Mouse Models of Sepsis

Kannan, Shravan Kumar; Kim, Caleb Y.; Heidarian, Mohammad; Berton, Roger R.; Jensen, Isaac J.; Griffith, Thomas S.; Badovinac, Vladimir P.

doi:10.1002/cpz1.997

Current Protocols

2024

DOI: 10.1002/cpz1.997

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Mouse Models of Sepsis

Shravan Kumar Kannan,

Caleb Y. Kim,

Mohammad Heidarian

et al.

Abstract: Human sepsis is a complex disease that manifests with a diverse range of phenotypes and inherent variability among individuals, making it hard to develop a comprehensive animal model. Despite this difficulty, numerous models have been developed that capture many key aspects of human sepsis. The robustness of these models is vital for conducting pre‐clinical studies to test and develop potential therapeutics. In this article, we describe four different models of murine sepsis that can be used to address differe… Show more

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Cited by 4 publications

References 56 publications

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Targeting SphK1/S1PR3 axis ameliorates sepsis-induced multiple organ injury via orchestration of macrophage polarization and glycolysis

Wang,

Bi,

Zhao

et al. 2025

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Targeting SphK1/S1PR3 axis ameliorates sepsis-induced multiple organ injury via orchestration of macrophage polarization and glycolysis

Wang,

Bi,

Zhao

et al. 2025

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Actual Methods of Experimental Modeling of Peritonitis: Overview and Perspectives

Lyakhovskyi,

Shepitko,

Osipov

et al. 2024

VPBM

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Immunomodulatory Effects and Protection in Sepsis by the Antibiotic Moxifloxacin

Velho,

Raquel,

Figueiredo

et al. 2024

Antibiotics

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Sepsis is a leading cause of death in Intensive Care Units. Despite its prevalence, sepsis remains insufficiently understood, with no substantial qualitative improvements in its treatment in the past decades. Immunomodulatory agents may hold promise, given the significance of TNF-α and IL-1β as sepsis mediators. This study examines the immunomodulatory effects of moxifloxacin, a fluoroquinolone utilized in clinical practice. THP1 cells were treated in vitro with either PBS or moxifloxacin and subsequently challenged with lipopolysaccharide (LPS) or E. coli. C57BL/6 mice received intraperitoneal injections of LPS or underwent cecal ligation and puncture (CLP), followed by treatment with PBS, moxifloxacin, meropenem or epirubicin. Atm−/− mice underwent CLP and were treated with either PBS or moxifloxacin. Cytokine and organ lesion markers were quantified via ELISA, colony-forming units were assessed from mouse blood samples, and DNA damage was evaluated using a comet assay. Moxifloxacin inhibits the secretion of TNF-α and IL-1β in THP1 cells stimulated with LPS or E. coli. Intraperitoneal administration of moxifloxacin significantly increased the survival rate of mice with severe sepsis by 80% (p < 0.001), significantly reducing the plasma levels of cytokines and organ lesion markers. Notably, moxifloxacin exhibited no DNA damage in the comet assay, and Atm−/− mice were similarly protected following CLP, boasting an overall survival rate of 60% compared to their PBS-treated counterparts (p = 0.003). Moxifloxacin is an immunomodulatory agent, reducing TNF-α and IL-1β levels in immune cells stimulated with LPS and E. coli. Furthermore, moxifloxacin is also protective in an animal model of sepsis, leading to a significant reduction in cytokines and organ lesion markers. These effects appear unrelated to its antimicrobial activity or induction of DNA damage.

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Mouse Models of Sepsis

Cited by 4 publications

References 56 publications

Targeting SphK1/S1PR3 axis ameliorates sepsis-induced multiple organ injury via orchestration of macrophage polarization and glycolysis

Targeting SphK1/S1PR3 axis ameliorates sepsis-induced multiple organ injury via orchestration of macrophage polarization and glycolysis

Actual Methods of Experimental Modeling of Peritonitis: Overview and Perspectives

Immunomodulatory Effects and Protection in Sepsis by the Antibiotic Moxifloxacin

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