Structure-based virtual screening utilizing the approved drugs is an intriguing and laudable approach to excavate novel alternatives for different indications based on the vast amount of reported experimental data.Vir...Structure-based virtual screening utilizing the approved drugs is an intriguing and laudable approach to excavate novel alternatives for different indications based on the vast amount of reported experimental data.Virus superfamily 1 helicase could resolve hydrogen bonds between base pairs and participate in nucleic acid replication and has emerged as a potential target for managing virus infection.Nonetheless,current drug exploitation targeting viral helicases is still in infancy.This work establishes an intelligent multi-computational screening programme to screen potential inhibitors targeting tobacco mosaic virus(TMV)helicase using Food and Drug Administration(FDA)-approved commercially available molecule library.The ranked top 6 hits were further validated by root mean square deviations/fluctuations(RMSD/F),molecular mechanics Poisson Boltzmann surface area(MM-PBSA),density functional theory(DFT)calculations,and bioactivity evaluation.Encouragingly,lumacaftor(ΔE_(total)=-29.0kcal/mol,K_(d)=0.22μmol/L,half maximal inhibitory concentration(IC_(50))=162.5μmol/L)displayed superior binding strength and enzyme inhibition against TMV helicase compared to ningnanmycin(K_(d)=9.35μmol/L,IC_(50)>200μmol/L).Therefore,lumacaftor may be able to inhibit TMV replication by binding to helicase and interfering with its biofunctionability.Besides,the lumacaftor-helicase binding mode changes from H-bonding/electrostatic interactions to hydrophobic interactions in trajectory analysis.Overall,current findings suggest this state-of-the-art stratagem is fruitful and has the potential to be engaged in rapid mining of other target inhibitors for disease treatment.展开更多
基金financially supported by National Natural Science Foundation of China(Nos.32372610,U23A20201,32160661,32202359)National Key Research and Development Program of China(No.2022YFD1700300)the Central Government Guides Local Science and Technology Development Fund Projects(Nos.[Qiankehezhongyindi(2023)001]and[Qiankehezhongyindi[2024]007])。
文摘Structure-based virtual screening utilizing the approved drugs is an intriguing and laudable approach to excavate novel alternatives for different indications based on the vast amount of reported experimental data.Virus superfamily 1 helicase could resolve hydrogen bonds between base pairs and participate in nucleic acid replication and has emerged as a potential target for managing virus infection.Nonetheless,current drug exploitation targeting viral helicases is still in infancy.This work establishes an intelligent multi-computational screening programme to screen potential inhibitors targeting tobacco mosaic virus(TMV)helicase using Food and Drug Administration(FDA)-approved commercially available molecule library.The ranked top 6 hits were further validated by root mean square deviations/fluctuations(RMSD/F),molecular mechanics Poisson Boltzmann surface area(MM-PBSA),density functional theory(DFT)calculations,and bioactivity evaluation.Encouragingly,lumacaftor(ΔE_(total)=-29.0kcal/mol,K_(d)=0.22μmol/L,half maximal inhibitory concentration(IC_(50))=162.5μmol/L)displayed superior binding strength and enzyme inhibition against TMV helicase compared to ningnanmycin(K_(d)=9.35μmol/L,IC_(50)>200μmol/L).Therefore,lumacaftor may be able to inhibit TMV replication by binding to helicase and interfering with its biofunctionability.Besides,the lumacaftor-helicase binding mode changes from H-bonding/electrostatic interactions to hydrophobic interactions in trajectory analysis.Overall,current findings suggest this state-of-the-art stratagem is fruitful and has the potential to be engaged in rapid mining of other target inhibitors for disease treatment.
