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Molecular Dynamics simulations of positively selected codons in FcγRI reveal novel biochemical binding properties

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Young, D., Arias-Gaguancela, O., Gibson, F., Grainger, M., Score, J., Nathubhai, A., Cafiero, M. ORCID: https://orcid.org/0000-0002-4895-1783 and Machado, L. (2026) Molecular Dynamics simulations of positively selected codons in FcγRI reveal novel biochemical binding properties. FEBS Open Bio. ISSN 2211-5463 (In Press)

Abstract/Summary

FcγRI is a high-affinity receptor for IgG, associated with autoimmune disease pathology and determines clinical responses to antibody-based immunotherapies. FcγRI has a complex evolutionary history that is not fully understood, and to address this, we explored signatures of positive selection in the receptor’s functional gene, FCGR1A, using codon-based selection tests on aligned 1-1 orthologous sequences from placental mammals (n=32). Signatures of positive selection have occurred at several locations within the gene, with two sites (H148 (M2a ω 0.997 & M8 ω = 0.993) and W149 (M2a ω = 0.999 & M8 ω = 1.000)) showing the strongest evidence of positive selection at positions known to form one of the FcγRI-IgG binding interfaces. We employed ancestral reconstruction to statistically infer prior codon sequences at these sites and identified ancestral H148P and W149R codons at different nodes in the phylogeny. Employing molecular dynamics simulations, we determined how evolutionary changes at these sites may have influenced the binding of FcγRI-IgG of modern-day Homo sapiens. Measuring RMSD, free energy, radius of gyration, hydrogen bond formation and analyzing free energy landscapes, we demonstrate that structural instability between mutant structures vs the WT counterpart, however, overall binding potential increases at position 148, yet decreases at 149 in potential. H148P protonation at physiological pH remains similar, yet during acidotic calculations, protonation is likely reduced significantly, with predicted reduction in affinity for IgG. While ancestral W149R substitutions demonstrate an implication for electron conjugation. Examining key sites at this binding FcγRI-IgG interface, our data demonstrates that these two codons have evolved in humans to be relatively insensitive to shifts in pH promoting a more stable interaction with the Fc portion of IgG during disease that promote acidosis.

Item Type Article
URI https://centaur.reading.ac.uk/id/eprint/128869
Refereed Yes
Divisions Life Sciences > School of Chemistry, Food and Pharmacy > Department of Chemistry
Publisher Wiley
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