Neutrophil-derived itaconate facilitates tiered pulmonary inflammation via Kdm5b-associated epigenetic remodeling in alveolar macrophages. > Selected

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2026 Neutrophil-derived itaconate facilitates tiered pulmonary inflammation…

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  • 등록일 26-06-10
  • 조회24회
Paper name
Neutrophil-derived itaconate facilitates tiered pulmonary inflammation via Kdm5b-associated epigenetic remodeling in alveolar macrophages.
Author
Lim G*, Kim J*, Park D, Lee J, Roh YJ, Yang M, Lee S, Yang S, Baek S, Park J, Lim HC, Lee J, Kim S, Seo H, Kim Y, Jung SM, Yang H, Sun P, Lee SE, Kang YE, Park Y, Son YM, Yi H, Hong JY, Luis FM, Kang DH, Kim C#, Yoon S#, and Choi DW#
Journal+date
Cell Reports. June 23.
Link
https://www.cell.com/cell-reports/fulltext/S2211-1247(26)00490-0

본문


Acute lung injury (ALI) and its severe form, acute respiratory distress syndrome (ARDS), present a substantial clinical burden, magnified by conditions such as COVID-19. While these conditions provide a model for exploring complex inflammatory processes, the environmental factors coordinating these responses remain poorly understood. Here, we employ comprehensive multi-omics and biochemical analyses and identify neutrophil-derived itaconate as an extracellular factor associated with sequential immune cell infiltration, including neutrophils, T cells, and monocytes. Mechanistically, extracellular itaconate metabolically facilitates Kdm5b-associated epigenetic changes at the Il6, Ccl5, and Cxcl10 gene promoters in alveolar macrophages, which are important for immune cell recruitment. Consistent with this, Mrp8-Cre Acod1fl/fl mice lacking neutrophil-derived itaconate are significantly protected from ALI-induced inflammation, with similar patterns observed in an Acinetobacter baumannii infection model. Collectively, these findings identify neutrophil-derived itaconate as an environmental factor that epigenetically shapes tiered inflammatory responses in the lung.