Molecular Modeling Study of Dihydrofolate Reductase Inhibitors. Molecular Dynamics Simulations, Quantum Mechanical Calculations, and Experimental Corroboration

A molecular modeling study on dihydrofolate reductase (DHFR) inhibitors was carried out. By combining molecular dynamics simulations with semiempirical (PM6), ab initio, and density functional theory (DFT) calculations, a simple and generally applicable procedure to evaluate the binding energies of...

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Published inJournal of chemical information and modeling Vol. 53; no. 8; pp. 2018 - 2032
Main Authors Tosso, Rodrigo D, Andujar, Sebastian A, Gutierrez, Lucas, Angelina, Emilio, Rodríguez, Ricaurte, Nogueras, Manuel, Baldoni, Héctor, Suvire, Fernando D, Cobo, Justo, Enriz, Ricardo D
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 26.08.2013
Subjects
Chemical compounds
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Correlation analysis
Electron states
Electrons
Exact sciences and technology
Folic Acid Antagonists - pharmacology
Humans
Methods of electronic structure calculations
Molecular Dynamics Simulation
Molecules
Physics
Protein Conformation
Quantum physics
Quantum Theory
Reproducibility of Results
Simulation
Tetrahydrofolate Dehydrogenase - chemistry
Tetrahydrofolate Dehydrogenase - metabolism
Thermodynamics
Energetics
Enzymes
Ab initio method
Quantum wells
Molecular dynamics
Binding site
Experimental study
Electronic structure
Density functional
Molecular physics
Binding energy
Ligands
Modelling
Reduced order systems
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Abstract A molecular modeling study on dihydrofolate reductase (DHFR) inhibitors was carried out. By combining molecular dynamics simulations with semiempirical (PM6), ab initio, and density functional theory (DFT) calculations, a simple and generally applicable procedure to evaluate the binding energies of DHFR inhibitors interacting with the human enzyme is reported here, providing a clear picture of the binding interactions of these ligands from both structural and energetic viewpoints. A reduced model for the binding pocket was used. This approach allows us to perform more accurate quantum mechanical calculations as well as to obtain a detailed electronic analysis using the quantum theory of atoms in molecules (QTAIM) technique. Thus, molecular aspects of the binding interactions between inhibitors and the DHFR are discussed in detail. A significant correlation between binding energies obtained from DFT calculations and experimental IC50 values was obtained, predicting with an acceptable qualitative accuracy the potential inhibitor effect of nonsynthesized compounds. Such correlation was experimentally corroborated synthesizing and testing two new inhibitors reported in this paper.
AbstractList A molecular modeling study on dihydrofolate reductase (DHFR) inhibitors was carried out. By combining molecular dynamics simulations with semiempirical (PM6), ab initio, and density functional theory (DFT) calculations, a simple and generally applicable procedure to evaluate the binding energies of DHFR inhibitors interacting with the human enzyme is reported here, providing a clear picture of the binding interactions of these ligands from both structural and energetic viewpoints. A reduced model for the binding pocket was used. This approach allows us to perform more accurate quantum mechanical calculations as well as to obtain a detailed electronic analysis using the quantum theory of atoms in molecules (QTAIM) technique. Thus, molecular aspects of the binding interactions between inhibitors and the DHFR are discussed in detail. A significant correlation between binding energies obtained from DFT calculations and experimental IC50 values was obtained, predicting with an acceptable qualitative accuracy the potential inhibitor effect of nonsynthesized compounds. Such correlation was experimentally corroborated synthesizing and testing two new inhibitors reported in this paper.
A molecular modeling study on dihydrofolate reductase (DHFR) inhibitors was carried out. By combining molecular dynamics simulations with semiempirical (PM6), ab initio, and density functional theory (DFT) calculations, a simple and generally applicable procedure to evaluate the binding energies of DHFR inhibitors interacting with the human enzyme is reported here, providing a clear picture of the binding interactions of these ligands from both structural and energetic viewpoints. A reduced model for the binding pocket was used. This approach allows us to perform more accurate quantum mechanical calculations as well as to obtain a detailed electronic analysis using the quantum theory of atoms in molecules (QTAIM) technique. Thus, molecular aspects of the binding interactions between inhibitors and the DHFR are discussed in detail. A significant correlation between binding energies obtained from DFT calculations and experimental IC^sub 50^ values was obtained, predicting with an acceptable qualitative accuracy the potential inhibitor effect of nonsynthesized compounds. Such correlation was experimentally corroborated synthesizing and testing two new inhibitors reported in this paper. [PUBLICATION ABSTRACT]
A molecular modeling study on dihydrofolate reductase (DHFR) inhibitors was carried out. By combining molecular dynamics simulations with semiempirical (PM6), ab initio, and density functional theory (DFT) calculations, a simple and generally applicable procedure to evaluate the binding energies of DHFR inhibitors interacting with the human enzyme is reported here, providing a clear picture of the binding interactions of these ligands from both structural and energetic viewpoints. A reduced model for the binding pocket was used. This approach allows us to perform more accurate quantum mechanical calculations as well as to obtain a detailed electronic analysis using the quantum theory of atoms in molecules (QTAIM) technique. Thus, molecular aspects of the binding interactions between inhibitors and the DHFR are discussed in detail. A significant correlation between binding energies obtained from DFT calculations and experimental IC₅₀ values was obtained, predicting with an acceptable qualitative accuracy the potential inhibitor effect of nonsynthesized compounds. Such correlation was experimentally corroborated synthesizing and testing two new inhibitors reported in this paper.
Author Angelina, Emilio
Enriz, Ricardo D
Cobo, Justo
Nogueras, Manuel
Suvire, Fernando D
Tosso, Rodrigo D
Gutierrez, Lucas
Rodríguez, Ricaurte
Baldoni, Héctor
Andujar, Sebastian A
AuthorAffiliation Universidad de Jaén
Universidad Nacional de San Luis
IMIBIO-CONICET
Universidad Nacional del Nordeste
Departamento de Química, Facultad de Química, Bioquímica y Farmacia
Universidad Nacional de Colombia
AuthorAffiliation_xml – name: Universidad Nacional del Nordeste
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Author_xml – sequence: 1
  givenname: Rodrigo D
  surname: Tosso
  fullname: Tosso, Rodrigo D
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  givenname: Sebastian A
  surname: Andujar
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  givenname: Lucas
  surname: Gutierrez
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  surname: Nogueras
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  email: denriz@unsl.edu.ar
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https://www.ncbi.nlm.nih.gov/pubmed/23834278$$D View this record in MEDLINE/PubMed
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Issue 8
Keywords Energetics
Enzymes
Ab initio method
Quantum wells
Molecular dynamics
Binding site
Experimental study
Electronic structure
Density functional
Molecular physics
Binding energy
Ligands
Modelling
Reduced order systems
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    fullname: Hou T.
– start-page: 331
  volume-title: Intermolecular Forces
  year: 1981
  ident: ref58/cit58
  doi: 10.1007/978-94-015-7658-1_21
  contributor:
    fullname: Berendsen H. J.
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Snippet A molecular modeling study on dihydrofolate reductase (DHFR) inhibitors was carried out. By combining molecular dynamics simulations with semiempirical (PM6),...
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SubjectTerms Chemical compounds
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Correlation analysis
Electron states
Electrons
Exact sciences and technology
Folic Acid Antagonists - pharmacology
Humans
Methods of electronic structure calculations
Molecular Dynamics Simulation
Molecules
Physics
Protein Conformation
Quantum physics
Quantum Theory
Reproducibility of Results
Simulation
Tetrahydrofolate Dehydrogenase - chemistry
Tetrahydrofolate Dehydrogenase - metabolism
Thermodynamics
Title Molecular Modeling Study of Dihydrofolate Reductase Inhibitors. Molecular Dynamics Simulations, Quantum Mechanical Calculations, and Experimental Corroboration
URI http://dx.doi.org/10.1021/ci400178h
https://www.ncbi.nlm.nih.gov/pubmed/23834278
https://www.proquest.com/docview/1428955329
https://search.proquest.com/docview/1428269153
Volume 53
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