Design of inhibitors of thymidylate kinase from Variola virus as new selective drugs against smallpox

Recently we constructed a homology model of the enzyme thymidylate kinase from Variola virus (VarTMPK) and proposed it as a new target to the drug design against smallpox. In the present work, we used the antivirals cidofovir and acyclovir as reference compounds to choose eleven compounds as leads t...

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Veröffentlicht in:	European journal of medicinal chemistry 2015-02, Vol.91, p.72-90
Hauptverfasser:	Guimarães, Ana P., de Souza, Felipe R., Oliveira, Aline A., Gonçalves, Arlan S., de Alencastro, Ricardo B., Ramalho, Teodorico C., França, Tanos C.C.
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Sprache:	eng
Schlagworte:	Acyclovir - analogs & derivatives Antiviral Agents - chemistry Catalytic Domain Cytosine - analogs & derivatives Cytosine - chemistry Docking Drug Design Humans Kinetics Ligands Molecular Docking Simulation Molecular dynamics Molecular Dynamics Simulation Mutation Nucleoside-Phosphate Kinase - antagonists & inhibitors Nucleoside-Phosphate Kinase - chemistry Nucleoside-Phosphate Kinase - genetics Organophosphonates - chemistry Small Molecule Libraries - chemistry Smallpox Smallpox - drug therapy Smallpox - virology Species Specificity Structure-Activity Relationship Thermodynamics Thymidylate kinase Variola virus Variola virus - chemistry Variola virus - enzymology Variola virus - genetics Viral Proteins - antagonists & inhibitors Viral Proteins - chemistry Viral Proteins - genetics
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container_title	European journal of medicinal chemistry
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creator	Guimarães, Ana P. de Souza, Felipe R. Oliveira, Aline A. Gonçalves, Arlan S. de Alencastro, Ricardo B. Ramalho, Teodorico C. França, Tanos C.C.
description	Recently we constructed a homology model of the enzyme thymidylate kinase from Variola virus (VarTMPK) and proposed it as a new target to the drug design against smallpox. In the present work, we used the antivirals cidofovir and acyclovir as reference compounds to choose eleven compounds as leads to the drug design of inhibitors for VarTMPK. Docking and molecular dynamics (MD) studies of the interactions of these compounds inside VarTMPK and human TMPK (HssTMPK) suggest that they compete for the binding region of the substrate and were used to propose the structures of ten new inhibitors for VarTMPK. Further docking and MD simulations of these compounds, inside VarTMPK and HssTMPK, suggest that nine among ten are potential selective inhibitors of VarTMPK. [Display omitted] •Thymidylate kinase from Variola virus (VarTMPK) is proposed as a new drug target.•Cidofovir and acyclovir were used as leads to the drug design of inhibitors.•Ten new inhibitors of VarTMPK were designed based on molecular modeling studies.•Results suggest that nine compounds are potential selective inhibitors of VarTMPK.
doi_str_mv	10.1016/j.ejmech.2014.09.099
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In the present work, we used the antivirals cidofovir and acyclovir as reference compounds to choose eleven compounds as leads to the drug design of inhibitors for VarTMPK. Docking and molecular dynamics (MD) studies of the interactions of these compounds inside VarTMPK and human TMPK (HssTMPK) suggest that they compete for the binding region of the substrate and were used to propose the structures of ten new inhibitors for VarTMPK. Further docking and MD simulations of these compounds, inside VarTMPK and HssTMPK, suggest that nine among ten are potential selective inhibitors of VarTMPK. [Display omitted] •Thymidylate kinase from Variola virus (VarTMPK) is proposed as a new drug target.•Cidofovir and acyclovir were used as leads to the drug design of inhibitors.•Ten new inhibitors of VarTMPK were designed based on molecular modeling studies.•Results suggest that nine compounds are potential selective inhibitors of VarTMPK.</description><identifier>ISSN: 0223-5234</identifier><identifier>EISSN: 1768-3254</identifier><identifier>DOI: 10.1016/j.ejmech.2014.09.099</identifier><identifier>PMID: 25458183</identifier><language>eng</language><publisher>France: Elsevier Masson SAS</publisher><subject>Acyclovir - analogs & derivatives ; Antiviral Agents - chemistry ; Catalytic Domain ; Cytosine - analogs & derivatives ; Cytosine - chemistry ; Docking ; Drug Design ; Humans ; Kinetics ; Ligands ; Molecular Docking Simulation ; Molecular dynamics ; Molecular Dynamics Simulation ; Mutation ; Nucleoside-Phosphate Kinase - antagonists & inhibitors ; Nucleoside-Phosphate Kinase - chemistry ; Nucleoside-Phosphate Kinase - genetics ; Organophosphonates - chemistry ; Small Molecule Libraries - chemistry ; Smallpox ; Smallpox - drug therapy ; Smallpox - virology ; Species Specificity ; Structure-Activity Relationship ; Thermodynamics ; Thymidylate kinase ; Variola virus ; Variola virus - chemistry ; Variola virus - enzymology ; Variola virus - genetics ; Viral Proteins - antagonists & inhibitors ; Viral Proteins - chemistry ; Viral Proteins - genetics</subject><ispartof>European journal of medicinal chemistry, 2015-02, Vol.91, p.72-90</ispartof><rights>2014 Elsevier Masson SAS</rights><rights>Copyright © 2014 Elsevier Masson SAS. 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In the present work, we used the antivirals cidofovir and acyclovir as reference compounds to choose eleven compounds as leads to the drug design of inhibitors for VarTMPK. Docking and molecular dynamics (MD) studies of the interactions of these compounds inside VarTMPK and human TMPK (HssTMPK) suggest that they compete for the binding region of the substrate and were used to propose the structures of ten new inhibitors for VarTMPK. Further docking and MD simulations of these compounds, inside VarTMPK and HssTMPK, suggest that nine among ten are potential selective inhibitors of VarTMPK. [Display omitted] •Thymidylate kinase from Variola virus (VarTMPK) is proposed as a new drug target.•Cidofovir and acyclovir were used as leads to the drug design of inhibitors.•Ten new inhibitors of VarTMPK were designed based on molecular modeling studies.•Results suggest that nine compounds are potential selective inhibitors of VarTMPK.</description><subject>Acyclovir - analogs & derivatives</subject><subject>Antiviral Agents - chemistry</subject><subject>Catalytic Domain</subject><subject>Cytosine - analogs & derivatives</subject><subject>Cytosine - chemistry</subject><subject>Docking</subject><subject>Drug Design</subject><subject>Humans</subject><subject>Kinetics</subject><subject>Ligands</subject><subject>Molecular Docking Simulation</subject><subject>Molecular dynamics</subject><subject>Molecular Dynamics Simulation</subject><subject>Mutation</subject><subject>Nucleoside-Phosphate Kinase - antagonists & inhibitors</subject><subject>Nucleoside-Phosphate Kinase - chemistry</subject><subject>Nucleoside-Phosphate Kinase - genetics</subject><subject>Organophosphonates - chemistry</subject><subject>Small Molecule Libraries - chemistry</subject><subject>Smallpox</subject><subject>Smallpox - drug therapy</subject><subject>Smallpox - virology</subject><subject>Species Specificity</subject><subject>Structure-Activity Relationship</subject><subject>Thermodynamics</subject><subject>Thymidylate kinase</subject><subject>Variola virus</subject><subject>Variola virus - chemistry</subject><subject>Variola virus - enzymology</subject><subject>Variola virus - genetics</subject><subject>Viral Proteins - antagonists & inhibitors</subject><subject>Viral Proteins - chemistry</subject><subject>Viral Proteins - genetics</subject><issn>0223-5234</issn><issn>1768-3254</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kE1v1DAQhi1ERbeFf4CQj1yy-CN2nAsSaoEiVeql5Wo59mTXSxIvnmRh_z1ebeGINNJoZt55R_MQ8pazNWdcf9itYTeC364F4_WatSXaF2TFG20qKVT9kqyYELJSQtaX5ApxxxhTmrFX5LKMleFGrgjcAsbNRFNP47SNXZxTxlM1b49jDMfBzUB_xMkh0D6nkX53OabB0UPMC1KHdIJfFGEAP8cD0JCXTWlvXJxwpji6Ydin36_JRe8GhDfP-Zo8ffn8eHNX3T98_Xbz6b7ytRRzBcpI4UMnag66ht4Z3WtQCoLvhGtcq4QyfRucbERoJTRgtFRd3UAngBslr8n7s-8-p58L4GzHiB6GwU2QFrRcq-LdGKmLtD5LfU6IGXq7z3F0-Wg5syfAdmfPgO0JsGVtibasvXu-sHQjhH9Lf4kWwcezAMqfhwjZoo8weQgxF0Y2pPj_C38AfOqP8Q</recordid><startdate>20150216</startdate><enddate>20150216</enddate><creator>Guimarães, Ana P.</creator><creator>de Souza, Felipe R.</creator><creator>Oliveira, Aline A.</creator><creator>Gonçalves, Arlan S.</creator><creator>de Alencastro, Ricardo B.</creator><creator>Ramalho, Teodorico C.</creator><creator>França, Tanos C.C.</creator><general>Elsevier Masson SAS</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0002-7324-1353</orcidid></search><sort><creationdate>20150216</creationdate><title>Design of inhibitors of thymidylate kinase from Variola virus as new selective drugs against smallpox</title><author>Guimarães, Ana P. ; 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In the present work, we used the antivirals cidofovir and acyclovir as reference compounds to choose eleven compounds as leads to the drug design of inhibitors for VarTMPK. Docking and molecular dynamics (MD) studies of the interactions of these compounds inside VarTMPK and human TMPK (HssTMPK) suggest that they compete for the binding region of the substrate and were used to propose the structures of ten new inhibitors for VarTMPK. Further docking and MD simulations of these compounds, inside VarTMPK and HssTMPK, suggest that nine among ten are potential selective inhibitors of VarTMPK. [Display omitted] •Thymidylate kinase from Variola virus (VarTMPK) is proposed as a new drug target.•Cidofovir and acyclovir were used as leads to the drug design of inhibitors.•Ten new inhibitors of VarTMPK were designed based on molecular modeling studies.•Results suggest that nine compounds are potential selective inhibitors of VarTMPK.</abstract><cop>France</cop><pub>Elsevier Masson SAS</pub><pmid>25458183</pmid><doi>10.1016/j.ejmech.2014.09.099</doi><tpages>19</tpages><orcidid>https://orcid.org/0000-0002-7324-1353</orcidid></addata></record>
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subjects	Acyclovir - analogs & derivatives Antiviral Agents - chemistry Catalytic Domain Cytosine - analogs & derivatives Cytosine - chemistry Docking Drug Design Humans Kinetics Ligands Molecular Docking Simulation Molecular dynamics Molecular Dynamics Simulation Mutation Nucleoside-Phosphate Kinase - antagonists & inhibitors Nucleoside-Phosphate Kinase - chemistry Nucleoside-Phosphate Kinase - genetics Organophosphonates - chemistry Small Molecule Libraries - chemistry Smallpox Smallpox - drug therapy Smallpox - virology Species Specificity Structure-Activity Relationship Thermodynamics Thymidylate kinase Variola virus Variola virus - chemistry Variola virus - enzymology Variola virus - genetics Viral Proteins - antagonists & inhibitors Viral Proteins - chemistry Viral Proteins - genetics
title	Design of inhibitors of thymidylate kinase from Variola virus as new selective drugs against smallpox
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