Pulmonology Department-Muscle and Respiratory System Research Unit (URMAR), IMIM-Hospital del Mar, Parc de Salut Mar, Health and Experimental Sciences Department (CEXS), Universitat Pompeu Fabra (UPF), Barcelona Biomedical Research Park (PRBB), Barcelona, Spain; Centro de Investigación en Red de Enfermedades Respiratorias (CIBERES), Instituto de Salud Carlos III (ISCIII), Madrid, Spain.
Pathology Department, IMIM-Hospital del Mar, Parc de Salut Mar, Barcelona, Spain.
Free Radic Biol Med. 2015 Feb;79:91-108. doi: 10.1016/j.freeradbiomed.2014.11.006. Epub 2014 Nov 18.
Muscle dysfunction and wasting are predictors of mortality in advanced COPD and malignancies. Redox imbalance and enhanced protein catabolism are underlying mechanisms in COPD. We hypothesized that the expression profile of several biological markers share similarities in patients with cachexia associated with either COPD or lung cancer (LC). In vastus lateralis of cachectic patients with either LC (n=10) or advanced COPD (n=16) and healthy controls (n=10), markers of redox balance, inflammation, proteolysis, autophagy, signaling pathways, mitochondrial function, muscle structure, and sarcomere damage were measured using laboratory and light and electron microscopy techniques. Systemic redox balance and inflammation were also determined. All subjects were clinically evaluated. Compared to controls, in both cachectic groups of patients, a similar expression profile of different biological markers was observed in their muscles: increased levels of muscle protein oxidation and ubiquitination (p<0.05, both), which positively correlated (r=0.888), redox-sensitive signaling pathways (NF-κB and FoxO) were activated (p<0.05, all), fast-twitch fiber sizes were atrophied, muscle structural abnormalities and sarcomere disruptions were significantly greater (p<0.05, both). Structural and functional protein levels were lower in muscles of both cachectic patient groups than in controls (p<0.05, all). However, levels of autophagy markers including ultrastructural autophagosome counts were increased only in muscles of cachectic COPD patients (p<0.05). Systemic oxidative stress and inflammation levels were also increased in both patient groups compared to controls (p<0.005, both). Oxidative stress and redox-sensitive signaling pathways are likely to contribute to the etiology of muscle wasting and sarcomere disruption in patients with respiratory cachexia: LC and COPD.
肌肉功能障碍和消耗是晚期 COPD 和恶性肿瘤患者死亡的预测指标。氧化还原失衡和蛋白质分解代谢增强是 COPD 的潜在机制。我们假设,与 COPD 或肺癌(LC)相关的恶病质患者中,几种生物标志物的表达谱存在相似之处。在患有 LC(n=10)或晚期 COPD(n=16)和健康对照者(n=10)的恶病质患者的股外侧肌中,使用实验室和光镜及电镜技术测量了氧化还原平衡、炎症、蛋白水解、自噬、信号通路、线粒体功能、肌肉结构和肌节损伤的标志物。还测定了全身氧化还原平衡和炎症。所有受试者均进行了临床评估。与对照组相比,在两组恶病质患者的肌肉中观察到不同生物标志物的相似表达谱:肌肉蛋白氧化和泛素化水平升高(均 p<0.05),呈正相关(r=0.888);氧化还原敏感信号通路(NF-κB 和 FoxO)被激活(均 p<0.05);快肌纤维大小萎缩;肌肉结构异常和肌节破坏明显增加(均 p<0.05)。两组恶病质患者的肌肉结构和功能蛋白水平均低于对照组(均 p<0.05)。然而,仅在恶病质 COPD 患者的肌肉中,自噬标志物(包括超微结构自噬体计数)的水平增加(p<0.05)。与对照组相比,两组患者的全身氧化应激和炎症水平均升高(均 p<0.005)。氧化应激和氧化还原敏感信号通路可能导致呼吸恶病质患者的肌肉消耗和肌节破坏:LC 和 COPD。
