Phytoconstituents from ten natural herbs as potent inhibitors of main protease enzyme of SARS-COV-2: In silico study.
Phytomed Plus
; 1(4): 100083, 2021 Nov.
Article
in English
| MEDLINE | ID: covidwho-1253471
ABSTRACT
Background:
Lack of treatment of novel Coronavirus disease led to the search of specific antivirals that are capable to inhibit the replication of the virus. The plant kingdom has demonstrated to be an important source of new molecules with antiviral potential.Purpose:
The present study aims to utilize various computational tools to identify the most eligible drug candidate that have capabilities to halt the replication of SARS-COV-2 virus by inhibiting Main protease (Mpro) enzyme.Methods:
We have selected plants whose extracts have inhibitory potential against previously discovered coronaviruses. Their phytoconstituents were surveyed and a library of 100 molecules was prepared. Then, computational tools such as molecular docking, ADMET and molecular dynamic simulations were utilized to screen the compounds and evaluate them against Mpro enzyme.Results:
All the phytoconstituents showed good binding affinities towards Mpro enzyme. Among them laurolitsine possesses the highest binding affinity i.e. -294.1533 kcal/mol. On ADMET analysis of best three ligands were simulated for 1.2 ns, then the stable ligand among them was further simulated for 20 ns. Results revealed that no conformational changes were observed in the laurolitsine w.r.t. protein residues and low RMSD value suggested that the Laurolitsine-protein complex was stable for 20 ns.Conclusion:
Laurolitsine, an active constituent of roots of Lindera aggregata, was found to be having good ADMET profile and have capabilities to halt the activity of the enzyme. Therefore, this makes laurolitsine a good drug candidate for the treatment of COVID-19.
ACE-2, Angiotensin converting enzyme- 2; ADMET; ADMET, absorption, Distribution, metabolism, excretion and toxicity; Ala, Alanine; Approx., approximately; Arg, arginine; Asn, Asparagine; Asp, Aspartic acid; CADD, Computer Aided Drug Design; CHARMM, Chemistry at Harvard Macromolecular Mechanics; COV, coronavirus; COVID, Novel corona-virus disease; Covid-19; Cys, cysteine; DSBDS, Dassault's Systems Biovia's Discovery studio; Gln, Glutamine; Glu, glutamate; Gly, Glycine; His, histidine; Ile, isoleucine; K, Kelvin; Kcal/mol, kilo calories per mol; Leu, Leucine; Leu, leucine; Lys, Lysine; MD, Molecular Dynamics; Met, Methionine; MoISA, Molecular Surface Area; Molecular dynamic simulations; Mpro protein; Mpro, Main protease enzyme; N protein, nucleocapsid protein; NI, N-(4-methylpyridin-3-yl) acetamide inhibitor; NPT, amount of substance (N), pressure (P) and temperature (T); NVT, amount of substance (N), volume (V) and temperature (T); Natural Antiviral herbs; PDB, protein data bank; PPB, plasma protein binding; PSA, Polar Surface Area; Phi, Phenylalanine; Pro, Proline; RCSB, Research Collaboratory for Structural Bioinformatics; RMS, Root Mean Square; RMSD, Root Mean Square Deviation; RMSF, root mean square fluctuations; RNA, Ribonucleic acid; SAR-COV-2, severe acute respiratory syndrome coronavirus 2; SDF, structure data format; Ser, serine; T, Temperature; Thr, Threonine; Trp, Tryptophan; Tyr, Tyrosine; Val, Valine; kDa, kilo Dalton; nCOV-19, Novel Coronavirus 2019; ns/nsec, nano seconds; ps, pentoseconds; rGyr, Radius of gyration; w.r.t., with respect to; Å, angstrom; α, alpha; ß, beta
Full text:
Available
Collection:
International databases
Database:
MEDLINE
Type of study:
Experimental Studies
/
Observational study
Topics:
Traditional medicine
Language:
English
Journal:
Phytomed Plus
Year:
2021
Document Type:
Article
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