Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart
- Autores
- Cingolani, Horacio Eugenio; Pérez, Néstor Gustavo; Pieske, Burket; Lewinski, Dirk von; Camilión de Hurtado, María Cristina
- Año de publicación
- 2003
- Idioma
- inglés
- Tipo de recurso
- reseña artículo
- Estado
- versión publicada
- Descripción
- The stretch of the cardiac muscle is immediately followed by an increase in the contraction strength after which occurs a slow force increase (SFR) that takes several minutes to fully develop. The SFR was detected in a wide variety of experimental preparations including isolated myocytes, papillary muscles and/or trabeculae, left ventricle strips of failing human myocardium, in vitro isovolumic and in vivo volume-loaded hearts. It was established that the initial increase in force is due to an increase in myofilament Ca2+ responsiveness, whereas the SFR results from an increase in the Ca2+ transient. However, the mechanism(s) for this increase in the Ca2+ transient has remained undefined until the proposal of Na+/H+ exchanger (NHE) activation by stretch. Studies in multicellular cardiac muscle preparations from cat, rabbit, rat and failing human heart have shown evidence that the stretch induces a rise in intracellular Na+ ([Na+]i) through NHE activation, which subsequently leads to an increase in Ca2+ transient via reverse-mode Na+/Ca2+ (NCX) exchange. These experimental data agree with a theoretical ionic model of cardiomyocytes that predicted an increased Na+ influx and a concurrent increase in Ca2+ entry through NCX as the cause of the SFR to muscle stretch. However, there are aspects that await definitive demonstration, and perhaps subjected to species-related differences like the possibility of an autocrine/paracrine loop involving angiotensin II and endothelin as the underlying mechanism for stretch-induced NHE activation leading to the rise in [Na+]i and reverse-mode NCX.
Facultad de Ciencias Médicas
Centro de Investigaciones Cardiovasculares - Materia
-
Ciencias Médicas
Angiotensin
Endothelins
Na/Ca-exchanger
Na/H-exchanger
Stretch/m-e coupling - Nivel de accesibilidad
- acceso abierto
- Condiciones de uso
- http://creativecommons.org/licenses/by-nc-sa/4.0/
- Repositorio
.jpg)
- Institución
- Universidad Nacional de La Plata
- OAI Identificador
- oai:sedici.unlp.edu.ar:10915/84584
Ver los metadatos del registro completo
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Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpartCingolani, Horacio EugenioPérez, Néstor GustavoPieske, BurketLewinski, Dirk vonCamilión de Hurtado, María CristinaCiencias MédicasAngiotensinEndothelinsNa/Ca-exchangerNa/H-exchangerStretch/m-e couplingThe stretch of the cardiac muscle is immediately followed by an increase in the contraction strength after which occurs a slow force increase (SFR) that takes several minutes to fully develop. The SFR was detected in a wide variety of experimental preparations including isolated myocytes, papillary muscles and/or trabeculae, left ventricle strips of failing human myocardium, in vitro isovolumic and in vivo volume-loaded hearts. It was established that the initial increase in force is due to an increase in myofilament Ca<SUP>2+</SUP> responsiveness, whereas the SFR results from an increase in the Ca<SUP>2+</SUP> transient. However, the mechanism(s) for this increase in the Ca<SUP>2+</SUP> transient has remained undefined until the proposal of Na<SUP>+</SUP>/H<SUP>+</SUP> exchanger (NHE) activation by stretch. Studies in multicellular cardiac muscle preparations from cat, rabbit, rat and failing human heart have shown evidence that the stretch induces a rise in intracellular Na<SUP>+</SUP> ([Na<SUP>+</SUP>]<SUB>i</SUB>) through NHE activation, which subsequently leads to an increase in Ca<SUP>2+</SUP> transient via reverse-mode Na<SUP>+</SUP>/Ca<SUP>2+</SUP> (NCX) exchange. These experimental data agree with a theoretical ionic model of cardiomyocytes that predicted an increased Na<SUP>+</SUP> influx and a concurrent increase in Ca<SUP>2+</SUP> entry through NCX as the cause of the SFR to muscle stretch. However, there are aspects that await definitive demonstration, and perhaps subjected to species-related differences like the possibility of an autocrine/paracrine loop involving angiotensin II and endothelin as the underlying mechanism for stretch-induced NHE activation leading to the rise in [Na<SUP>+</SUP>]<SUB>i</SUB> and reverse-mode NCX.Facultad de Ciencias MédicasCentro de Investigaciones Cardiovasculares2003info:eu-repo/semantics/reviewinfo:eu-repo/semantics/publishedVersionRevisionhttp://purl.org/coar/resource_type/c_dcae04bcinfo:ar-repo/semantics/resenaArticuloapplication/pdf953-960http://sedici.unlp.edu.ar/handle/10915/84584enginfo:eu-repo/semantics/altIdentifier/issn/0008-6363info:eu-repo/semantics/altIdentifier/doi/10.1016/S0008-6363(02)00768-Xinfo:eu-repo/semantics/openAccesshttp://creativecommons.org/licenses/by-nc-sa/4.0/Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)reponame:SEDICI (UNLP)instname:Universidad Nacional de La Platainstacron:UNLP2025-09-29T11:16:15Zoai:sedici.unlp.edu.ar:10915/84584Institucionalhttp://sedici.unlp.edu.ar/Universidad públicaNo correspondehttp://sedici.unlp.edu.ar/oai/snrdalira@sedici.unlp.edu.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:13292025-09-29 11:16:16.122SEDICI (UNLP) - Universidad Nacional de La Platafalse |
| dc.title.none.fl_str_mv |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| title |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| spellingShingle |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart Cingolani, Horacio Eugenio Ciencias Médicas Angiotensin Endothelins Na/Ca-exchanger Na/H-exchanger Stretch/m-e coupling |
| title_short |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| title_full |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| title_fullStr |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| title_full_unstemmed |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| title_sort |
Stretch-elicited Na+/H+ exchanger activation: The autocrine/paracrine loop and its mechanical counterpart |
| dc.creator.none.fl_str_mv |
Cingolani, Horacio Eugenio Pérez, Néstor Gustavo Pieske, Burket Lewinski, Dirk von Camilión de Hurtado, María Cristina |
| author |
Cingolani, Horacio Eugenio |
| author_facet |
Cingolani, Horacio Eugenio Pérez, Néstor Gustavo Pieske, Burket Lewinski, Dirk von Camilión de Hurtado, María Cristina |
| author_role |
author |
| author2 |
Pérez, Néstor Gustavo Pieske, Burket Lewinski, Dirk von Camilión de Hurtado, María Cristina |
| author2_role |
author author author author |
| dc.subject.none.fl_str_mv |
Ciencias Médicas Angiotensin Endothelins Na/Ca-exchanger Na/H-exchanger Stretch/m-e coupling |
| topic |
Ciencias Médicas Angiotensin Endothelins Na/Ca-exchanger Na/H-exchanger Stretch/m-e coupling |
| dc.description.none.fl_txt_mv |
The stretch of the cardiac muscle is immediately followed by an increase in the contraction strength after which occurs a slow force increase (SFR) that takes several minutes to fully develop. The SFR was detected in a wide variety of experimental preparations including isolated myocytes, papillary muscles and/or trabeculae, left ventricle strips of failing human myocardium, in vitro isovolumic and in vivo volume-loaded hearts. It was established that the initial increase in force is due to an increase in myofilament Ca<SUP>2+</SUP> responsiveness, whereas the SFR results from an increase in the Ca<SUP>2+</SUP> transient. However, the mechanism(s) for this increase in the Ca<SUP>2+</SUP> transient has remained undefined until the proposal of Na<SUP>+</SUP>/H<SUP>+</SUP> exchanger (NHE) activation by stretch. Studies in multicellular cardiac muscle preparations from cat, rabbit, rat and failing human heart have shown evidence that the stretch induces a rise in intracellular Na<SUP>+</SUP> ([Na<SUP>+</SUP>]<SUB>i</SUB>) through NHE activation, which subsequently leads to an increase in Ca<SUP>2+</SUP> transient via reverse-mode Na<SUP>+</SUP>/Ca<SUP>2+</SUP> (NCX) exchange. These experimental data agree with a theoretical ionic model of cardiomyocytes that predicted an increased Na<SUP>+</SUP> influx and a concurrent increase in Ca<SUP>2+</SUP> entry through NCX as the cause of the SFR to muscle stretch. However, there are aspects that await definitive demonstration, and perhaps subjected to species-related differences like the possibility of an autocrine/paracrine loop involving angiotensin II and endothelin as the underlying mechanism for stretch-induced NHE activation leading to the rise in [Na<SUP>+</SUP>]<SUB>i</SUB> and reverse-mode NCX. Facultad de Ciencias Médicas Centro de Investigaciones Cardiovasculares |
| description |
The stretch of the cardiac muscle is immediately followed by an increase in the contraction strength after which occurs a slow force increase (SFR) that takes several minutes to fully develop. The SFR was detected in a wide variety of experimental preparations including isolated myocytes, papillary muscles and/or trabeculae, left ventricle strips of failing human myocardium, in vitro isovolumic and in vivo volume-loaded hearts. It was established that the initial increase in force is due to an increase in myofilament Ca<SUP>2+</SUP> responsiveness, whereas the SFR results from an increase in the Ca<SUP>2+</SUP> transient. However, the mechanism(s) for this increase in the Ca<SUP>2+</SUP> transient has remained undefined until the proposal of Na<SUP>+</SUP>/H<SUP>+</SUP> exchanger (NHE) activation by stretch. Studies in multicellular cardiac muscle preparations from cat, rabbit, rat and failing human heart have shown evidence that the stretch induces a rise in intracellular Na<SUP>+</SUP> ([Na<SUP>+</SUP>]<SUB>i</SUB>) through NHE activation, which subsequently leads to an increase in Ca<SUP>2+</SUP> transient via reverse-mode Na<SUP>+</SUP>/Ca<SUP>2+</SUP> (NCX) exchange. These experimental data agree with a theoretical ionic model of cardiomyocytes that predicted an increased Na<SUP>+</SUP> influx and a concurrent increase in Ca<SUP>2+</SUP> entry through NCX as the cause of the SFR to muscle stretch. However, there are aspects that await definitive demonstration, and perhaps subjected to species-related differences like the possibility of an autocrine/paracrine loop involving angiotensin II and endothelin as the underlying mechanism for stretch-induced NHE activation leading to the rise in [Na<SUP>+</SUP>]<SUB>i</SUB> and reverse-mode NCX. |
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2003 |
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2003 |
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