AUTHOR=Wu Yifei , Lou Lei , Xie Zhong-Ru 

TITLE=A Pilot Study of All-Computational Drug Design Protocol–From Structure Prediction to Interaction Analysis

JOURNAL=Frontiers in Chemistry

VOLUME=8

YEAR=2020

URL=https://www.frontiersin.org/journals/chemistry/articles/10.3389/fchem.2020.00081

DOI=10.3389/fchem.2020.00081

ISSN=2296-2646

ABSTRACT=<p>Speeding up the drug discovery process is of great significance. To achieve that, high-efficiency methods should be exploited. The conventional wet-bench methods hardly meet the high-speed demand due to time-consuming experiments. Conversely, <italic>in silico</italic> approaches are much more efficient for drug discovery and design. However, <italic>in silico</italic> approaches usually serve as a supportive role in research processes. To fully exert the strength of computational methods, we propose a protocol which integrates various <italic>in silico</italic> approaches, from <italic>de novo</italic> protein structure prediction to ligand-protein interaction simulation. As a proof of concept, human SK2/calmodulin complex was used as a target for validation. First, we obtained a predicted structure of SK2/calmodulin and predicted binding sites which were consistent with the literature data. Then we investigated the ligand-protein interaction via virtual mutagenesis, flexible docking, and binding affinity calculation. As a result, the binding energies of mutants have similar trends compared with the EC<sub>50</sub> values (<italic>R</italic> = 0.6 for NS309 in V481 mutants). The results indicate that our protocol can be applied to the drug design of structure unknown proteins. Our study also demonstrates that the integration of <italic>in silico</italic> approaches is feasible and it facilitates the acceleration of new drug discovery.</p>