Litcius/Paper detail

Learning the language of protein-protein interactions

Varun Ullanat, Bowen Jing, Samuel Sledzieski, Bonnie Berger

2026Nature Communications7 citationsDOIOpen Access PDF

Abstract

Protein Language Models (PLMs) trained on large databases of protein sequences have proven effective in modeling protein biology across a wide range of applications. However, while PLMs excel at capturing individual protein properties, they face challenges in natively representing protein-protein interactions (PPIs), which are crucial to understanding cellular processes and disease mechanisms. Here, we introduce MINT, a PLM specifically designed to model sets of interacting proteins in a contextual and scalable manner. Using unsupervised training on a large curated PPI dataset derived from the STRING database, MINT outperforms existing PLMs in diverse tasks relating to protein-protein interactions, including binding affinity prediction and estimation of mutational effects. Beyond these core capabilities, it excels at modeling interactions in complex protein assemblies and surpasses specialized models in antibody-antigen modeling and T cell receptor-epitope binding prediction. MINT's predictions of mutational impacts on oncogenic PPIs align with experimental studies, and it provides reliable estimates for the potential for cross-neutralization of antibodies against SARS-CoV-2 variants of concern. These findings position MINT as a powerful tool for elucidating complex protein interactions, with significant implications for biomedical research and therapeutic discovery.

Topics & Concepts

Computer scienceProtein–protein interactionComputational biologyScalabilityString (physics)Artificial intelligenceMachine learningRange (aeronautics)Face (sociological concept)Language modelSystems biologyProtein structureCore (optical fiber)BioinformaticsTraining setData scienceNatural language processingvaccines and immunoinformatics approachesBioinformatics and Genomic NetworksBiomedical Text Mining and Ontologies