Quantitative Characterization and Prediction of the Binding Determinants and Immune Escape Hotspots for Groups of Broadly Neutralizing Antibodies Against Omicron Variants: Atomistic Modeling of the SARS-CoV-2 Spike Complexes with Antibodies DOI Open Access
Mohammed Alshahrani, Victoria N. Parikh, Brian Foley

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 20, 2024

Abstract The growing body of experimental and computational studies suggested that the cross-neutralization antibody activity against Omicron variants may be driven by balance tradeoff multiple energetic factors interaction contributions evolving escape hotspots involved in antigenic drift convergent evolution. However, dynamic details quantifying contribution these factors, particularly balancing nature specific interactions formed antibodies with epitope residues remain scarcely characterized. In this study, we performed molecular dynamics simulations, ensemble-based deep mutational scanning SARS-CoV-2 spike binding free energy computations for two distinct groups broadly neutralizing : E1 group (BD55-3152, BD55-3546 BD5-5840) F3 (BD55-3372, BD55-4637 BD55-5514). Using approaches, examine determinants which potent can largely evade immune resistance. Our analysis revealed emergence a small number positions correspond to R346 K444 strong van der Waals act synchronously leading large contribution. According our results, Abs effectively exploit hotspot clusters hydrophobic sites critical functions along selective complementary targeting positively charged are important ACE2 binding. Together conserved epitopes, lead expanded neutralization breadth resilience shift associated viral results study demonstrate excellent qualitative agreement between predicted mutations respect latest experiments on average scores. We argue epitopes leverage stability binding, while tend emerge synergistically electrostatic interactions.

Language: Английский

Structural Immunology of SARSCoV‐2 DOI Creative Commons
Meng Yuan, Ian A. Wilson

Immunological Reviews, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 27, 2024

The SARS-CoV-2 spike (S) protein has undergone significant evolution, enhancing both receptor binding and immune evasion. In this review, we summarize ongoing efforts to develop antibodies targeting various epitopes of the S protein, focusing on their neutralization potency, breadth, escape mechanisms. Antibodies receptor-binding site (RBS) typically exhibit high neutralizing potency but are frequently evaded by mutations in variants. contrast, conserved regions, such as S2 stem helix fusion peptide, broader reactivity generally lower potency. However, several broadly have demonstrated exceptional efficacy against emerging variants, including latest omicron subvariants, underscoring potential vulnerable sites RBS-A RBS-D/CR3022. We also highlight public classes different protein. targeted present opportunities for germline-targeting vaccine strategies. Overall, developing escape-resistant, potent effective vaccines remains crucial combating future This review emphasizes importance identifying key utilizing antibody affinity maturation inform therapeutic design.

Language: Английский

Citations

2
Quantitative Characterization and Prediction of the Binding Determinants and Immune Escape Hotspots for Groups of Broadly Neutralizing Antibodies Against Omicron Variants: Atomistic Modeling of the SARS-CoV-2 Spike Complexes with Antibodies DOI Open Access
Mohammed Alshahrani, Victoria N. Parikh, Brian Foley

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 20, 2024

Abstract The growing body of experimental and computational studies suggested that the cross-neutralization antibody activity against Omicron variants may be driven by balance tradeoff multiple energetic factors interaction contributions evolving escape hotspots involved in antigenic drift convergent evolution. However, dynamic details quantifying contribution these factors, particularly balancing nature specific interactions formed antibodies with epitope residues remain scarcely characterized. In this study, we performed molecular dynamics simulations, ensemble-based deep mutational scanning SARS-CoV-2 spike binding free energy computations for two distinct groups broadly neutralizing : E1 group (BD55-3152, BD55-3546 BD5-5840) F3 (BD55-3372, BD55-4637 BD55-5514). Using approaches, examine determinants which potent can largely evade immune resistance. Our analysis revealed emergence a small number positions correspond to R346 K444 strong van der Waals act synchronously leading large contribution. According our results, Abs effectively exploit hotspot clusters hydrophobic sites critical functions along selective complementary targeting positively charged are important ACE2 binding. Together conserved epitopes, lead expanded neutralization breadth resilience shift associated viral results study demonstrate excellent qualitative agreement between predicted mutations respect latest experiments on average scores. We argue epitopes leverage stability binding, while tend emerge synergistically electrostatic interactions.

Language: Английский

Citations

0