Platelets accelerate lipid peroxidation and induce pathogenic neutrophil extracellular trap release

IF 6.6 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Madoka Ono, Masayasu Toyomoto, Momono Yamauchi, Masatoshi Hagiwara
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引用次数: 0

Abstract

Neutrophil extracellular traps (NETs), an important host defense mechanism, are assembled after the release of decondensed chromatin and other nuclear components by a process termed NETosis. However, excessive NET release destroys surrounding tissues, leading to conditions such as sepsis where platelets are implicated in the pathogenic switch of NETosis. Here, we show that platelets trigger iron accumulation and promote lipid peroxide production in neutrophils co-stimulated with lipopolysaccharide and platelets in vitro, resulting in the induction of NETosis. We also screened for compounds that inhibit lipid peroxidation, identified 8-methyl-N-geranyl-6-nonamide (capsaicin), and assessed its potential in suppressing platelet-mediated pathogenic NETosis. Capsaicin inhibited lipopolysaccharide/platelet-induced cellular lipid peroxidation and suppressed NETosis in vitro. Furthermore, capsaicin attenuated NETosis in a mouse model of lipopolysaccharide-induced lung inflammation. Our findings provide an original therapeutic strategy to target lipid peroxidation and pave the way for drug development for a wide range of NETosis-related diseases.

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来源期刊
Cell Chemical Biology
Cell Chemical Biology Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
14.70
自引率
2.30%
发文量
143
期刊介绍: Cell Chemical Biology, a Cell Press journal established in 1994 as Chemistry & Biology, focuses on publishing crucial advances in chemical biology research with broad appeal to our diverse community, spanning basic scientists to clinicians. Pioneering investigations at the chemistry-biology interface, the journal fosters collaboration between these disciplines. We encourage submissions providing significant conceptual advancements of broad interest across chemical, biological, clinical, and related fields. Particularly sought are articles utilizing chemical tools to perturb, visualize, and measure biological systems, offering unique insights into molecular mechanisms, disease biology, and therapeutics.
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