Depletion of major pathogenic cells in asthma by targeting CRTh2
Tao Huang, Meredith Hazen, Yonglei Shang, Meijuan Zhou, Xiumin Wu, Donghong Yan, Zhonghua Lin, Margaret Solon, Elizabeth Luis, Hai Ngu, Yongchang Shi, Arna Katewa, David F. Choy, Nandhini Ramamoorthi, Erick R. Castellanos, Mercedesz Balazs, Min Xu, Wyne P. Lee, Marissa L. Matsumoto, Jian Payandeh, Joseph R. Arron, Jo-Anne Hongo, Jianyong Wang, Isidro Hötzel, Cary D. Austin, Karin Reif
Tao Huang, Meredith Hazen, Yonglei Shang, Meijuan Zhou, Xiumin Wu, Donghong Yan, Zhonghua Lin, Margaret Solon, Elizabeth Luis, Hai Ngu, Yongchang Shi, Arna Katewa, David F. Choy, Nandhini Ramamoorthi, Erick R. Castellanos, Mercedesz Balazs, Min Xu, Wyne P. Lee, Marissa L. Matsumoto, Jian Payandeh, Joseph R. Arron, Jo-Anne Hongo, Jianyong Wang, Isidro Hötzel, Cary D. Austin, Karin Reif
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Research Article Immunology Therapeutics

Depletion of major pathogenic cells in asthma by targeting CRTh2

Abstract

Eosinophilic inflammation and Th2 cytokine production are central to the pathogenesis of asthma. Agents that target either eosinophils or single Th2 cytokines have shown benefits in subsets of biomarker-positive patients. More broadly effective treatment or disease-modifying effects may be achieved by eliminating more than one inflammatory stimulator. Here we present a strategy to concomitantly deplete Th2 T cells, eosinophils, basophils, and type-2 innate lymphoid cells (ILC2s) by generating monoclonal antibodies with enhanced effector function (19A2) that target CRTh2 present on all 4 cell types. Using human CRTh2 (hCRTh2) transgenic mice that mimic the expression pattern of hCRTh2 on innate immune cells but not Th2 cells, we demonstrate that anti-hCRTh2 antibodies specifically eliminate hCRTh2+ basophils, eosinophils, and ILC2s from lung and lymphoid organs in models of asthma and Nippostrongylus brasiliensis infection. Innate cell depletion was accompanied by a decrease of several Th2 cytokines and chemokines. hCRTh2-specific antibodies were also active on human Th2 cells in vivo in a human Th2-PBMC-SCID mouse model. We developed humanized hCRTh2-specific antibodies that potently induce antibody-dependent cell cytotoxicity (ADCC) of primary human eosinophils and basophils and replicated the in vivo depletion capacity of their murine parent. Therefore, depletion of hCRTh2+ basophils, eosinophils, ILC2, and Th2 cells with h19A2 hCRTh2–specific antibodies may be a novel and more efficacious treatment for asthma.

Authors

Tao Huang, Meredith Hazen, Yonglei Shang, Meijuan Zhou, Xiumin Wu, Donghong Yan, Zhonghua Lin, Margaret Solon, Elizabeth Luis, Hai Ngu, Yongchang Shi, Arna Katewa, David F. Choy, Nandhini Ramamoorthi, Erick R. Castellanos, Mercedesz Balazs, Min Xu, Wyne P. Lee, Marissa L. Matsumoto, Jian Payandeh, Joseph R. Arron, Jo-Anne Hongo, Jianyong Wang, Isidro Hötzel, Cary D. Austin, Karin Reif

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Figure 6

Therapeutic treatment with anti-hCRTh2 19A2 antibodies depletes basophils and eosinophils from lung and inhibits IL4 production in a mouse model of allergic asthma.

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Therapeutic treatment with anti-hCRTh2 19A2 antibodies depletes basophil...
hCRTh2.BAC.Tg mice were immunized with TNP-OVA/alum on day 0 and challenged with 7 daily aerosol administrations of TNP-OVA, starting on day 35 until day 41. (AE) Mice were treated with 200 μg of hCRTh2-specific afucosylated 19A2 or control mIgG2a Abs daily from day 38 through day 41. (A) Graphs show basophil, eosinophil, or CD4+ T cell numbers in lung as determined by flow cytometry. (B and E) Graphs show morphological scoring of eosinophil frequency in lung (B) and spleen (E); representative images of tissue sections are shown for lung (B). (C) Graphs show eosinophil or lymphocyte numbers in BAL as assessed by differential cell count. (D) The concentrations of IL4, IL5, and IL13 were determined by ELISA in BAL; the lower limit of detection was 6.25 pg/ml (IL4), 3.1 pg/ml (IL5), and 62.5 pg/ml (IL13). (F and G) Mice were treated with 200 μg of hCRTh2-specific afucosylated 19A2, 19A2.DANA, or control mIgG2a Abs daily from day 38 through day 41. Treatment with afucosylated 19A2 Ab, but not with the 19A2.DANA mutant, depleted basophils and eosinophils from lung (F) and eosinophils from BAL (G, left panel) and prevented IL4 production in BAL (right panel); the lower limit of detection in the IL4 ELISA assay was 3.1 pg/ml. Results are mean ± SEM; number of mice per group were n = 7 (control Ig), n = 8 (19A2, 19A2.DANA), or n = 5 (naive). *P ≤ 0.05, **P ≤ 0.005, ***P ≤ 0.0005 (Dunnett’s test). TNP-OVA, 2,4,6-trinitrophenyl-conjugated ovalbumin; BAL, bronchoalveolar lavage.