Jin Guo, Chunxia Shi, Yukun Wang, Danmei Zhang, Qingqi Zhang, Xiaoya Zhang, Luwen Wang, Zuojiong Gong
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引用次数: 0
Abstract
Aims
Acute liver failure (ALF) is marked by extensive inflammation and immune dysregulation, which are closely associated with neutrophil infiltration and NETosis. However, the specific mechanisms that drive NETosis in ALF remain poorly understood.
Materials and methods
We employed flow cytometry, western blot, qRT-PCR, and cf-DNA assay to investigate the link between NETosis and ALF. The role of HDAC6-mediated deacetylation of histidine triad nucleotide-binding protein 2 (Hint2) was assessed, along with the effects of lentiviral vector-based overexpression and knockdown of Hint2 on mitochondrial function and NETosis. Additionally, CO-IP, IF, protein docking analysis, mCa2+ uptake assay, and mtROS measurement were used to explore the interaction between Hint2 and mitochondrial calcium uniporter complex (MCUc). Finally, experimental neutrophil depletion in mice was conducted to confirm the protective effect of NETosis inhibition in ALF.
Key findings
Our study demonstrated that Hint2 undergoes HDAC6-mediated deacetylation, disrupting mitochondrial dynamics and triggering NETosis during ALF. Furthermore, MICU1 bridges Hint2 and NETosis by regulating mCa2+ homeostasis and mtROS production. Activation of Hint2, either through the HDAC6 inhibitor ACY1215 or via overexpression, increased the level of MICU1 to suppress the opening of the MCUc and the associated mtROS release, thereby inhibiting NETosis. Conversely, Hint2 knockdown induced NETosis by surging mCa2+ overload and mtROS production, while the MCUc inhibitor RU265 mitigates NETosis by blocking mCa2+ influx.
Significance
Our findings recognized the HDAC6/Hint2/MICU1 axis as a novel pathway in neutrophils, the inhibition of which intercepts mCa2+ overload and mtROS accumulation, thereby reducing NETosis and facilitating liver recovery during ALF.
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Life Sciences is an international journal publishing articles that emphasize the molecular, cellular, and functional basis of therapy. The journal emphasizes the understanding of mechanism that is relevant to all aspects of human disease and translation to patients. All articles are rigorously reviewed.
The Journal favors publication of full-length papers where modern scientific technologies are used to explain molecular, cellular and physiological mechanisms. Articles that merely report observations are rarely accepted. Recommendations from the Declaration of Helsinki or NIH guidelines for care and use of laboratory animals must be adhered to. Articles should be written at a level accessible to readers who are non-specialists in the topic of the article themselves, but who are interested in the research. The Journal welcomes reviews on topics of wide interest to investigators in the life sciences. We particularly encourage submission of brief, focused reviews containing high-quality artwork and require the use of mechanistic summary diagrams.
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