Basophil-Derived IL-4 and IL-13 Protect Intestinal Barrier Integrity and Control Bacterial Translocation during Malaria.

Q3 Medicine ImmunoHorizons Pub Date : 2024-05-01 DOI:10.4049/immunohorizons.2300084
Nora Céspedes, Abigail M Fellows, Erinn L Donnelly, Hannah L Kaylor, Taylor A Coles, Ryan Wild, Megan Dobson, Joseph Schauer, Judy Van de Water, Shirley Luckhart
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Abstract

Our previous work demonstrated that basophils regulate a suite of malaria phenotypes, including intestinal mastocytosis and permeability, the immune response to infection, gametocytemia, and parasite transmission to the malaria mosquito Anopheles stephensi. Given that activated basophils are primary sources of the regulatory cytokines IL-4 and IL-13, we sought to examine the contributions of these mediators to basophil-dependent phenotypes in malaria. We generated mice with basophils depleted for IL-4 and IL-13 (baso IL-4/IL-13 (-)) and genotype controls (baso IL-4/IL-13 (+)) by crossing mcpt8-Cre and Il4/Il13fl/fl mice and infected them with Plasmodium yoelii yoelii 17XNL. Conditional deletion was associated with ileal mastocytosis and mast cell (MC) activation, increased intestinal permeability, and increased bacterial 16S levels in blood, but it had no effect on neutrophil activation, parasitemia, or transmission to A. stephensi. Increased intestinal permeability in baso IL-4/IL-13 (-) mice was correlated with elevated plasma eotaxin (CCL11), a potent eosinophil chemoattractant, and increased ileal MCs, proinflammatory IL-17A, and the chemokines MIP-1α (CCL3) and MIP-1β (CCL4). Blood bacterial 16S copies were positively but weakly correlated with plasma proinflammatory cytokines IFN-γ and IL-12p40, suggesting that baso IL-4/IL-13 (-) mice failed to control bacterial translocation into the blood during malaria infection. These observations suggest that basophil-derived IL-4 and IL-13 do not contribute to basophil-dependent regulation of parasite transmission, but these cytokines do orchestrate protection of intestinal barrier integrity after P. yoelii infection. Specifically, basophil-dependent IL-4/IL-13 control MC activation and prevent infection-induced intestinal barrier damage and bacteremia, perhaps via regulation of eosinophils, macrophages, and Th17-mediated inflammation.

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嗜碱性粒细胞分泌的IL-4和IL-13在疟疾期间保护肠屏障完整性并控制细菌转运
我们之前的研究表明,嗜碱性粒细胞能调节一系列疟疾表型,包括肠道肥大细胞增多和通透性、对感染的免疫反应、配子细胞血症以及寄生虫传播给疟蚊。鉴于活化的嗜碱性粒细胞是调节细胞因子 IL-4 和 IL-13 的主要来源,我们试图研究这些介质对疟疾中嗜碱性粒细胞依赖表型的贡献。我们通过将 mcpt8-Cre 和 Il4/Il13fl/fl 小鼠杂交,产生了嗜碱性粒细胞缺失 IL-4 和 IL-13 的小鼠(baso IL-4/IL-13 (-))和基因型对照组(baso IL-4/IL-13 (+)),并用疟原虫 yoelii yoelii 17XNL 感染了它们。条件性缺失与回肠肥大细胞增多症和肥大细胞(MC)活化、肠道通透性增加以及血液中细菌 16S 含量增加有关,但对中性粒细胞活化、寄生虫血症或对 A. stephensi 的传播没有影响。IL-4/IL-13(-)小鼠肠道通透性的增加与血浆中嗜酸性粒细胞趋化吸引剂 eotaxin(CCL11)的升高、回肠 MCs、促炎性 IL-17A 以及趋化因子 MIP-1α (CCL3)和 MIP-1β (CCL4)的增加有关。血液细菌 16S 拷贝与血浆促炎细胞因子 IFN-γ 和 IL-12p40 呈正相关,但相关性较弱,这表明嗜碱性 IL-4/IL-13 (-) 小鼠在疟疾感染期间未能控制细菌向血液的转移。这些观察结果表明,来源于嗜碱性粒细胞的 IL-4 和 IL-13 对依赖于嗜碱性粒细胞的寄生虫传播调节不起作用,但这些细胞因子确实能在感染 P. yoelii 后保护肠道屏障的完整性。具体来说,嗜碱性粒细胞依赖的IL-4/IL-13可控制MC活化,防止感染引起的肠屏障损伤和菌血症,这可能是通过调节嗜酸性粒细胞、巨噬细胞和Th17介导的炎症。
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CiteScore
3.70
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