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Microsecond Dynamics of Fc-CD16a Recognition: Impact of Mutations, Core Fucosylation, and Fc Asymmetry.


ABSTRACT:

Background/objectives

Antibody-dependent cellular cytotoxicity relies on the interaction between the Fc region of immunoglobulin G1 (IgG1) and the CD16a receptor. While removal of core fucosylation on Fc and introduction of the DFTE mutation set (S239D, H268F, S324T, I332E) are known to enhance CD16a binding, the detailed contributions of these engineered sites in solution remain incompletely defined.

Methods

Here, we employed 1 µs molecular dynamics simulations to map, at atomic resolution, the interaction networks stabilizing pre-formed Fc-CD16a complexes, including afucosylated Fc-wild-type, DFTE-engineered, Fc-fucosylated, and asymmetrically engineered Fc variants.

Results

Our results show that only S239D, present on both Fc chains, and H268F on chain A consistently contribute to stabilizing the CD16a interface, while I332E does not form persistent interactions. Glycan-protein contacts are primarily intrachain, with transient interchain glycan-glycan interactions not contributing significantly to complex stability. Fucosylation on Fc significantly reduces binding stability by disrupting peripheral interactions and critical glycan-mediated contacts. Notably, the asymmetric Fc variant, in which the two heavy chains carry distinct sets of substitutions, retains high-affinity binding despite lacking S239D and carrying core fucose, through a novel hydrophobic cluster and reinforced peripheral electrostatic interactions.

Conclusions

Altogether, these findings provide a quantitative framework for how targeted mutations and fucose modifications remodel Fc-CD16a interactions, offering insights for the rational design of next-generation therapeutic antibodies.

SUBMITTER: Estaran S 

PROVIDER: S-EPMC12937375 | biostudies-literature | 2026 Feb

REPOSITORIES: biostudies-literature

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Publications

Microsecond Dynamics of Fc-CD16a Recognition: Impact of Mutations, Core Fucosylation, and Fc Asymmetry.

Estaran Sébastien S   Hehlen Bernard B   Chavanieu Alain A  

Antibodies (Basel, Switzerland) 20260223 1


<h4>Background/objectives</h4>Antibody-dependent cellular cytotoxicity relies on the interaction between the Fc region of immunoglobulin G1 (IgG1) and the CD16a receptor. While removal of core fucosylation on Fc and introduction of the DFTE mutation set (S239D, H268F, S324T, I332E) are known to enhance CD16a binding, the detailed contributions of these engineered sites in solution remain incompletely defined.<h4>Methods</h4>Here, we employed 1 µs molecular dynamics simulations to map, at atomic  ...[more]

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