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A recombinant human IgG1 Fc multimer designed to mimic the active fraction of IVIG in autoimmunity
Xiaoyu Zhang, Jane Owens, Henrik S. Olsen, Edward So, Erin Burch, Mark C. McCroskey, Xianfeng Li, Gregory L. Weber, Donald Bennett, Denis Rybin, Hua Zhou, Haiping Hao, Emmanuel Y. Mérigeon, David S. Block, Gregory LaRosa, Scott E. Strome
Xiaoyu Zhang, Jane Owens, Henrik S. Olsen, Edward So, Erin Burch, Mark C. McCroskey, Xianfeng Li, Gregory L. Weber, Donald Bennett, Denis Rybin, Hua Zhou, Haiping Hao, Emmanuel Y. Mérigeon, David S. Block, Gregory LaRosa, Scott E. Strome
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Research Article

A recombinant human IgG1 Fc multimer designed to mimic the active fraction of IVIG in autoimmunity

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Abstract

The antiinflammatory effects of i.v. Ig (IVIG) in the treatment of autoimmune disease are due, in part, to the Fc fragments of Ig aggregates. In order to capitalize on the known antiinflammatory and tolerogenic properties of Ig Fc aggregates, we created a recombinant human IgG1 Fc multimer, GL-2045. In vitro, GL-2045 demonstrated high-avidity binding to Fc receptors, blocked the binding of circulating immune complexes from patients with rheumatoid arthritis to human Fcγ receptors (FcγRs), and inhibited antibody-mediated phagocytosis at log order–lower concentrations than IVIG. In vivo, administration of GL-2045 conferred partial protection against antibody-mediated platelet loss in a murine immune thrombocytopenic purpura (ITP) model. GL-2045 also suppressed disease activity in a therapeutic model of murine collagen-induced arthritis (CIA), which was associated with reduced circulating levels of IL-6. Furthermore, GL-2045 administration to nonhuman primates (NHPs) transiently increased systemic levels of the antiinflammatory cytokines IL-10 and IL-1RA, reduced the proinflammatory cytokine IL-8, and decreased surface expression of CD14 and HLA-DR on monocytes. These findings demonstrate the immunomodulatory properties of GL-2045 and suggest that it has potential as a treatment for autoimmune and inflammatory diseases, as a recombinant alternative to IVIG.

Authors

Xiaoyu Zhang, Jane Owens, Henrik S. Olsen, Edward So, Erin Burch, Mark C. McCroskey, Xianfeng Li, Gregory L. Weber, Donald Bennett, Denis Rybin, Hua Zhou, Haiping Hao, Emmanuel Y. Mérigeon, David S. Block, Gregory LaRosa, Scott E. Strome

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Figure 1

GL-2045 is composed of ordered Fc multimers and effectively binds immune cells from different species.

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GL-2045 is composed of ordered Fc multimers and effectively binds immune...
(A) Schematic illustration of the structure of the GL-2045 homodimer composed of the human IgG1 CH2 and CH3 domains and the IgG2 hinge region. (B) SDS-PAGE analysis of GL-2045 under nonreduced and reduced conditions. (C) FACS analysis of GL-2045 and G001 binding to immune cells of human, nonhuman primate (cynomolgus macaque), and mouse origin. For human peripheral blood analysis, T cells/B cells/NK cells were identified as CD3+/CD3–CD19+/CD3–CD56+ within the lymphocyte gate, monocytes were characterized as CD14+ cells within the monocyte gate, and granulocytes were identified based on FSC vs. SSC. For cynomolgus macaque peripheral blood, T cells/B cells/NK cells were identified as CD3+/CD3–CD19+/CD3–CD16+ within the lymphocyte gate, monocytes were characterized as CD14+ cells within the monocyte gate, and granulocytes were identified based on FSC vs. SSC. In murine spleen, the markers included to identify different cell populations were: CD3+ (T cells), CD3–Dx5+ (NK cells), CD3–B220+ (B cells), B220–/CD11b+/Gr1–/int (mono/macrophages), and B220–/CD11b+/Gr1hi (granulocyte). Data represent 1 of at least 3 different experiments using cells from different donors.

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