Aldehyde metabolism governs resilience of mucociliary clearance to air pollution exposure.

The Journal of Clinical Investigation Pub Date : 2025-05-15 DOI:10.1172/jci191276

Noriko Shinjyo,Haruna Kimura,Tomomi Yoshihara,Jun Suzuki,Masaya Yamaguchi,Shigetada Kawabata,Yasutaka Okabe

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Abstract

Air pollution is a serious environmental threat to public health; however, the molecular basis underlying its detrimental effects on respiratory fitness remains poorly understood. Here, we show that exposure to particulate matter ≤2.5 µm (PM2.5), a significant fraction of air pollutants, induces the generation of reactive aldehyde species in the airway. We identified aldehyde dehydrogenase 1A1 (ALDH1A1), which is selectively expressed in airway epithelium, as an enzyme responsible for detoxifying these reactive aldehyde species. Loss of ALDH1A1 function results in the accumulation of aldehyde adducts in the airway, which selectively impairs mucociliary clearance (MCC), a critical defense mechanism against respiratory pathogens. Thus, ALDH1A1-deficient mice pre-exposed to PM2.5 exhibited increased susceptibility to pneumonia. Conversely, pharmacological enhancement of ALDH1A1 activity promoted the restoration of MCC function. These findings elucidate the critical role of aldehyde metabolism in protecting against PM2.5 exposure, offering a potential target to mitigate the negative health consequences of air pollution.

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醛代谢控制毛粘清除对空气污染暴露的恢复力。

空气污染是对公众健康的严重环境威胁；然而，其对呼吸健康有害影响的分子基础仍然知之甚少。在这里，我们发现暴露于≤2.5µm （PM2.5）的颗粒物（空气污染物的很大一部分）会诱导气道中活性醛的产生。我们确定了醛脱氢酶1A1 (ALDH1A1)，它在气道上皮中选择性表达，是一种负责解毒这些活性醛的酶。ALDH1A1功能的丧失导致气道中醛加合物的积累，从而选择性地损害粘膜纤毛清除（MCC），这是对抗呼吸道病原体的关键防御机制。因此，预先暴露于PM2.5的aldh1a1缺陷小鼠对肺炎的易感性增加。相反，ALDH1A1活性的药理学增强促进MCC功能的恢复。这些发现阐明了醛代谢在防止PM2.5暴露中的关键作用，为减轻空气污染对健康的负面影响提供了一个潜在的目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Clinical Investigation

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