Frontiers in Microbiology (Mar 2024)

Mice, myeloid cells, and dengue: a new model for unraveling vascular leakage mysteries

  • Takeshi Kurosu,
  • Yusuke Sakai,
  • Yasusi Ami,
  • Masayuki Shimojima,
  • Tomoki Yoshikawa,
  • Shuetsu Fukushi,
  • Noriyo Nagata,
  • Tadaki Suzuki,
  • Hideki Ebihara,
  • Masayuki Saijo

DOI
https://doi.org/10.3389/fmicb.2024.1367672
Journal volume & issue
Vol. 15

Abstract

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IntroductionSevere dengue is thought to be caused by an excessive host immune response.MethodsTo study the pathogenesis of severe dengue, we developed a novel model using LysM Cre+Ifnarflox/flox mice carrying depleted Ifnar expression only in subsets of murine myeloid cells.ResultsAlthough dengue virus (DENV) clinical isolates were not virulent in LysM Cre+Ifnarflox/flox mice, mouse-adapted DV1-5P7Sp and DV3P12/08P4Bm, which were obtained by passaging the spleen or bone marrow of mice, demonstrated 100% lethality with severe vascular leakage in the liver and small intestine. DV1-5P7Sp and DV3P12/08P4Bm harbored five and seven amino acid substitutions, respectively. Infection also induced neutrophil infiltration in the small intestine, and increased expression of IL-6 and MMP-8 and blockade of TNF-α signaling protected the mice, as demonstrated in a previous severe dengue mouse model using C57/BL6 mice lacking both IFN-α/β and IFN-γ receptors. Notably, the new models with DV1-5P7Sp and DV3P12/08P4Bm showed an increased proliferative capacity of the adapted viruses in the thymus and bone marrow.DiscussionThese observations suggest that myeloid cell infection is sufficient to trigger cytokine storm-induced vascular leakage. This model can refine the factors involved in the pathology of severe dengue leading to vascular leakage.

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