Shifting FcγRIIA-ITAM from activation to inhibitory configuration ameliorates arthritis
Sanae Ben Mkaddem, … , Pierre Bruhns, Renato C. Monteiro
Sanae Ben Mkaddem, … , Pierre Bruhns, Renato C. Monteiro
Published July 25, 2014
Citation Information: J Clin Invest. 2014;124(9):3945-3959. https://doi.org/10.1172/JCI74572.
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Research Article Inflammation

Shifting FcγRIIA-ITAM from activation to inhibitory configuration ameliorates arthritis

Abstract

Rheumatoid arthritis–associated (RA-associated) inflammation is mediated through the interaction between RA IgG immune complexes and IgG Fc receptors on immune cells. Polymorphisms within the gene encoding the human IgG Fc receptor IIA (hFcγRIIA) are associated with an increased risk of developing RA. Within the hFcγRIIA intracytoplasmic domain, there are 2 conserved tyrosine residues arranged in a noncanonical immunoreceptor tyrosine–based activation motif (ITAM). Here, we reveal that inhibitory engagement of the hFcγRIIA ITAM either with anti-hFcγRII F(ab′)2 fragments or intravenous hIgG (IVIg) ameliorates RA-associated inflammation, and this effect was characteristic of previously described inhibitory ITAM (ITAMi) signaling for hFcαRI and hFcγRIIIA, but only involves a single tyrosine. In hFcγRIIA-expressing mice, arthritis induction was inhibited following hFcγRIIA engagement. Moreover, hFcγRIIA ITAMi-signaling reduced ROS and inflammatory cytokine production through inhibition of guanine nucleotide exchange factor VAV-1 and IL-1 receptor–associated kinase 1 (IRAK-1), respectively. ITAMi signaling was mediated by tyrosine 304 (Y304) within the hFcγRIIA ITAM, which was required for recruitment of tyrosine kinase SYK and tyrosine phosphatase SHP-1. Anti-hFcγRII F(ab′)2 treatment of inflammatory synovial cells from RA patients inhibited ROS production through induction of ITAMi signaling. These data suggest that shifting constitutive hFcγRIIA-mediated activation to ITAMi signaling could ameliorate RA-associated inflammation.

Authors

Sanae Ben Mkaddem, Gilles Hayem, Friederike Jönsson, Elisabetta Rossato, Erwan Boedec, Tarek Boussetta, Jamel El Benna, Pierre Launay, Jean-Michel Goujon, Marc Benhamou, Pierre Bruhns, Renato C. Monteiro

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Figure 8

hFcγRIIA-ITAMi signaling regulates ROS production through inhibition of Vav-1 and Rac.

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hFcγRIIA-ITAMi signaling regulates ROS production through inhibition of ...
(A) Representative hFcγR expression on human neutrophils. Gray-shaded histograms represent staining with isotype controls; open red histograms show hFcγRI, hFcγRIIA, hFcγRIIB, and hFcγRIII staining, respectively. Right panel indicates quantification by mean fluorescence intensity (MFI). (B) ROS production by human neutrophils preincubated with indicated antibody before cell activation with fMLF. Peak of ROS production was measured by luminol-amplified chemiluminescence. (C) Neutrophil cell lysates were subjected to anti-Rac immunoprecipitation, and eluted proteins were analyzed by immunoblotting with indicated antibodies. Cell lysates were also analyzed by immunoblotting. (D) Neutrophil cell lysates treated as in C were subjected to anti–Vav-1 or anti–SHP-1 immunoprecipitation. Eluted proteins were analyzed by immunoblotting for the presence of indicated proteins. Cell lysates were also analyzed by immunoblotting. (E) Representative hFcγR expression on human monocytes as in A. (F) ROS production by human monocytes transfected with the indicated siRNA as in B. (G and H) Lysates from human monocytes transfected with the indicated siRNA were preincubated with AT-10 F(ab′)2 before cell activation with fMLF. (G) Monocyte cell lysates were subjected to anti-Rac immunoprecipitation. Eluted material was analyzed by immunoblotting for the presence of indicated proteins. Cell lysates were also analyzed by immunoblotting. (H) Monocyte cell lysates were subjected to immunoprecipitation with indicated antibodies and analyzed by immunoblotting for the presence of indicated proteins. (I) Proposed mechanism by which hFcγRIIA-mediated ITAMi signaling regulates ROS production induced by fMLF. *P < 0.05. Data represent 1 of 3 independent experiments.