2-(Pyridin-4yl)benzothiazole and Its Benzimidazole-Analogue: Biophysical and in silico Studies on Their Interaction with Urease and in vitro Anti-Helicobacter pylori Activities

In this study, the interaction between benzothiazole (BTA, concentration of a drug required for 50% inhibition in vitro (IC50) = 0.77 mM) and benzimidazole (BIA, IC50 = 2.14 mM) with urease was quantitatively assessed, using UV-Vis, molecular fluorescence, and circular dichroism. The results showed...

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Hauptverfasser:	Pereira, Camila P., Lyra, Ana C. F. de, Oliveira, Breno G. F., Nascimento, Igor J. S., Silva-Júnior, Edeildo F. da, Aquino, Thiago M. de, Sisto, Francesca, Figueiredo, Isis M., Martins, Felipe T., Modolo, Luzia V., Santos, Josué C. C., Fátima, Ângelo de
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creator	Pereira, Camila P. Lyra, Ana C. F. de Oliveira, Breno G. F. Nascimento, Igor J. S. Silva-Júnior, Edeildo F. da Aquino, Thiago M. de Sisto, Francesca Figueiredo, Isis M. Martins, Felipe T. Modolo, Luzia V. Santos, Josué C. C. Fátima, Ângelo de
description	In this study, the interaction between benzothiazole (BTA, concentration of a drug required for 50% inhibition in vitro (IC50) = 0.77 mM) and benzimidazole (BIA, IC50 = 2.14 mM) with urease was quantitatively assessed, using UV-Vis, molecular fluorescence, and circular dichroism. The results showed that both compounds interact with urease by a static fluorescence quenching mechanism with a non-fluorescent complex formation. The main forces responsible for stabilizing the supramolecular complex between BTA and urease were hydrophobic while, for BIA, van der Waals interactions and hydrogen bonds were the main ones. Urease conformation changes due to the interaction process were analyzed by circular dichroism and synchronous fluorescence. Besides, a competitive assay with substrate and inhibitors was used to evaluate the preferential urease site of interaction with BTA and BIA. Our experimental and theoretical studies supported that both, BTA and BIA, are mixed-inhibitors of ureases with a slight preference to the active site of such enzymes. Finally, both BTA and BIA showed to possess anti-Helicobacter pylori (one reference strain and six clinical isolates) activity, presenting minimal inhibitory concentration (MIC) values ranging from 38-150 and 20-164 µM, respectively. The urease inhibitors omeprazole and hydroxyurea showed MIC values in the range of 46-185 µM and 1683-> 3366 µM, respectively.
doi_str_mv	10.6084/m9.figshare.20677210
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F. de ; Oliveira, Breno G. F. ; Nascimento, Igor J. S. ; Silva-Júnior, Edeildo F. da ; Aquino, Thiago M. de ; Sisto, Francesca ; Figueiredo, Isis M. ; Martins, Felipe T. ; Modolo, Luzia V. ; Santos, Josué C. C. ; Fátima, Ângelo de</creator><creatorcontrib>Pereira, Camila P. ; Lyra, Ana C. F. de ; Oliveira, Breno G. F. ; Nascimento, Igor J. S. ; Silva-Júnior, Edeildo F. da ; Aquino, Thiago M. de ; Sisto, Francesca ; Figueiredo, Isis M. ; Martins, Felipe T. ; Modolo, Luzia V. ; Santos, Josué C. C. ; Fátima, Ângelo de</creatorcontrib><description>In this study, the interaction between benzothiazole (BTA, concentration of a drug required for 50% inhibition in vitro (IC50) = 0.77 mM) and benzimidazole (BIA, IC50 = 2.14 mM) with urease was quantitatively assessed, using UV-Vis, molecular fluorescence, and circular dichroism. The results showed that both compounds interact with urease by a static fluorescence quenching mechanism with a non-fluorescent complex formation. The main forces responsible for stabilizing the supramolecular complex between BTA and urease were hydrophobic while, for BIA, van der Waals interactions and hydrogen bonds were the main ones. Urease conformation changes due to the interaction process were analyzed by circular dichroism and synchronous fluorescence. Besides, a competitive assay with substrate and inhibitors was used to evaluate the preferential urease site of interaction with BTA and BIA. Our experimental and theoretical studies supported that both, BTA and BIA, are mixed-inhibitors of ureases with a slight preference to the active site of such enzymes. Finally, both BTA and BIA showed to possess anti-Helicobacter pylori (one reference strain and six clinical isolates) activity, presenting minimal inhibitory concentration (MIC) values ranging from 38-150 and 20-164 µM, respectively. 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The results showed that both compounds interact with urease by a static fluorescence quenching mechanism with a non-fluorescent complex formation. The main forces responsible for stabilizing the supramolecular complex between BTA and urease were hydrophobic while, for BIA, van der Waals interactions and hydrogen bonds were the main ones. Urease conformation changes due to the interaction process were analyzed by circular dichroism and synchronous fluorescence. Besides, a competitive assay with substrate and inhibitors was used to evaluate the preferential urease site of interaction with BTA and BIA. Our experimental and theoretical studies supported that both, BTA and BIA, are mixed-inhibitors of ureases with a slight preference to the active site of such enzymes. 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identifier	DOI: 10.6084/m9.figshare.20677210
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title	2-(Pyridin-4yl)benzothiazole and Its Benzimidazole-Analogue: Biophysical and in silico Studies on Their Interaction with Urease and in vitro Anti-Helicobacter pylori Activities
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