AI Article Synopsis
- Human immunoglobulin G (IgG) antibodies targeting costimulatory immunoreceptors show potential as cancer treatments, but their mechanisms are not fully understood.
- Research reveals that the CH1-hinge region of different human IgGs affects their ability to stimulate the immune response against tumors, with IgG2 being more effective than IgG3.
- The study emphasizes the significance of hinge rigidity and specific FcγR binding for enhancing antibody function, suggesting new approaches could improve cancer immunotherapy outcomes.
Article Abstract
Human immunoglobulin G (IgG) agonistic antibodies targeting costimulatory immunoreceptors represent promising cancer immunotherapies yet to be developed. Whether, and how, human IgG hinge and Fc impact on their agonistic functions have been disputed. Here, we show that different natural human IgGs confer divergent agonistic anti-CD40 immunostimulatory and antitumour activities in FcγR-humanized mice, including inactive IgG3 and superior IgG2. This divergence is primarily due to their CH1-hinges despite all human IgGs requiring Fc-FcγR binding for optimal agonistic activities. Unexpectedly, biophysical flexibility of these CH1-hinges inversely correlates with, and can modulate, their agonistic potency. Furthermore, IgG Fcs optimized for selective FcγR binding synergize with and still require IgG hinge, selected for rigidity, to confer improved anti-CD40 immunostimulatory and antitumour activities. These findings highlight the importance of both hinge rigidity and selective FcγR binding in antibody agonistic function, and the need for newer strategies to modulate antibody agonism for improved clinical application.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6765011 | PMC |
| http://dx.doi.org/10.1038/s41467-019-12097-6 | DOI Listing |
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