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Usage Information

Eosinophils generate brominating oxidants in allergen-induced asthma
Weijia Wu, Michael K. Samoszuk, Suzy A.A. Comhair, Mary Jane Thomassen, Carol F. Farver, Raed A. Dweik, Mani S. Kavuru, Serpil C. Erzurum, Stanley L. Hazen
Weijia Wu, Michael K. Samoszuk, Suzy A.A. Comhair, Mary Jane Thomassen, Carol F. Farver, Raed A. Dweik, Mani S. Kavuru, Serpil C. Erzurum, Stanley L. Hazen
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Article

Eosinophils generate brominating oxidants in allergen-induced asthma

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Abstract

Eosinophils promote tissue injury and contribute to the pathogenesis of allergen-triggered diseases like asthma, but the chemical basis of damage to eosinophil targets is unknown. We now demonstrate that eosinophil activation in vivo results in oxidative damage of proteins through bromination of tyrosine residues, a heretofore unrecognized pathway for covalent modification of biologic targets in human tissues. Mass spectrometric studies demonstrated that 3-bromotyrosine serves as a specific “molecular fingerprint” for proteins modified through the eosinophil peroxidase-H2O2 system in the presence of plasma levels of halides. We applied a localized allergen challenge to model the effects of eosinophils and brominating oxidants in human lung injury. Endobronchial biopsy specimens from allergen-challenged lung segments of asthmatic, but not healthy control, subjects demonstrated significant enrichments in eosinophils and eosinophil peroxidase. Baseline levels of 3-bromotyrosine in bronchoalveolar lavage (BAL) proteins from mildly allergic asthmatic individuals were modestly but not statistically significantly elevated over those in control subjects. After exposure to segmental allergen challenge, lung segments of asthmatics, but not healthy control subjects, exhibited a >10-fold increase in BAL 3-bromotyrosine content, but only two- to threefold increases in 3-chlorotyrosine, a specific oxidation product formed by neutrophil- and monocyte-derived myeloperoxidase. These results identify reactive brominating species produced by eosinophils as a distinct class of oxidants formed in vivo. They also reveal eosinophil peroxidase as a potential therapeutic target for allergen-triggered inflammatory tissue injury in humans.

Authors

Weijia Wu, Michael K. Samoszuk, Suzy A.A. Comhair, Mary Jane Thomassen, Carol F. Farver, Raed A. Dweik, Mani S. Kavuru, Serpil C. Erzurum, Stanley L. Hazen

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Usage data is cumulative from July 2025 through July 2026.

Usage JCI PMC
Text version 961 47
PDF 153 7
Figure 419 0
Table 94 0
Citation downloads 165 0
Totals 1,792 54
Total Views 1,846
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Usage information is collected from two different sources: this site (JCI) and Pubmed Central (PMC). JCI information (compiled daily) shows human readership based on methods we employ to screen out robotic usage. PMC information (aggregated monthly) is also similarly screened of robotic usage.

Various methods are used to distinguish robotic usage. For example, Google automatically scans articles to add to its search index and identifies itself as robotic; other services might not clearly identify themselves as robotic, or they are new or unknown as robotic. Because this activity can be misinterpreted as human readership, data may be re-processed periodically to reflect an improved understanding of robotic activity. Because of these factors, readers should consider usage information illustrative but subject to change.

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ISSN: 0021-9738 (print), 1558-8238 (online)

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