The m6A modification of SOX18 leads to increased PTX3 and cardiomyocyte pyroptosis in sepsis-induced cardiomyopathy.

IF 12.4 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Theranostics Pub Date : 2025-02-24 eCollection Date: 2025-01-01 DOI:10.7150/thno.103809

He Sun, Xinan Qiao, Xiangyan Peng, Hanzhao Zhu, Liyun Zhang, Liqing Jiang, Longteng Wang, Chao Xue, Jian Yang, Wei Yi, Bin Zhang, Jincheng Liu, Weixun Duan

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引用次数: 0

Abstract

Rationale: Sepsis-induced cardiomyopathy (SIC) is a rapidly progressing condition with poor prognosis in the absence of effective therapeutic interventions. Cardiomyocyte pyroptosis is a critical factor contributing to cardiac dysfunction in SIC. Currently, research on this mechanism remains unclear. Methods: We performed LPS-induced primary mouse cardiomyocyte modeling and mouse SIC modeling. Through mRNA-Seq, we found significant pyroptosis in the cardiac tissue of SIC mice. Further confocal microscopy and immunoprecipitation results confirmed that PTX3 is an important participant in cardiomyocyte pyroptosis. We then used ChIP and dual-luciferase reporter assays to confirm that SOX18 exerts a transcriptional repression effect on PTX3. M6A-Seq and RNA stability assays confirmed that the m6A modification mediated/recognized by RBM15/YTHDF2 is a crucial factor in the changes of SOX18 in SIC. Results: Our experiments demonstrated that the abnormally elevated PTX3 in SIC plays a key role in mediating pyroptosis. Under physiological conditions, PTX3 transcription is repressed by SOX18. However, during septic cardiomyopathy, SOX18 stability is compromised by RBM15/YTHDF2-mediated m6A modification, leading to increased PTX3 levels and the subsequent induction of cardiomyocyte pyroptosis. Conclusion: In summary, we have delineated the RBM15/YTHDF2-SOX18-PTX3 axis in SIC. It provides a new approach for the treatment of cardiomyocyte pyroptosis in SIC and for improving prognosis.

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来源期刊

Theranostics MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

25.40

自引率

1.60%

发文量

433

审稿时长

1 months

期刊介绍： Theranostics serves as a pivotal platform for the exchange of clinical and scientific insights within the diagnostic and therapeutic molecular and nanomedicine community, along with allied professions engaged in integrating molecular imaging and therapy. As a multidisciplinary journal, Theranostics showcases innovative research articles spanning fields such as in vitro diagnostics and prognostics, in vivo molecular imaging, molecular therapeutics, image-guided therapy, biosensor technology, nanobiosensors, bioelectronics, system biology, translational medicine, point-of-care applications, and personalized medicine. Encouraging a broad spectrum of biomedical research with potential theranostic applications, the journal rigorously peer-reviews primary research, alongside publishing reviews, news, and commentary that aim to bridge the gap between the laboratory, clinic, and biotechnology industries.