Tetracyclines improve experimental lymphatic filariasis pathology by disrupting interleukin-4 receptor–mediated lymphangiogenesis
Julio Furlong-Silva, Stephen D. Cross, Amy E. Marriott, Nicolas Pionnier, John Archer, Andrew Steven, Stefan Schulte Merker, Matthias Mack, Young-Kwon Hong, Mark J. Taylor, Joseph D. Turner
Julio Furlong-Silva, Stephen D. Cross, Amy E. Marriott, Nicolas Pionnier, John Archer, Andrew Steven, Stefan Schulte Merker, Matthias Mack, Young-Kwon Hong, Mark J. Taylor, Joseph D. Turner
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Research Article Infectious disease Inflammation

Tetracyclines improve experimental lymphatic filariasis pathology by disrupting interleukin-4 receptor–mediated lymphangiogenesis

Abstract

Lymphatic filariasis is the major global cause of nonhereditary lymphedema. We demonstrate that the filarial nematode Brugia malayi induced lymphatic remodeling and impaired lymphatic drainage following parasitism of limb lymphatics in a mouse model. Lymphatic insufficiency was associated with elevated circulating lymphangiogenic mediators, including vascular endothelial growth factor C. Lymphatic insufficiency was dependent on type 2 adaptive immunity, the interleukin-4 receptor, and recruitment of C-C chemokine receptor-2–positive monocytes and alternatively activated macrophages with a prolymphangiogenic phenotype. Oral treatments with second-generation tetracyclines improved lymphatic function, while other classes of antibiotic had no significant effect. Second-generation tetracyclines directly targeted lymphatic endothelial cell proliferation and modified type 2 prolymphangiogenic macrophage development. Doxycycline treatment impeded monocyte recruitment, inhibited polarization of alternatively activated macrophages, and suppressed T cell adaptive immune responses following infection. Our results determine a mechanism of action for the antimorbidity effects of doxycycline in filariasis and support clinical evaluation of second-generation tetracyclines as affordable, safe therapeutics for lymphedemas of chronic inflammatory origin.

Authors

Julio Furlong-Silva, Stephen D. Cross, Amy E. Marriott, Nicolas Pionnier, John Archer, Andrew Steven, Stefan Schulte Merker, Matthias Mack, Young-Kwon Hong, Mark J. Taylor, Joseph D. Turner

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Figure 7

Depletion of CCR2+ monocytes or phagocytes significantly ameliorates filaria-induced lymphatic insufficiency.

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Depletion of CCR2+ monocytes or phagocytes significantly ameliorates fil...
(A) Schematic of CCR2+ monocyte and phagocyte depletion regimens in BmL3-infected C57BL/6J Prox-1GFP mice. (B) Representative flow cytometry plots from BmL3-infected mice or BmL3-infected mice treated with either anti-CCR2 ablating antibody (BmL3+αCCR2) or clodronate liposomes (BmL3+CL), 2 dpi. Percentages are CD11b+Ly6C+ cells as a proportion of live cells. (C) CD11b+Ly6C+CCR2+ inflammatory monocytes isolated from hind-limb lymphatic tissues or (D) blood, derived from sham, BmL3, BmL3+αCCR2, or BmL3+CL mice, 2 dpi. Data in D are reported as proportions of total white blood cells (WBC) (n = 4 sham and BmL3, n = 3 BmL3+αCCR2 and BmL3+CL). (E) Representative PDE images of sham, BmL3, BmL3+αCCR2, and BmL3+CL mice, 6 dpi. Yellow boxes highlight ICG retention (F) aberrant lymphatics, (G) hind-limb ICG retention, and (H) Evan’s blue dermal retention in sham, BmL3, BmL3+αCCR2, and BmL3+CL mice, 6 dpi (n = 5 sham and BmL3, n = 4 BmL3+αCCR2 and BmL3+CL). (I) Representative epifluorescence images of lymphatic vessels and (J) average lymphatic vessel aperture in sham, BmL3, BmL3+αCCR2, and BmL3+CL mice, 6 dpi (n = 5 sham and BmL3, n = 4 BmL3+αCCR2 and BmL3+CL). Scale bars: 200 μm. Data are from a single experiment. Histograms show the mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001 by 1-way ANOVA with Tukey’s multiple-comparison post hoc test.