TLR9/MyD88/TRIF signaling activates host immune inhibitory CD200 in Leishmania infection
Ismael P. Sauter, … , Wadih Arap, Mauro Cortez
Ismael P. Sauter, … , Wadih Arap, Mauro Cortez
Published May 16, 2019
Citation Information: JCI Insight. 2019;4(10):e126207. https://doi.org/10.1172/jci.insight.126207.
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Research Article Infectious disease

TLR9/MyD88/TRIF signaling activates host immune inhibitory CD200 in Leishmania infection

Abstract

Virulent protozoans named Leishmania in tropical and subtropical areas produce devastating diseases by exploiting host immune responses. Amastigotes of Leishmania amazonensis stimulate macrophages to express CD200, an immunomodulatory ligand, which binds to its cognate receptor (CD200R) and inhibits the inducible nitric oxide synthase and nitric oxide (iNOS/NO) signaling pathways, thereby promoting intracellular survival. However, the mechanisms underlying CD200 induction in macrophages remain largely unknown. Here, we show that phagocytosis-mediated internalization of L. amazonensis amastigotes following activation of endosomal TLR9/MyD88/TRIF signaling is critical for inducing CD200 in infected macrophages. We also demonstrate that Leishmania microvesicles containing DNA fragments activate TLR9-dependent CD200 expression, which inhibits the iNOS/NO pathway and modulates the course of L. amazonensis infection in vivo. These findings demonstrate that Leishmania exploits TLR-signaling pathways not only to inhibit macrophage microbicidal function, but also to evade host systemic immune responses, which has many implications in the severity of the disease.

Authors

Ismael P. Sauter, Katerine G. Madrid, Josiane B. de Assis, Anderson Sá-Nunes, Ana C. Torrecilhas, Daniela I. Staquicini, Renata Pasqualini, Wadih Arap, Mauro Cortez

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Figure 5

Low virulence of Leishmania amazonensis in TLR9–/– mice is associated with reduced CD11b+F4/80+CD200+ cells and proinflammatory cytokines in the lesion.

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Low virulence of Leishmania amazonensis in TLR9–/– mice is associated wi...
(A) Lesion size during the course of WT and TLR9–/– mouse infection with L. amazonensis. Results correspond to the mean ± SD (n = 5). **P < 0.01 (Student’s t test). (B) Representative image of the lesions generated at the left footpad in WT and TLR9-/- mice in the L. amazonensis infection experiment shown in A. (C) Parasite load in the footpads of WT and TLR9–/– mice infected with L. amazonensis at the third week of infection. Results correspond to mean ± SD (n = 4). ***P < 0.001 (Student’s t test). (D) Cytokine profile of draining cells from footpad homogenates quantified by ELISA. Results correspond to the mean ± SD (n = 4). IL-12p70, *P = 0.0106; IL-4, ***P < 0.001; IL-10, *P < 0.0228 (Student’s t test). (E) By flow cytometry, CD45+ and CD45 cells from lesions were analyzed for CD200 expression in nonimmune (F) and immune cells (G). *P < 0.01 (Student’s t test). (H) Total macrophages at the lesion site in WT and TLR9–/– mice infected with L. amazonensis and analyzed by flow cytometry. Results correspond to the mean ± SD (n = 4). *P = 0.0106 (Student’s t test). (I) Representative histograms used to calculate the percentage of CD200+ macrophages and the absolute number of CD11b+F4/80+CD200+ cells at the lesion site of WT and TLR9–/– mice infected with L. amazonensis. Results correspond to the mean ± SD (n = 4). *P = 0.0114 (Student’s t test).