Antibody optimization enabled by artificial intelligence predictions of binding affinity and naturalness

Bachas, Sharrol; Rakocevic, Goran; Spencer, David; Sastry, Anand V.; Haile, Robel; Sutton, John M.; Kasun, George; Stachyra, Andrew; Gutierrez, Jahir M.; Yassine, Edriss; Medjo, Borka; Blay, Vincent; Kohnert, Christa; Stanton, Jennifer T.; Brown, Alexander; Tijanic, Nebojsa; McCloskey, Cailen; Viazzo, Rebecca; Consbruck, Rebecca; Carter, Hayley; Levine, Simon; Abdulhaqq, Shaheed; Shaul, Jacob; Ventura, Abigail B.; Olson, Randal S.; Yapici, Engin; Meier, Joshua; McClain, Sean; Weinstock, Matthew; Hannum, Gregory; Schwartz, Ariel; Gander, Miles; Spreafico, Roberto

doi:10.1101/2022.08.16.504181

2022

DOI: 10.1101/2022.08.16.504181

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Antibody optimization enabled by artificial intelligence predictions of binding affinity and naturalness

Sharrol Bachas,

Goran Rakocevic,

David Spencer

et al.

Abstract: Traditional antibody optimization approaches involve screening a small subset of the available sequence space, often resulting in drug candidates with suboptimal binding affinity, developability or immunogenicity. Based on two distinct antibodies, we demonstrate that deep contextual language models trained on high-throughput affinity data can quantitatively predict binding of unseen antibody sequence variants. These variants span a K D range of three orders of magnitude over a large mutational space. Our mod… Show more

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Cited by 29 publications

References 65 publications

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A comprehensive overview of recent advances in generative models for antibodies

Meng,

Zhou,

et al. 2024

Computational and Structural Biotechnology Journal

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A comprehensive overview of recent advances in generative models for antibodies

Meng,

Zhou,

et al. 2024

Computational and Structural Biotechnology Journal

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The Dawn of a New Era: Targeting the “Undruggables” with Antibody-Based Therapeutics

et al. 2023

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The high selectivity and affinity of antibodies toward their antigens have made them a highly valuable tool in disease therapy, diagnosis, and basic research. A plethora of chemical and genetic approaches have been devised to make antibodies accessible to more “undruggable” targets and equipped with new functions of illustrating or regulating biological processes more precisely. In this Review, in addition to introducing how naked antibodies and various antibody conjugates (such as antibody-drug conjugates, antibody-oligonucleotide conjugates, antibody-enzyme conjugates, etc.) work in therapeutic applications, special attention has been paid to how chemistry tools have helped to optimize the therapeutic outcome (i.e., with enhanced efficacy and reduced side effects) or facilitate the multifunctionalization of antibodies, with a focus on emerging fields such as targeted protein degradation, real-time live-cell imaging, catalytic labeling or decaging with spatiotemporal control as well as the engagement of antibodies inside cells. With advances in modern chemistry and biotechnology, well-designed antibodies and their derivatives via size miniaturization or multifunctionalization together with efficient delivery systems have emerged, which have gradually improved our understanding of important biological processes and paved the way to pursue novel targets for potential treatments of various diseases.

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De novo generation of SARS-CoV-2 antibody CDRH3 with a pre-trained generative large language model

He,

Guan

et al. 2024

Nat Commun

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Artificial Intelligence (AI) techniques have made great advances in assisting antibody design. However, antibody design still heavily relies on isolating antigen-specific antibodies from serum, which is a resource-intensive and time-consuming process. To address this issue, we propose a Pre-trained Antibody generative large Language Model (PALM-H3) for the de novo generation of artificial antibodies heavy chain complementarity-determining region 3 (CDRH3) with desired antigen-binding specificity, reducing the reliance on natural antibodies. We also build a high-precision model antigen-antibody binder (A2binder) that pairs antigen epitope sequences with antibody sequences to predict binding specificity and affinity. PALM-H3-generated antibodies exhibit binding ability to SARS-CoV-2 antigens, including the emerging XBB variant, as confirmed through in-silico analysis and in-vitro assays. The in-vitro assays validate that PALM-H3-generated antibodies achieve high binding affinity and potent neutralization capability against spike proteins of SARS-CoV-2 wild-type, Alpha, Delta, and the emerging XBB variant. Meanwhile, A2binder demonstrates exceptional predictive performance on binding specificity for various epitopes and variants. Furthermore, by incorporating the attention mechanism inherent in the Roformer architecture into the PALM-H3 model, we improve its interpretability, providing crucial insights into the fundamental principles of antibody design.

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Antibody optimization enabled by artificial intelligence predictions of binding affinity and naturalness

Cited by 29 publications

References 65 publications

A comprehensive overview of recent advances in generative models for antibodies

A comprehensive overview of recent advances in generative models for antibodies

The Dawn of a New Era: Targeting the “Undruggables” with Antibody-Based Therapeutics

De novo generation of SARS-CoV-2 antibody CDRH3 with a pre-trained generative large language model

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