Fungal chitin is not an independent mediator of allergic fungal asthma severity.

IF 3.6 2区医学 Q1 PHYSIOLOGY American journal of physiology. Lung cellular and molecular physiology Pub Date : 2024-09-01 Epub Date: 2024-06-25 DOI:10.1152/ajplung.00041.2024

Diandra A Ellis, MaryJane Jones, Hubertine M E Willems, Suki Cheung, Mgayya Makullah, Vishukumar Aimanianda, Chad Steele

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Abstract

Chitin, a polysaccharide found in the fungal cell wall and the exoskeletons of house dust mites and cockroaches, has garnered attention as a potential immunoreactive allergen. Mammals have evolved to express chitin-degrading chitinases (acidic mammalian chitinase/AMCase and chitotriosidase) that may modulate immune responses to chitin. We have previously reported that mice deficient in AMCase (Chia^-^/-) demonstrated better lung function during allergic fungal asthma. As expected, we show that mice overexpressing AMCase (SPAM mice) had worse airway hyperreactivity (AHR) during allergic fungal asthma. We further demonstrate that chitin-positive Aspergillus fumigatus conidia are detectable in the allergic lung during chronic exposure. Lung function in Chia^-^/- and SPAM mice is directly correlated with the level of chitinase activity during chronic fungal exposure (Chia^-^/- mice, negligible chitinase activity, lower AHR; SPAM mice, heightened chitinase activity, higher AHR), suggesting that the breakdown of chitin promoted AHR. However, chronic exposure of normal mice to purified A. fumigatus chitin resulted in only moderate inflammatory changes in the lung that were not sufficient to induce AHR. Moreover, despite having dramatic differences in chitinase activity, chronic exposure of Chia^-^/- and SPAM mice to purified A. fumigatus chitin likewise did not modulate AHR. Collectively, these results indicate that chronic exposure to fungal chitin alone is incapable of driving AHR. Furthermore, our data suggest that the chitinase-mediated degradation of chitin associated with A. fumigatus conidia may facilitate unmasking and/or liberation of other fungal cell wall components that drive inflammatory responses that contribute to AHR.NEW & NOTEWORTHY Humans with asthma sensitized to fungi often have more severe asthma than those who are not fungal-sensitized. Chitin makes up a significant portion of the cell wall of fungi and has been implicated as a pathogenic factor in allergic asthma. Ellis et al. demonstrate that chronic exposure to fungal chitin alone is unable to modulate lung function, even in the presence of differential lung chitinase activity.

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真菌甲壳素不是过敏性真菌哮喘严重程度的独立介质。

甲壳素是一种多糖，存在于真菌细胞壁以及屋尘螨和蟑螂的外骨骼中，作为一种潜在的免疫反应过敏原而备受关注。哺乳动物在进化过程中会表达几丁质降解酶（酸性哺乳动物几丁质酶/AMCase 和几丁质三糖苷酶），这些酶可能会调节对几丁质的免疫反应。我们以前曾报道过，缺乏 AMCase 的小鼠（Chia-/-）在发生过敏性真菌哮喘时表现出更好的肺功能。不出所料，我们发现过表达 AMCase 的小鼠（SPAM 小鼠）在过敏性真菌哮喘期间的气道高反应性（AHR）更差。我们进一步证明，在慢性接触过程中，过敏性肺部可检测到几丁质阳性的曲霉分生孢子。在慢性真菌暴露期间，Chia-/- 和 SPAM 小鼠的肺功能与几丁质酶活性水平直接相关（Chia-/- 小鼠，几丁质酶活性可忽略不计，AHR 较低；SPAM 小鼠，几丁质酶活性较高，AHR 较高），这表明几丁质的分解促进了 AHR。然而，正常小鼠长期接触纯化的甲壳素只会导致肺部出现中度炎症变化，不足以诱发 AHR。此外，尽管 Chia-/- 和 SPAM 小鼠的几丁质酶活性存在巨大差异，但它们长期接触纯化的烟曲霉几丁质同样不会调节 AHR。总之，这些结果表明，长期暴露于真菌甲壳素本身并不能驱动 AHR。此外，我们的数据还表明，由几丁质酶介导的与烟曲霉分生孢子相关的几丁质降解可能会促进其他真菌细胞壁成分的释放和/或释放，而这些真菌细胞壁成分会驱动炎症反应，从而导致 AHR。

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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来源期刊

American journal of physiology. Lung cellular and molecular physiology 医学-呼吸系统

CiteScore

9.20

自引率

4.10%

发文量

146

审稿时长

2 months

期刊介绍： The American Journal of Physiology-Lung Cellular and Molecular Physiology publishes original research covering the broad scope of molecular, cellular, and integrative aspects of normal and abnormal function of cells and components of the respiratory system. Areas of interest include conducting airways, pulmonary circulation, lung endothelial and epithelial cells, the pleura, neuroendocrine and immunologic cells in the lung, neural cells involved in control of breathing, and cells of the diaphragm and thoracic muscles. The processes to be covered in the Journal include gas-exchange, metabolic control at the cellular level, intracellular signaling, gene expression, genomics, macromolecules and their turnover, cell-cell and cell-matrix interactions, cell motility, secretory mechanisms, membrane function, surfactant, matrix components, mucus and lining materials, lung defenses, macrophage function, transport of salt, water and protein, development and differentiation of the respiratory system, and response to the environment.