# Antigen binding triggers long-range conformational changes in monoclonal antibodies

**Authors:** Davide Bianchi, Simona Saporiti, Wolf Palinsky, Omar Ben Mariem, Mara Rossi, Ivano Eberini, Fabio Centola

PMC · DOI: 10.3389/fimmu.2025.1680199 · 2026-01-08

## TL;DR

This study shows that when monoclonal antibodies bind to antigens, they undergo structural changes that affect their interaction with immune receptors.

## Contribution

The study reveals an allosteric communication network in monoclonal antibodies triggered by antigen binding.

## Key findings

- Antigen binding causes long-range dynamic correlations across the antibody structure.
- Antigen engagement increases Fc residue exposure important for immune receptor recognition.
- Glycosylation and light chain isotype modulate the effects of antigen binding on antibody conformation.

## Abstract

Antigen binding in monoclonal antibodies (mAbs) is traditionally associated with target recognition, but emerging evidence suggests it may also modulate antibody conformation and effector functions. Understanding how antigen engagement impacts the structural organization of therapeutic antibodies and their interaction with immune receptors is essential for optimizing antibody-based therapies. In this study, we investigated, via computational approaches, how antigen engagement alters the structural organization of therapeutic IgG1s and influences their ability to interact with FcγRIIIa.

Accelerated molecular dynamics simulations were performed to investigate the structural and dynamic consequences of antigen binding in two therapeutic mAbs, adalimumab and avelumab. These antibodies were analyzed in different glycosylation states to capture the influence of post translational modifications.

The results revealed consistent long-range dynamic correlations between antigen-binding regions and distant domains within the Fc, suggesting an allosteric communication network involving the entire antibody structure and mediated by the antigen binding. Antigen engagement was found to increase the exposure of Fc residues critical for immune receptor recognition, an effect modulated by glycosylation and light chain isotype.

These findings suggest that antigen engagement initiates a cascade of coordinated motions that reshape the mAb architecture and regulate its interaction with the immune receptors, offering new insights for the design of functionally optimized therapeutic antibodies.

## Linked entities

- **Proteins:** FCGR3A (Fc gamma receptor IIIa)

## Full-text entities

- **Genes:** FCGR3A (Fc gamma receptor IIIa) [NCBI Gene 2214] {aka CD16-II, CD16A, FCG3, FCGR3, FCRIIIA, FcGRIIIA}
- **Chemicals:** avelumab (MESH:C000609138), adalimumab (MESH:D000068879)

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12824876/full.md

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Source: https://tomesphere.com/paper/PMC12824876