空气污染通过吞噬溶酶体-15-脂氧合酶途径促使巨噬细胞衰老

Q3 Medicine
Sarah A Thomas, H. Yong, Ana M Rule, N. Gour, Stephane Lajoie
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引用次数: 0

摘要

城市颗粒物(PM;uPM)对健康,尤其是呼吸系统构成重大威胁。细颗粒物,如 PM2.5,可以深入肺部,加剧一系列健康问题,包括肺气肿、哮喘和肺癌。接触可吸入颗粒物还与肺外疾病有关,如心脏和神经退行性疾病。此外,长期暴露于高浓度的可吸入颗粒物会缩短人的总寿命。衰老是一种细胞功能失调状态,通常与年龄有关,但也可能由环境压力因素引起。本研究旨在确定 uPM 是否会促使巨噬细胞衰老,巨噬细胞是一种参与颗粒吞噬介导的清除的重要细胞类型。虽然人们知道暴露于 uPM 会损害免疫功能,但这种缺陷是多方面的,人们对它的了解并不全面,部分原因是使用了柴油废气颗粒等微粒来替代真正的 uPM。用 uPM 或参考微粒(如柴油机废气微粒)刺激骨髓巨噬细胞,以评估衰老相关参数。我们报告说,暴露于 uPM 的骨髓巨噬细胞会出现衰老表型,其特征是 IL-1α 分泌增加、与衰老相关的 β-半乳糖苷酶活性增强以及增殖减弱。uPM诱导的衰老与关键的巨噬细胞活化途径(特别是炎性体和清道夫受体)无关。然而,抑制吞噬溶酶体途径可减轻衰老标记,支持这种表型归因于uPM的吞噬作用。这些数据表明,uPM 暴露会导致巨噬细胞衰老,这可能会引发免疫病理学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Air Pollution Drives Macrophage Senescence through a Phagolysosome-15-Lipoxygenase Pathway.
Urban particulate matter (PM; uPM) poses significant health risks, particularly to the respiratory system. Fine particles, such as PM2.5, can penetrate deep into the lungs and exacerbate a range of health problems, including emphysema, asthma, and lung cancer. PM exposure is also linked to extrapulmonary disorders such as heart and neurodegenerative diseases. Moreover, prolonged exposure to elevated PM levels can reduce overall life expectancy. Senescence is a dysfunctional cell state typically associated with age but can also be precipitated by environmental stressors. This study aimed to determine whether uPM could drive senescence in macrophages, an essential cell type involved in particulate phagocytosis-mediated clearance. Although it is known that uPM exposure impairs immune function, this deficit is multifaceted and incompletely understood, partly because of the use of particulates such as diesel exhaust particles as a surrogate for true uPM. uPM was collected from several locations in the United States, including Baltimore, Houston, and Phoenix. Bone marrow-derived macrophages were stimulated with uPM or reference particulates (e.g., diesel exhaust particles) to assess senescence-related parameters. We report that uPM-exposed bone marrow-derived macrophages adopt a senescent phenotype characterized by increased IL-1α secretion, senescence-associated β-galactosidase activity, and diminished proliferation. Exposure to allergens failed to elicit such a response, supporting a distinction between different types of environmental exposure. uPM-induced senescence was independent of key macrophage activation pathways, specifically inflammasome and scavenger receptors. However, inhibition of the phagolysosome pathway abrogated senescence markers, supporting this phenotype's attribution to uPM phagocytosis. These data suggest that uPM exposure leads to macrophage senescence, which may contribute to immunopathology.
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来源期刊
CiteScore
3.70
自引率
0.00%
发文量
0
审稿时长
4 weeks
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