Dynamic changes of immune cells and therapeutic responses in experimental models of COPD
Jingxian Xie, Pengfei Li, Jianjun Du, Shiran Li, Zhimin Li, Jiao Zhang, Siyu Zeng, Yanqiu Zhang, Yong Yang

TL;DR
The paper explores how immune cells change in COPD models and how these changes affect treatment responses, aiming to improve personalized therapies.
Contribution
It systematically elucidates immune cell dynamics and therapeutic responses in COPD models, offering insights for targeted interventions.
Findings
Macrophage polarization and neutrophil activity drive inflammation and tissue damage in COPD.
T cell subsets sustain chronic inflammation, while impaired Tregs hinder resolution.
Therapies targeting specific inflammatory phenotypes show variable efficacy, emphasizing the need for precision approaches.
Abstract
Chronic obstructive pulmonary disease (COPD) is a heterogeneous respiratory disorder characterized by a complex pathogenesis involving chronic inflammation, protease–antiprotease imbalance, oxidative stress, and epigenetic regulation. Experimental models, including cigarette smoke exposure, air pollution, and acute exacerbation models, provide essential platforms for investigating immune cell dynamics during disease initiation and progression. Macrophages contribute to inflammatory amplification and tissue destruction through polarization imbalance and metabolic reprogramming. Neutrophils exacerbate persistent lung injury via recruitment, protease release, NET formation, and delayed apoptosis, while also promoting airway remodeling during the repair phase. T cells—particularly CD8+, Th1/Th17, and tissue-resident memory T cells—sustain chronic inflammation through cytotoxicity and…
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Taxonomy
TopicsChronic Obstructive Pulmonary Disease (COPD) Research · Pediatric health and respiratory diseases · Asthma and respiratory diseases
