AI Article Synopsis
- Autoantibody immune complexes activate Fcγ receptors (FcγRs), which play a key role in autoimmune diseases, but understanding how to block this activation without causing unwanted effects has been challenging.
- Researchers developed and tested a modified trivalent Fc construct that effectively binds to FcγRs, inhibiting harmful immune responses without activating immune cells.
- The new Fc3Y molecule showed significant therapeutic potential in animal models of autoimmune diseases, suggesting it could be a promising treatment option for conditions driven by FcγR activation.
Article Abstract
Autoantibody immune complex (IC) activation of Fcγ receptors (FcγRs) is a common pathogenic hallmark of multiple autoimmune diseases. Given that the IC structural features that elicit FcγR activation are poorly understood and the FcγR system is highly complex, few therapeutics can directly block these processes without inadvertently activating the FcγR system. To address these issues, the structure activity relationships of an engineered panel of multivalent Fc constructs were evaluated using sensitive FcγR binding and signaling cellular assays. These studies identified an Fc valency with avid binding to FcγRs but without activation of immune cell effector functions. These observations directed the design of a potent trivalent immunoglobulin G-Fc molecule that broadly inhibited IC-driven processes in a variety of immune cells expressing FcγRs. The Fc trimer, Fc3Y, was highly efficacious in three different animal models of autoimmune diseases. This recombinant molecule may represent an effective therapeutic candidate for FcγR-mediated autoimmune diseases.
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| http://dx.doi.org/10.1126/scitranslmed.aaf9418 | DOI Listing |
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