Cargando…
Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model
Histidine-containing dipeptides (HCDs) are abundantly expressed in striated muscles. Although important properties have been ascribed to HCDs, including H(+) buffering, regulation of Ca(2+) transients and protection against oxidative stress, it remains unknown whether they play relevant functions in...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Elsevier
2021
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8144739/ https://www.ncbi.nlm.nih.gov/pubmed/34038814 http://dx.doi.org/10.1016/j.redox.2021.102016 |
| _version_ | 1783697022665097216 |
|---|---|
| author | Gonçalves, Lívia de Souza Sales, Lucas Peixoto Saito, Tiemi Raquel Campos, Juliane Cruz Fernandes, Alan Lins Natali, José Jensen, Leonardo Arnold, Alexandre Ramalho, Lisley Bechara, Luiz Roberto Grassmann Esteca, Marcos Vinicius Correa, Isis Sant'Anna, Diogo Ceroni, Alexandre Michelini, Lisete Compagno Gualano, Bruno Teodoro, Walcy Carvalho, Victor Henrique Vargas, Bianca Scigliano Medeiros, Marisa Helena Gennari Baptista, Igor Luchini Irigoyen, Maria Cláudia Sale, Craig Ferreira, Julio Cesar Batista Artioli, Guilherme Giannini |
| author_facet | Gonçalves, Lívia de Souza Sales, Lucas Peixoto Saito, Tiemi Raquel Campos, Juliane Cruz Fernandes, Alan Lins Natali, José Jensen, Leonardo Arnold, Alexandre Ramalho, Lisley Bechara, Luiz Roberto Grassmann Esteca, Marcos Vinicius Correa, Isis Sant'Anna, Diogo Ceroni, Alexandre Michelini, Lisete Compagno Gualano, Bruno Teodoro, Walcy Carvalho, Victor Henrique Vargas, Bianca Scigliano Medeiros, Marisa Helena Gennari Baptista, Igor Luchini Irigoyen, Maria Cláudia Sale, Craig Ferreira, Julio Cesar Batista Artioli, Guilherme Giannini |
| author_sort | Gonçalves, Lívia de Souza |
| collection | PubMed |
| description | Histidine-containing dipeptides (HCDs) are abundantly expressed in striated muscles. Although important properties have been ascribed to HCDs, including H(+) buffering, regulation of Ca(2+) transients and protection against oxidative stress, it remains unknown whether they play relevant functions in vivo. To investigate the in vivo roles of HCDs, we developed the first carnosine synthase knockout (CARNS1(−/−)) rat strain to investigate the impact of an absence of HCDs on skeletal and cardiac muscle function. Male wild-type (WT) and knockout rats (4 months-old) were used. Skeletal muscle function was assessed by an exercise tolerance test, contractile function in situ and muscle buffering capacity in vitro. Cardiac function was assessed in vivo by echocardiography and cardiac electrical activity by electrocardiography. Cardiomyocyte contractile function was assessed in isolated cardiomyocytes by measuring sarcomere contractility, along with the determination of Ca(2+) transient. Markers of oxidative stress, mitochondrial function and expression of proteins were also evaluated in cardiac muscle. Animals were supplemented with carnosine (1.8% in drinking water for 12 weeks) in an attempt to rescue tissue HCDs levels and function. CARNS1(−/−) resulted in the complete absence of carnosine and anserine, but it did not affect exercise capacity, skeletal muscle force production, fatigability or buffering capacity in vitro, indicating that these are not essential for pH regulation and function in skeletal muscle. In cardiac muscle, however, CARNS1(−/−) resulted in a significant impairment of contractile function, which was confirmed both in vivo and ex vivo in isolated sarcomeres. Impaired systolic and diastolic dysfunction were accompanied by reduced intracellular Ca(2+) peaks and slowed Ca(2+) removal, but not by increased markers of oxidative stress or impaired mitochondrial respiration. No relevant increases in muscle carnosine content were observed after carnosine supplementation. Results show that a primary function of HCDs in cardiac muscle is the regulation of Ca(2+) handling and excitation-contraction coupling. |
| format | Online Article Text |
| id | pubmed-8144739 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2021 |
| publisher | Elsevier |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-81447392021-05-25 Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model Gonçalves, Lívia de Souza Sales, Lucas Peixoto Saito, Tiemi Raquel Campos, Juliane Cruz Fernandes, Alan Lins Natali, José Jensen, Leonardo Arnold, Alexandre Ramalho, Lisley Bechara, Luiz Roberto Grassmann Esteca, Marcos Vinicius Correa, Isis Sant'Anna, Diogo Ceroni, Alexandre Michelini, Lisete Compagno Gualano, Bruno Teodoro, Walcy Carvalho, Victor Henrique Vargas, Bianca Scigliano Medeiros, Marisa Helena Gennari Baptista, Igor Luchini Irigoyen, Maria Cláudia Sale, Craig Ferreira, Julio Cesar Batista Artioli, Guilherme Giannini Redox Biol Research Paper Histidine-containing dipeptides (HCDs) are abundantly expressed in striated muscles. Although important properties have been ascribed to HCDs, including H(+) buffering, regulation of Ca(2+) transients and protection against oxidative stress, it remains unknown whether they play relevant functions in vivo. To investigate the in vivo roles of HCDs, we developed the first carnosine synthase knockout (CARNS1(−/−)) rat strain to investigate the impact of an absence of HCDs on skeletal and cardiac muscle function. Male wild-type (WT) and knockout rats (4 months-old) were used. Skeletal muscle function was assessed by an exercise tolerance test, contractile function in situ and muscle buffering capacity in vitro. Cardiac function was assessed in vivo by echocardiography and cardiac electrical activity by electrocardiography. Cardiomyocyte contractile function was assessed in isolated cardiomyocytes by measuring sarcomere contractility, along with the determination of Ca(2+) transient. Markers of oxidative stress, mitochondrial function and expression of proteins were also evaluated in cardiac muscle. Animals were supplemented with carnosine (1.8% in drinking water for 12 weeks) in an attempt to rescue tissue HCDs levels and function. CARNS1(−/−) resulted in the complete absence of carnosine and anserine, but it did not affect exercise capacity, skeletal muscle force production, fatigability or buffering capacity in vitro, indicating that these are not essential for pH regulation and function in skeletal muscle. In cardiac muscle, however, CARNS1(−/−) resulted in a significant impairment of contractile function, which was confirmed both in vivo and ex vivo in isolated sarcomeres. Impaired systolic and diastolic dysfunction were accompanied by reduced intracellular Ca(2+) peaks and slowed Ca(2+) removal, but not by increased markers of oxidative stress or impaired mitochondrial respiration. No relevant increases in muscle carnosine content were observed after carnosine supplementation. Results show that a primary function of HCDs in cardiac muscle is the regulation of Ca(2+) handling and excitation-contraction coupling. Elsevier 2021-05-20 /pmc/articles/PMC8144739/ /pubmed/34038814 http://dx.doi.org/10.1016/j.redox.2021.102016 Text en © 2021 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
| spellingShingle | Research Paper Gonçalves, Lívia de Souza Sales, Lucas Peixoto Saito, Tiemi Raquel Campos, Juliane Cruz Fernandes, Alan Lins Natali, José Jensen, Leonardo Arnold, Alexandre Ramalho, Lisley Bechara, Luiz Roberto Grassmann Esteca, Marcos Vinicius Correa, Isis Sant'Anna, Diogo Ceroni, Alexandre Michelini, Lisete Compagno Gualano, Bruno Teodoro, Walcy Carvalho, Victor Henrique Vargas, Bianca Scigliano Medeiros, Marisa Helena Gennari Baptista, Igor Luchini Irigoyen, Maria Cláudia Sale, Craig Ferreira, Julio Cesar Batista Artioli, Guilherme Giannini Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model |
| title | Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model |
| title_full | Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model |
| title_fullStr | Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model |
| title_full_unstemmed | Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model |
| title_short | Histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: Evidence from a novel CARNS1 knockout rat model |
| title_sort | histidine dipeptides are key regulators of excitation-contraction coupling in cardiac muscle: evidence from a novel carns1 knockout rat model |
| topic | Research Paper |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8144739/ https://www.ncbi.nlm.nih.gov/pubmed/34038814 http://dx.doi.org/10.1016/j.redox.2021.102016 |
| work_keys_str_mv | AT goncalvesliviadesouza histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT saleslucaspeixoto histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT saitotiemiraquel histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT camposjulianecruz histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT fernandesalanlins histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT natalijose histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT jensenleonardo histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT arnoldalexandre histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT ramalholisley histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT becharaluizrobertograssmann histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT estecamarcosvinicius histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT correaisis histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT santannadiogo histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT ceronialexandre histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT michelinilisetecompagno histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT gualanobruno histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT teodorowalcy histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT carvalhovictorhenrique histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT vargasbiancascigliano histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT medeirosmarisahelenagennari histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT baptistaigorluchini histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT irigoyenmariaclaudia histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT salecraig histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT ferreirajuliocesarbatista histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel AT artioliguilhermegiannini histidinedipeptidesarekeyregulatorsofexcitationcontractioncouplingincardiacmuscleevidencefromanovelcarns1knockoutratmodel |