Agonistic anti-DCIR antibody inhibits ITAM-mediated inflammatory signaling and promotes immune resolution
Liang Chen, Suresh Patil, Jeffrey Barbon, James Waire, Stephen Laroux, Donna McCarthy, Mishra Pratibha, Suju Zhong, Feng Dong, Karin Orsi, Gunarso Nguyen, Yingli Yang, Nancy Crosbie, Eric Dominguez, Arun Deora, Geertruida Veldman, Susan Westmoreland, Liang Jin, Timothy Radstake, Kevin White, Hsi-Ju Wei
Liang Chen, Suresh Patil, Jeffrey Barbon, James Waire, Stephen Laroux, Donna McCarthy, Mishra Pratibha, Suju Zhong, Feng Dong, Karin Orsi, Gunarso Nguyen, Yingli Yang, Nancy Crosbie, Eric Dominguez, Arun Deora, Geertruida Veldman, Susan Westmoreland, Liang Jin, Timothy Radstake, Kevin White, Hsi-Ju Wei
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Research Article Immunology

Agonistic anti-DCIR antibody inhibits ITAM-mediated inflammatory signaling and promotes immune resolution

Abstract

DC inhibitory receptor (DCIR) is a C-type lectin receptor selectively expressed on myeloid cells, including monocytes, macrophages, DCs, and neutrophils. Its role in immune regulation has been implicated in murine models and human genome-wide association studies, suggesting defective DCIR function associates with increased susceptibility to autoimmune diseases such as rheumatoid arthritis, lupus, and Sjögren’s syndrome. However, little is known about the mechanisms underlying DCIR activation to dampen inflammation. Here, we developed anti-DCIR agonistic antibodies that promote phosphorylation on DCIR’s immunoreceptor tyrosine-based inhibitory motifs and recruitment of SH2 containing protein tyrosine phosphatase-2 for reducing inflammation. We also explored the inflammation resolution by depleting DCIR+ cells with antibodies. Utilizing a human DCIR–knock-in mouse model, we validated the antiinflammatory properties of the agonistic anti-DCIR antibody in experimental peritonitis and colitis. These findings provide critical evidence for targeting DCIR to develop transformative therapies for inflammatory diseases.

Authors

Liang Chen, Suresh Patil, Jeffrey Barbon, James Waire, Stephen Laroux, Donna McCarthy, Mishra Pratibha, Suju Zhong, Feng Dong, Karin Orsi, Gunarso Nguyen, Yingli Yang, Nancy Crosbie, Eric Dominguez, Arun Deora, Geertruida Veldman, Susan Westmoreland, Liang Jin, Timothy Radstake, Kevin White, Hsi-Ju Wei

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Figure 3

Agonistic anti-DCIR mAb provides immunosuppressive function by increasing SHP2 binding to the ITIM.

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Agonistic anti-DCIR mAb provides immunosuppressive function by increasin...
(A) Human monocytes were treated with 5 μg/mL antibodies for 30 minutes. Antibody binding was quantitated by the 10 μg/mL PE anti-human IgG secondary antibody. Data are normalized to the isotype group. Representative data from 2 independent studies are shown. (B) Scheme of the immunosuppressive effect induced by the agonistic anti-DCIR mAb. (C) Human monocytes were treated with 5 μg/mL anti-DCIR mAbs or isotype for 30 minutes, followed by immunoprecipitation (IP) using anti-SHP2 antibody. SHP2-DCIR interaction was evaluated by the DCIR level analyzed by WB. SHP2 from IP lysate and GAPDH from whole cell lysate were probed as loading controls. (D and E) Human monocytes were pretreated with 5 μg/mL antibodies for 30 minutes, followed by 50 μg/mL anti-human IC: HSA stimulation for 30 minutes. SYK’s interactions with SHP2 and FcRγ chain were evaluated by immunoprecipitation using anti-SHP2 (D) and anti-FcRγ (E) antibodies. SHP2 and FcRγ chain from IP lysate and Actin from whole cell lysate were probed as loading controls. (A and CE) Representative data from 2 studies are shown. (F and G) Human monocytes (n = 3) were pretreated with 10 μg/mL antibodies for 30 minutes, followed by 25 μg/mL ZymD stimulation overnight. Induction of TNF-α and IL-6 in supernatant were measured by ELISA and normalized to the isotype group. (H) Human neutrophils were pretreated with 10 μg/mL antibodies for 2 hours, and OCR were detected in real time after GM-CSF/PMA stimulation. AUC of the OCR was shown. Representative data from 3 independent studies are shown. (FH) Means ± SEM are shown, and statistical significance is determined by 1-way ANOVA test with Dunnett’s correction compared with the isotype condition. *P < 0.05, **P < 0.01.