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S100a9 lactylation triggers neutrophil trafficking and cardiac inflammation in myocardial ischemia/reperfusion injury

Xiaoqi Wang, Xiangyu Yan, Ge Mang, Yujia Chen, Shuang Liu, Jiayu Sui, Zhonghua Tong, Penghe Wang, Jingxuan Cui, Qiannan Yang, Yafei Zhang, Dongni Wang, Ping Sun, Weijun Song, Zexi Jin, Ming Shi, Peng Zhao, Jia Yang, Mingyang Liu, Naixin Wang, Tao Chen, Yong Ji, Bo Yu, Maomao Zhang

2025Journal of Clinical Investigation15 citationsDOIOpen Access PDF

Abstract

Lactylation, a posttranslational modification derived from glycolysis, plays a pivotal role in ischemic heart disease. Neutrophils are predominantly glycolytic cells that trigger intensive inflammation of myocardial ischemia/reperfusion (MI/R). However, whether lactylation regulates neutrophil function during MI/R remains unknown. We applied lactyl proteomics analysis and found that S100a9 was lactylated at lysine 26 (S100a9K26la) in neutrophils, with elevated levels observed in both patients with acute myocardial infarction (AMI) and MI/R model mice. We demonstrated that S100a9K26la drove the development of MI/R using mutant knockin mice. Mechanistically, lactylated S100a9 translocated to the nucleus of neutrophils, where it bound to the promoters of migration-related genes, thereby enhancing their transcription as a coactivator and promoting neutrophil migration and cardiac recruitment. Additionally, lactylated S100a9 was released during neutrophil extracellular trap (NET) formation, leading to cardiomyocyte death by disrupting mitochondrial function. The enzyme dihydrolipoyllysine-residue acetyltransferase (DLAT) was identified as the lactyltransferase facilitating neutrophil S100a9K26la following MI/R, a process that could be restrained by α-lipoic acid. Consistently, we found that targeting the DLAT/S100a9K26la axis suppressed neutrophil burden and improved cardiac function following MI/R. In patients with AMI, elevated S100a9K26la levels in plasma were positively correlated with cardiac death. These findings highlight S100a9 lactylation as a potential therapeutic target for MI/R and as a promising biomarker for evaluating poor MI/R outcomes.

Topics & Concepts

S100A9Neutrophil extracellular trapsInflammationS100A8MedicineMyocardial infarctionBiomarkerCardiac function curveMediatorInternal medicineGlycolysisCell biologyCoactivatorExtracellularCancer researchImmunologyCardiomyopathyBiologyFunction (biology)MutantSystemic inflammationHypoxia (environmental)Gene knockdownHeart failureAcetyltransferaseProteomicsCardiologyS100 Proteins and AnnexinsCardiac Ischemia and ReperfusionCardiac Fibrosis and Remodeling
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