Thais C Freire, Antônio V Nascimento-Filho, Marília S Ferreira, Danielle da Silva Dias, Victor Miranda, Marina Dutra, Larissa Seibt, Andrey Serra, Denielli da Silva Gonçalves Bos, Maria Cláudia Irigoyen, Marcelle Paula-Ribeiro, Kátia De Angelis
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Male Wistar rats were assigned to MCT-treated sedentary (MCT-SED) or ET (MCT-ET) groups (n = 12/group), or saline-treated sedentary (SAL-SED) or ET (SAL-ET) controls (n = 8/group). PAH was induced via MCT injection (MCT, 40 mg/kg). The ET consisted of moderate-intensity interval aerobic (3x/week) and resistance (2x/week) training for four weeks. Muscle mass, oxidative stress and inflammation markers (IL-6, IL-10, TNF-α) were assessed in gastrocnemius and diaphragm muscles. PAH increased oxidative damage, reduced antioxidant defences, and elevated inflammatory markers in both muscles, contributing to muscle loss. Combined ET enhanced gastrocnemius antioxidant capacity (FRAP, SOD), reduced pro-oxidants (hydrogen peroxide, nitrite), and attenuated oxidative damage (TBARS, carbonyls) in both muscles. Combined ET decreased pro-inflammatory markers (IL-6, TNF-α), prevented diaphragm atrophy, and improved survival (MCT-SED vs. MCT-ET, p = 0.03; hazard ratio, 4.3; 95% CI, 1.2-15.1). 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引用次数: 0
摘要
肺动脉高压(PAH)是一种进行性疾病,其特征是全身氧化应激和炎症,并从肺血管延伸到肌肉骨骼系统。结合有氧和阻力成分的联合运动训练(ET)是一种很有前途的非药物干预方法,但其对肌肉骨骼氧化应激和炎症的影响尚不清楚。评估联合ET对单可可碱(MCT)诱导的多环芳烃(PAH)中肌肉骨骼氧化应激和炎症、肌肉萎缩和存活的影响。雄性Wistar大鼠被分配到mct治疗的久坐(MCT-SED)或ET (MCT-ET)组(n = 12/组),或盐治疗的久坐(SAL-SED)或ET (SAL-ET)对照组(n = 8/组)。注射MCT (MCT, 40 mg/kg)诱导PAH。ET包括中等强度间歇有氧训练(3次/周)和阻力训练(2次/周),持续4周。测定腓肠肌和膈肌的肌肉质量、氧化应激和炎症标志物(IL-6、IL-10、TNF-α)。多环芳烃增加了两块肌肉的氧化损伤,降低了抗氧化防御能力,炎症标志物升高,导致肌肉损失。联合ET增强了腓肠肌的抗氧化能力(FRAP, SOD),减少了促氧化剂(过氧化氢,亚硝酸盐),并减轻了两块肌肉的氧化损伤(TBARS,羰基)。联合ET降低促炎标志物(IL-6、TNF-α),防止膈肌萎缩,提高生存率(MCT-SED vs MCT-ET, p = 0.03;风险比,4.3;95% CI, 1.2-15.1)。联合间歇ET改善了外周肌和呼吸肌的氧化还原平衡和炎症谱。这些适应与mct诱导的多环芳烃中膈肌萎缩减少和生存率提高有关。我们的研究结果支持联合ET作为管理PAH系统性并发症的非药物策略。
Impact of combined exercise training in peripheral and diaphragm muscles and in mortality in a preclinical model of pulmonary arterial hypertension.
Pulmonary arterial hypertension (PAH) is a progressive disease characterised by systemic oxidative stress and inflammation that extends beyond the pulmonary vasculature to the musculoskeletal system. Combined exercise training (ET), incorporating aerobic and resistance components, is a promising non-pharmacological intervention, but its effects on musculoskeletal oxidative stress and inflammation remain unclear. To evaluate the effects of combined ET on musculoskeletal oxidative stress and inflammation, muscle wasting, and survival in a monocrotaline (MCT)-induced PAH. Male Wistar rats were assigned to MCT-treated sedentary (MCT-SED) or ET (MCT-ET) groups (n = 12/group), or saline-treated sedentary (SAL-SED) or ET (SAL-ET) controls (n = 8/group). PAH was induced via MCT injection (MCT, 40 mg/kg). The ET consisted of moderate-intensity interval aerobic (3x/week) and resistance (2x/week) training for four weeks. Muscle mass, oxidative stress and inflammation markers (IL-6, IL-10, TNF-α) were assessed in gastrocnemius and diaphragm muscles. PAH increased oxidative damage, reduced antioxidant defences, and elevated inflammatory markers in both muscles, contributing to muscle loss. Combined ET enhanced gastrocnemius antioxidant capacity (FRAP, SOD), reduced pro-oxidants (hydrogen peroxide, nitrite), and attenuated oxidative damage (TBARS, carbonyls) in both muscles. Combined ET decreased pro-inflammatory markers (IL-6, TNF-α), prevented diaphragm atrophy, and improved survival (MCT-SED vs. MCT-ET, p = 0.03; hazard ratio, 4.3; 95% CI, 1.2-15.1). Combined interval ET improved redox balance and inflammatory profiles in both peripheral and respiratory muscles. These adaptations were linked to reduced diaphragm muscle wasting and enhanced survival in MCT-induced PAH. Our findings support combined ET as a non-pharmacological strategy for managing systemic complications of PAH.
期刊介绍:
Pflügers Archiv European Journal of Physiology publishes those results of original research that are seen as advancing the physiological sciences, especially those providing mechanistic insights into physiological functions at the molecular and cellular level, and clearly conveying a physiological message. Submissions are encouraged that deal with the evaluation of molecular and cellular mechanisms of disease, ideally resulting in translational research. Purely descriptive papers covering applied physiology or clinical papers will be excluded. Papers on methodological topics will be considered if they contribute to the development of novel tools for further investigation of (patho)physiological mechanisms.
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