Chikungunya virus infection disrupts lymph node lymphatic endothelial cell composition and function via MARCO
Cormac J. Lucas, Ryan M. Sheridan, Glennys V. Reynoso, Bennett J. Davenport, Mary K. McCarthy, Aspen Martin, Jay R. Hesselberth, Heather D. Hickman, Beth A.J. Tamburini, Thomas E. Morrison
Cormac J. Lucas, Ryan M. Sheridan, Glennys V. Reynoso, Bennett J. Davenport, Mary K. McCarthy, Aspen Martin, Jay R. Hesselberth, Heather D. Hickman, Beth A.J. Tamburini, Thomas E. Morrison
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Research Article Immunology Virology

Chikungunya virus infection disrupts lymph node lymphatic endothelial cell composition and function via MARCO

Abstract

Infection with chikungunya virus (CHIKV) causes disruption of draining lymph node (dLN) organization, including paracortical relocalization of B cells, loss of the B cell–T cell border, and lymphocyte depletion that is associated with infiltration of the LN with inflammatory myeloid cells. Here, we found that, during the first 24 hours of infection, CHIKV RNA accumulated in MARCO-expressing lymphatic endothelial cells (LECs) in both the floor and medullary LN sinuses. The accumulation of viral RNA in the LN was associated with a switch to an antiviral and inflammatory gene expression program across LN stromal cells, and this inflammatory response — including recruitment of myeloid cells to the LN — was accelerated by CHIKV-MARCO interactions. As CHIKV infection progressed, both floor and medullary LECs diminished in number, suggesting further functional impairment of the LN by infection. Consistent with this idea, antigen acquisition by LECs, a key function of LN LECs during infection and immunization, was reduced during pathogenic CHIKV infection.

Authors

Cormac J. Lucas, Ryan M. Sheridan, Glennys V. Reynoso, Bennett J. Davenport, Mary K. McCarthy, Aspen Martin, Jay R. Hesselberth, Heather D. Hickman, Beth A.J. Tamburini, Thomas E. Morrison

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Figure 3

WT CHIKV infection alters LN LEC composition.

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WT CHIKV infection alters LN LEC composition. (A–C) WT mice were inocula...
(AC) WT mice were inoculated in the footpad with PBS (n = 8) or 1 × 103 PFU CHIKV 181/25 (n = 8) or WT CHIKV (n = 8) (2 independent experiments). At the time points indicated, the dLN was collected and analyzed by flow cytometry. (A) Gating strategy (after gating on viable singlets) to segregate BECs, LECs, and FRCs and further subset LECs into floor, ceiling, and medullary LECs. (B) Total number of BECs, FRCs, and LECs. (C) Percentage and total number of medullary, floor, and ceiling LECs at each time point. Data presented as mean ± SEM. **P < 0.01; ***P < 0.001; ****P < 0.0001, by 1-way ANOVA with Tukey’s multiple-comparison test.