Lymph node trafficking and antigen presentation by endobronchial eosinophils
Huan-Zhong Shi, … , Zhuang Jin, Peter F. Weller
Huan-Zhong Shi, … , Zhuang Jin, Peter F. Weller
Published April 1, 2000
Citation Information: J Clin Invest. 2000;105(7):945-953. https://doi.org/10.1172/JCI8945.
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Article

Lymph node trafficking and antigen presentation by endobronchial eosinophils

Abstract

Because eosinophils recruited into the airways in allergic diseases are exposed to inhaled allergens, we evaluated whether eosinophils within the endobronchial lumen can function in vivo as antigen-presenting cells for inhaled antigens. We recovered eosinophils from the airways after aerosol antigen challenge in sensitized mice or from the peritoneal cavities of IL-5 transgenic mice and fluorescently labeled these cells ex vivo. These labeled cells, instilled intratracheally into normal mice, migrated into draining paratracheal lymph nodes and localized to T cell–rich paracortical areas. The homing of airway eosinophils to lymph nodes was not governed by eotaxin, because CCR3–/– and CCR3+/+ eosinophils migrated identically. Airway eosinophils, recovered after inhalational antigen challenge in sensitized mice, expressed MHC class II and costimulatory CD80 and CD86 proteins and functioned in vitro as CD80- and CD86-dependent, antigen-specific, antigen-presenting cells. Moreover, when instilled into the airways of antigen-sensitized recipient mice, airway eosinophils recovered after inhalational antigen challenge stimulated antigen-specific CD4+ T cell proliferation within paratracheal lymph nodes. Thus, eosinophils within the lumina of airways can process inhaled antigens, traffic to regional lymph nodes, and function in vivo as antigen-presenting cells to stimulate responses of CD4+ T cells.

Authors

Huan-Zhong Shi, Alison Humbles, Craig Gerard, Zhuang Jin, Peter F. Weller

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Figure 2

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Eosinophil localization within paratracheal lymph nodes. After DiIC16(3)...
Eosinophil localization within paratracheal lymph nodes. After DiIC16(3)-labeled eosinophils (5 × 105) were instilled into the tracheas of recipient mice, paratracheal lymph nodes were examined by fluorescence microscopy to enumerate migrated eosinophils per square millimeter, as described in Methods. (a) Kinetics of eosinophil appearance in lymph nodes for normal BALB/c mice receiving airway eosinophils isolated from OVA-sensitized and aerosol-challenged BALB/c mice (G), for normal C3H/HeN mice receiving peritoneal eosinophils isolated from IL-5 C3H/HeN transgenic mice (J), and for OVA-sensitized BALB/c mice receiving airway eosinophils isolated from OVA-sensitized and aerosol-challenged BALB/c mice (H). Each result represents the mean ± SEM from 6 mice. (b) Comparisons of the lymph node migration of CCR3–/– and CCR3+/+ airway-derived eosinophils isolated from OVA-sensitized and aerosol-challenged mice instilled intratracheally into normal BALB/c mice. Each result represents the mean ± SEM from 3 mice per group.