DOI: 10.3390/ijms27135890 ISSN: 1422-0067

Seawater Immersion Hypothermia Triggers Cardiac Pyroptosis via the NF-κB/NLRP3 Inflammasome Axis: A Mechanistic Study in Rats

Huifang Deng, Chaoyue Sun, Zhibo Wang, Hongbiao Chen, Yiwen Ben, Yukun Wu, Wumu Xu, Jiaqi Wang, Yajing Wang, Yanrong Gong, Yunyang Wu, Xiaofei Zhu, Wei Gu, Zifei Yin

Cold seawater immersion is a critical lethal risk in maritime accidents and military operations, frequently inducing fatal myocardial dysfunction. However, the mechanisms underlying this seawater immersion hypothermia-induced cardiac injury remain poorly defined. This study aimed to elucidate the pathological progression and underlying mechanisms of myocardial injury induced by cold seawater immersion. A male SD rat model was immersed in 15 °C seawater for 2 h. Echocardiography, transmission electron microscopy, transcriptomics, and Western blot were performed to assess cardiac function, mitochondrial ultrastructure, and molecular mechanisms. Cold stress triggered progressive bradycardia (~480 to ~100 bpm) with initial Frank–Starling compensation, followed by decompensation with reduced cardiac output and impaired diastolic function. Mitochondrial ultrastructural damage preceded histological lesions and was accompanied by elevated cardiac injury markers (cTnT, CK-MB, BNP). Cardiac tissue exhibited upregulated TNF-α, IL-1β, and IL-6, while transcriptomic analysis revealed enrichment of inflammatory pathways (TNF, NF-κB) and coordinated upregulation of pattern recognition receptors including scavenger receptor, Toll-like receptor, and NOD-like receptor families. The Western blot confirmed NF-κB activation, NLRP3 inflammasome assembly, and the N-terminal fragment of gasdermin D (GSDMD-NT) accumulation, indicating pyroptotic cell death. These findings demonstrate that cold seawater stress disrupts mitochondrial homeostasis and activates the NF-κB/NLRP3/pyroptosis cascade, contributing to inflammatory cardiomyocyte death and cardiac decompensation. This mechanistic insight may inform therapeutic strategies for seawater immersion hypothermia.

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