Assessing models of force-dependent unbinding rates via infrequent metadynamics

Autor: Ccoa, Willmor J. Peña, Hocky, Glen M.
Rok vydání: 2021
Předmět:
Zdroj: J. Chem. Phys. 156, 125102 (2022)
Druh dokumentu: Working Paper
DOI: 10.1063/5.0081078
Popis: Protein-ligand interactions are crucial for a wide range of physiological processes. Many cellular functions result in these non-covalent `bonds' being mechanically strained, and this can be integral to proper cellular function. Broadly, two classes of force dependence have been observed -- slip bonds, where unbinding rate increases, and catch bonds where unbinding rate decreases. Despite much theoretical work, we cannot we predict for which protein-ligand pairs, pulling coordinates, and forces a particular rate dependence will appear. Here, we assess the ability of MD simulations combined with enhanced sampling techniques to probe the force dependence of unbinding rates. We show that the infrequent metadynamics technique correctly produces both catch and slip bonding kinetics for model potentials. We then apply it to the well-studied case of a buckyball in a hydrophobic cavity, which appears to exhibit an ideal slip bond. Finally, we compute the force-dependent unbinding rate of biotin-streptavidin. Here, the complex nature of the unbinding process causes the infrequent metadynamics method to begin to break down due to the presence of unbinding intermediates, despite use of a previously optimized sampling coordinate. Allowing for this limitation, a combination of kinetic and free energy computations predict an overall slip bond for larger forces consistent with prior experimental results, although there are substantial deviations at small forces that require further investigation. This work demonstrates the promise of predicting force-dependent unbinding rates using enhanced sampling MD techniques, while also revealing the methodological barriers that must be overcome to tackle more complex targets in the future.
Comment: 16 pages. 9 figures, 1 table, 5 supplemental figures
Databáze: arXiv