AI Article Synopsis
- IgG antibodies play a dual role in autoimmune diseases: they drive pathology but are also used in treatment via IVIg therapy to suppress harmful autoantibody activity.
- Researchers created a humanized mouse model of an autoimmune disease to study how human IgG subclasses and the Fc-receptor genotype affect this autoantibody behavior.
- The study found that specific IgG glycovariants are crucial for the efficacy of IVIg therapy, revealing potential strategies to improve treatments by managing autoantibody activity in humans.
Article Abstract
Immunoglobulin G (IgG) antibodies are major drivers of autoimmune pathology, but they are also used in the form of intravenous IgG (IVIg) therapy to suppress autoantibody activity. To identify the pathways underlying human autoantibody and IVIg activity, we established a humanized mouse model of an autoantibody-dependent autoimmune disease responding to treatment with IVIg preparations. We show that the human IgG subclass strongly impacts autoantibody activity and that the Fc-receptor genotype of the human donor immune system further modulates autoantibody activity. Human mononuclear phagocytes were responsible for autoantibody activity, and IVIg therapy was able to suppress disease pathology in an Fc-fragment-dependent manner. While highly sialylated IgG glycovariants were essential for IVIg activity, it was independent of the Fc-receptor genotype and did not result in a general block of activating or the neonatal Fc-receptor. These findings may help in the development of strategies to block autoantibody and enhance therapeutic IVIg activity in humans.
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| http://dx.doi.org/10.1016/j.celrep.2015.09.013 | DOI Listing |
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