Resistance exercise training benefits pulmonary, cardiac, and muscular structure and function in rats with stable pulmonary artery hypertension

We tested the effects of low- to moderate-intensity resistance exercise training (RT) on the structure and function of pulmonary, right ventricle (RV), and skeletal muscle tissues in rats with stable pulmonary artery hypertension (PAH). After the first monocrotaline (MCT; 20 mg/kg) injection, male r...

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Veröffentlicht in:	Life sciences (1973) 2023-11, Vol.332, p.122128-122128, Article 122128
Hauptverfasser:	Soares, Leôncio Lopes, Leite, Luciano Bernardes, Ervilha, Luiz Otávio Guimarães, Pelozin, Bruno Rocha Avila, Pereira, Noemy Pinto, da Silva, Bruna Aparecida Fonseca, Portes, Alexandre Martins Oliveira, Drummond, Filipe Rios, de Rezende, Leonardo Mateus Teixeira, Fernandes, Tiago, Oliveira, Edilamar Menezes, Neves, Mariana Machado, Reis, Emily Correna Carlo, Natali, Antônio José
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Sprache:	eng
Schlagworte:	Adverse remodeling Hypertrophy pathways markers miRNA214 gene expression Pulmonary artery hypertension Resistance exercise training RV myocyte contractility
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creator	Soares, Leôncio Lopes Leite, Luciano Bernardes Ervilha, Luiz Otávio Guimarães Pelozin, Bruno Rocha Avila Pereira, Noemy Pinto da Silva, Bruna Aparecida Fonseca Portes, Alexandre Martins Oliveira Drummond, Filipe Rios de Rezende, Leonardo Mateus Teixeira Fernandes, Tiago Oliveira, Edilamar Menezes Neves, Mariana Machado Reis, Emily Correna Carlo Natali, Antônio José
description	We tested the effects of low- to moderate-intensity resistance exercise training (RT) on the structure and function of pulmonary, right ventricle (RV), and skeletal muscle tissues in rats with stable pulmonary artery hypertension (PAH). After the first monocrotaline (MCT; 20 mg/kg) injection, male rats were submitted to a RT program (Ladder climbing; 55–65 % intensity), 5 times/week. Seven days later rats received the second MCT dose. Physical effort tolerance test and echocardiographic examination were performed. After euthanasia, lung, heart, and biceps brachii were processed for histological, single myocyte, and biochemical analysis. RT improved survival and physical effort tolerance (i.e., maximum carrying load), mitigated the pulmonary artery resistance increase (i.e., TA/TE), and preserved cardiac function (i.e., fractional shortening, ejection fraction, stroke volume and TAPSE). RT counteracted oxidative stress (i.e., CAT, SOD, GST, MDA and NO) and adverse remodeling in lung (i.e., collapsed alveoli) and in biceps brachii (i.e., atrophy and total collagen) tissues. RT delayed RV adverse remodeling (i.e., hypertrophy, extracellular matrix, collagen types I and III, and fibrosis) and impairments in single RV myocyte contractility (i.e., amplitude and velocity to peak and relaxation). RT improved the expression of gene (i.e., miRNA 214) and intracellular Ca2+ cycling regulatory proteins (i.e., PLBser16); and of pathological (i.e., α/β-MHC and Foxo3) and physiological (i.e., Akt, p-Akt, mTOR, p-mTOR, and Bcl-xL) hypertrophy pathways markers in RV tissue. Low- to moderate-intensity RT benefits the structure and function of pulmonary, RV, and skeletal muscle tissues in rats with stable pulmonary artery hypertension.
doi_str_mv	10.1016/j.lfs.2023.122128
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After the first monocrotaline (MCT; 20 mg/kg) injection, male rats were submitted to a RT program (Ladder climbing; 55–65 % intensity), 5 times/week. Seven days later rats received the second MCT dose. Physical effort tolerance test and echocardiographic examination were performed. After euthanasia, lung, heart, and biceps brachii were processed for histological, single myocyte, and biochemical analysis. RT improved survival and physical effort tolerance (i.e., maximum carrying load), mitigated the pulmonary artery resistance increase (i.e., TA/TE), and preserved cardiac function (i.e., fractional shortening, ejection fraction, stroke volume and TAPSE). RT counteracted oxidative stress (i.e., CAT, SOD, GST, MDA and NO) and adverse remodeling in lung (i.e., collapsed alveoli) and in biceps brachii (i.e., atrophy and total collagen) tissues. RT delayed RV adverse remodeling (i.e., hypertrophy, extracellular matrix, collagen types I and III, and fibrosis) and impairments in single RV myocyte contractility (i.e., amplitude and velocity to peak and relaxation). RT improved the expression of gene (i.e., miRNA 214) and intracellular Ca2+ cycling regulatory proteins (i.e., PLBser16); and of pathological (i.e., α/β-MHC and Foxo3) and physiological (i.e., Akt, p-Akt, mTOR, p-mTOR, and Bcl-xL) hypertrophy pathways markers in RV tissue. 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After the first monocrotaline (MCT; 20 mg/kg) injection, male rats were submitted to a RT program (Ladder climbing; 55–65 % intensity), 5 times/week. Seven days later rats received the second MCT dose. Physical effort tolerance test and echocardiographic examination were performed. After euthanasia, lung, heart, and biceps brachii were processed for histological, single myocyte, and biochemical analysis. RT improved survival and physical effort tolerance (i.e., maximum carrying load), mitigated the pulmonary artery resistance increase (i.e., TA/TE), and preserved cardiac function (i.e., fractional shortening, ejection fraction, stroke volume and TAPSE). RT counteracted oxidative stress (i.e., CAT, SOD, GST, MDA and NO) and adverse remodeling in lung (i.e., collapsed alveoli) and in biceps brachii (i.e., atrophy and total collagen) tissues. RT delayed RV adverse remodeling (i.e., hypertrophy, extracellular matrix, collagen types I and III, and fibrosis) and impairments in single RV myocyte contractility (i.e., amplitude and velocity to peak and relaxation). RT improved the expression of gene (i.e., miRNA 214) and intracellular Ca2+ cycling regulatory proteins (i.e., PLBser16); and of pathological (i.e., α/β-MHC and Foxo3) and physiological (i.e., Akt, p-Akt, mTOR, p-mTOR, and Bcl-xL) hypertrophy pathways markers in RV tissue. Low- to moderate-intensity RT benefits the structure and function of pulmonary, RV, and skeletal muscle tissues in rats with stable pulmonary artery hypertension.</description><subject>Adverse remodeling</subject><subject>Hypertrophy pathways markers</subject><subject>miRNA214 gene expression</subject><subject>Pulmonary artery hypertension</subject><subject>Resistance exercise training</subject><subject>RV myocyte contractility</subject><issn>0024-3205</issn><issn>1879-0631</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNp9kM9uFDEMhyMEEkvpA3DLkUNn6ySbnRlxQhX_pEpIFT1H3sShWc1mljgD7VPwyqQsUm-cbEe_z3I-Id4oWCtQ28v9eoq81qDNWmmt9PBMrNTQjx1sjXouVgB60xkN9qV4xbwHAGt7sxK_b4gTV8yeJN1T8YlJ1oIpp_xd7ihTTJXlcZkOc8bycCE9lpDQX0jMQR4W9suERXIti69Lob_Pccm-pjnLlGXBxv9K9a5lcDfR0y6JpVIrdw9Hal3mRrwWLyJOTOf_6pm4_fjh29Xn7vrrpy9X7687bwzUzgbyEUI_-nHoEUFhtGjGMGx08Gg2aC0CRhhC3OkejQcFFtqgjLGwi-ZMvD3tPZb5x0Jc3SGxp2nCTPPCTg89jKPZbvsWVaeoLzNzoeiOJR3a_U6Be5Tv9q7Jd4_y3Ul-Y96dGGp_-JmoOPaJmuSQCvnqwpz-Q_8Bv3yRhQ</recordid><startdate>20231101</startdate><enddate>20231101</enddate><creator>Soares, Leôncio Lopes</creator><creator>Leite, Luciano Bernardes</creator><creator>Ervilha, Luiz Otávio Guimarães</creator><creator>Pelozin, Bruno Rocha Avila</creator><creator>Pereira, Noemy Pinto</creator><creator>da Silva, Bruna Aparecida Fonseca</creator><creator>Portes, Alexandre Martins Oliveira</creator><creator>Drummond, Filipe Rios</creator><creator>de Rezende, Leonardo Mateus Teixeira</creator><creator>Fernandes, Tiago</creator><creator>Oliveira, Edilamar Menezes</creator><creator>Neves, Mariana Machado</creator><creator>Reis, Emily Correna Carlo</creator><creator>Natali, Antônio José</creator><general>Elsevier Inc</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20231101</creationdate><title>Resistance exercise training benefits pulmonary, cardiac, and muscular structure and function in rats with stable pulmonary artery hypertension</title><author>Soares, Leôncio Lopes ; 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After the first monocrotaline (MCT; 20 mg/kg) injection, male rats were submitted to a RT program (Ladder climbing; 55–65 % intensity), 5 times/week. Seven days later rats received the second MCT dose. Physical effort tolerance test and echocardiographic examination were performed. After euthanasia, lung, heart, and biceps brachii were processed for histological, single myocyte, and biochemical analysis. RT improved survival and physical effort tolerance (i.e., maximum carrying load), mitigated the pulmonary artery resistance increase (i.e., TA/TE), and preserved cardiac function (i.e., fractional shortening, ejection fraction, stroke volume and TAPSE). RT counteracted oxidative stress (i.e., CAT, SOD, GST, MDA and NO) and adverse remodeling in lung (i.e., collapsed alveoli) and in biceps brachii (i.e., atrophy and total collagen) tissues. RT delayed RV adverse remodeling (i.e., hypertrophy, extracellular matrix, collagen types I and III, and fibrosis) and impairments in single RV myocyte contractility (i.e., amplitude and velocity to peak and relaxation). RT improved the expression of gene (i.e., miRNA 214) and intracellular Ca2+ cycling regulatory proteins (i.e., PLBser16); and of pathological (i.e., α/β-MHC and Foxo3) and physiological (i.e., Akt, p-Akt, mTOR, p-mTOR, and Bcl-xL) hypertrophy pathways markers in RV tissue. Low- to moderate-intensity RT benefits the structure and function of pulmonary, RV, and skeletal muscle tissues in rats with stable pulmonary artery hypertension.</abstract><pub>Elsevier Inc</pub><doi>10.1016/j.lfs.2023.122128</doi><tpages>1</tpages></addata></record>
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subjects	Adverse remodeling Hypertrophy pathways markers miRNA214 gene expression Pulmonary artery hypertension Resistance exercise training RV myocyte contractility
title	Resistance exercise training benefits pulmonary, cardiac, and muscular structure and function in rats with stable pulmonary artery hypertension
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