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NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin

BACKGROUND: Fluconazole (FLZ) is a synthetic, bistriazole antifungal agent, effective in treating superficial and systemic infections caused by Candida species. Major challenges in formulating this drug for clinical applications include solubility enhancement and improving stability in biological sy...

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Detalles Bibliográficos
Autores principales: Upadhyay, Santosh Kumar, Kumar, Gyanendra
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2009
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2739844/
https://www.ncbi.nlm.nih.gov/pubmed/19664263
http://dx.doi.org/10.1186/1752-153X-3-9
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author Upadhyay, Santosh Kumar
Kumar, Gyanendra
author_facet Upadhyay, Santosh Kumar
Kumar, Gyanendra
author_sort Upadhyay, Santosh Kumar
collection PubMed
description BACKGROUND: Fluconazole (FLZ) is a synthetic, bistriazole antifungal agent, effective in treating superficial and systemic infections caused by Candida species. Major challenges in formulating this drug for clinical applications include solubility enhancement and improving stability in biological systems. Cyclodextrins (CDs) are chiral, truncated cone shaped macrocyles, and can easily encapsulate fluconazole inside their hydrophobic cavity. NMR spectroscopy has been recognized as an important tool for the interaction study of cyclodextrin and pharmaceutical compounds in solution state. RESULTS: Inclusion complex of fluconazole with β-cyclodextrins (β-CD) were investigated by applying NMR and molecular modelling methods. The 1:1 stoichiometry of FLZ:β-CD complex was determined by continuous variation (Job's plot) method and the overall association constant was determined by using Scott's method. The association constant was determined to be 68.7 M(-1 )which is consistent with efficient FLZ:β-CD complexation. The shielding of cavity protons of β-CD and deshielding of aromatic protons of FLZ in various( 1)H-NMR experiments show complexation between β-CD and FLZ. Based on spectral data obtained from 2D ROESY, a reasonable geometry for the complex could be proposed implicating the insertion of the m-difluorophenyl ring of FLZ into the wide end of the torus cavity of β-CD. Molecular modelling studies were conducted to further interpret the NMR data. Indeed the best docked complex in terms of binding free energy supports the model proposed from NMR experiments and the m-difluorophenyl ring of FLZ is observed to enter into the torus cavity of β-CD from the wider end. CONCLUSION: Various NMR spectroscopic studies of FLZ in the presence of β-CD in D(2)O at room temperature confirmed the formation of a 1:1 (FLZ:β-CD) inclusion complex in which m-difluorophenyl ring acts as guest. The induced shift changes as well as splitting of most of the signals of FLZ in the presence of β-CD suggest some chiral differentiation of guest by β-CD.
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spelling pubmed-27398442009-09-09 NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin Upadhyay, Santosh Kumar Kumar, Gyanendra Chem Cent J Research Article BACKGROUND: Fluconazole (FLZ) is a synthetic, bistriazole antifungal agent, effective in treating superficial and systemic infections caused by Candida species. Major challenges in formulating this drug for clinical applications include solubility enhancement and improving stability in biological systems. Cyclodextrins (CDs) are chiral, truncated cone shaped macrocyles, and can easily encapsulate fluconazole inside their hydrophobic cavity. NMR spectroscopy has been recognized as an important tool for the interaction study of cyclodextrin and pharmaceutical compounds in solution state. RESULTS: Inclusion complex of fluconazole with β-cyclodextrins (β-CD) were investigated by applying NMR and molecular modelling methods. The 1:1 stoichiometry of FLZ:β-CD complex was determined by continuous variation (Job's plot) method and the overall association constant was determined by using Scott's method. The association constant was determined to be 68.7 M(-1 )which is consistent with efficient FLZ:β-CD complexation. The shielding of cavity protons of β-CD and deshielding of aromatic protons of FLZ in various( 1)H-NMR experiments show complexation between β-CD and FLZ. Based on spectral data obtained from 2D ROESY, a reasonable geometry for the complex could be proposed implicating the insertion of the m-difluorophenyl ring of FLZ into the wide end of the torus cavity of β-CD. Molecular modelling studies were conducted to further interpret the NMR data. Indeed the best docked complex in terms of binding free energy supports the model proposed from NMR experiments and the m-difluorophenyl ring of FLZ is observed to enter into the torus cavity of β-CD from the wider end. CONCLUSION: Various NMR spectroscopic studies of FLZ in the presence of β-CD in D(2)O at room temperature confirmed the formation of a 1:1 (FLZ:β-CD) inclusion complex in which m-difluorophenyl ring acts as guest. The induced shift changes as well as splitting of most of the signals of FLZ in the presence of β-CD suggest some chiral differentiation of guest by β-CD. BioMed Central 2009-08-10 /pmc/articles/PMC2739844/ /pubmed/19664263 http://dx.doi.org/10.1186/1752-153X-3-9 Text en Copyright © 2009 Upadhyay et al
spellingShingle Research Article
Upadhyay, Santosh Kumar
Kumar, Gyanendra
NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
title NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
title_full NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
title_fullStr NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
title_full_unstemmed NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
title_short NMR and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
title_sort nmr and molecular modelling studies on the interaction of fluconazole with β-cyclodextrin
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2739844/
https://www.ncbi.nlm.nih.gov/pubmed/19664263
http://dx.doi.org/10.1186/1752-153X-3-9
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