10.84 ± 3.27% N,n 4/10-13 mean ± SEM (∗)p < 0.05). There was no effect of PMU on β(2)AR-cAMP signaling in RII_Protein Kinase A domains. β(1)AR-cAMP was unaffected by PMU in either microdomain. Consistent with this SICM/FRET analysis demonstrated that β(2)AR-cAMP was specifically reduced in t-tubules (TTs) after PMU (loaded TT 0.721 ± 0.106% vs. loaded crest 0.104 ± 0.062%, unloaded TT 0.112 ± 0.072% vs. unloaded crest 0.219 ± 0.084% N,n 5/6-9 mean ± SEM (∗∗)p < 0.01, (∗∗∗)p < 0.001 vs. loaded TT). By comparison β(1)AR-cAMP responses in either TT or sarcolemmal crests were unaffected by the PMU. LTCC occurrence and open probability (P(o)) were reduced by PMU (loaded TT P(o) 0.073 ± 0.011% vs. loaded crest P(o) 0.027 ± 0.006% N,n 5/18-26 mean ± SEM (∗)p < 0.05) (unloaded TT 0.0350 ± 0.003% vs. unloaded crest P(o) 0.025 N,n 5/20-30 mean ± SEM NS (#)p < 0.05 unloaded vs. loaded TT). We discovered that PMU had reduced the association between Caveolin-3, Junctophilin-2, and Cav1.2. Discussion: PMU suppresses’ β(2)AR-cAMP and LTCC activity. When activated, the signaling of β(2)AR-cAMP and LTCC become more far-reaching after PMU. We suggest that a situation of ‘suppression/decompartmentation’ is elicited by the loss of refined cardiomyocyte structure following PMU. As PMU is a component of modern device therapy for heart failure this study has clinical ramifications and raises important questions for regenerative medicine. Frontiers Media S.A. 2018-09-19 /pmc/articles/PMC6157487/ /pubmed/30283354 http://dx.doi.org/10.3389/fphys.2018.01302 Text en Copyright © 2018 Wright, Sanchez-Alonso, Lucarelli, Alvarez-Laviada, Poulet, Bello, Faggian, Terracciano and Gorelik. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Physiology
Wright, Peter T.
Sanchez-Alonso, Jose L.
Lucarelli, Carla
Alvarez-Laviada, Anita
Poulet, Claire E.
Bello, Sean O.
Faggian, Giuseppe
Terracciano, Cesare M.
Gorelik, Julia
Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains
title Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains
title_full Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains
title_fullStr Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains
title_full_unstemmed Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains
title_short Partial Mechanical Unloading of the Heart Disrupts L-Type Calcium Channel and Beta-Adrenoceptor Signaling Microdomains
title_sort partial mechanical unloading of the heart disrupts l-type calcium channel and beta-adrenoceptor signaling microdomains
topic Physiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6157487/
https://www.ncbi.nlm.nih.gov/pubmed/30283354
http://dx.doi.org/10.3389/fphys.2018.01302
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