Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity

Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity Publisher

Ghodrati A¹ ; Moradkhani F¹ ; Asadi M¹ ; Mahernia S² ; Nazari Montazer M¹ ; Biglar M² ; Amanlou M^{1, 2, 3}

Show Affiliations

1. Department of Medicinal Chemistry, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
2. Drug Design and Development Research Center, Institute of Pharmaceutical Sciences (IPS), Tehran University of Medical Sciences, Tehran, Iran
3. Experimental Medicine Research Center, Tehran University of Medical Sciences, Tehran, Iran

Source: Pharmaceutical Chemistry Journal Published:2022

Abstract

Helicobacter pylori (H. pylori) have infected half of the world’s population and led to pathological conditions. The urease plays anessential role in H. pylori pathogenesis. In this regard, and based on the antimicrobial properties of different hydrazides, we synthesized a set of benzoyl hydrazinyl-N-alkyl-acetamide derivatives through a multi-component method using cyanuric chloride as the acid catalyst, which acts as a proton supplier to enhance the reaction. The final compounds were obtained in good yield. All synthesized compounds could efficiently inhibit the urease enzyme with IC50 ranging from 10.75 ± 0.91 to 208.9 ± 0.4 μM. The compound 4A was the most potent compound with IC50 = 10.75 ± 0.91 μM that is much higher than thiourea (IC50 = 21.00 ± 0.11 μM) and hydroxyurea (IC50 = 100.00 ± 0.01 μM). Docking results showed that compounds 4A, 4H, 4M, 4J have efficient steric and chemical complementarily with urease and make interactions with critical residues at the entrance of the binding pocket. In agreement with in vitro results, the most potent compounds were also capable of efficiently (i) making hydrophobic interactions with Ala 636, Ala 440, His 409, Met 637, Asp 494, and (ii) forming Ala 636 hydrogen bonds with Gln 635, Met 637, and Arg 439. © 2022, Springer Science+Business Media, LLC, part of Springer Nature.

Style	Citing Format
MLA	Ghodrati A, et al.. "Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity." Pharmaceutical Chemistry Journal, vol. 56, no. 7, 2022, pp. 935-942.
APA	Ghodrati A, Moradkhani F, Asadi M, Mahernia S, Nazari Montazer M, Biglar M, Amanlou M (2022). Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity. Pharmaceutical Chemistry Journal, 56(7), 935-942.
Chicago	Ghodrati A, Moradkhani F, Asadi M, Mahernia S, Nazari Montazer M, Biglar M, Amanlou M. "Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity." Pharmaceutical Chemistry Journal 56, no. 7 (2022): 935-942.
Harvard	Ghodrati A et al. (2022) 'Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity', Pharmaceutical Chemistry Journal, 56(7), pp. 935-942.
Vancouver	Ghodrati A, Moradkhani F, Asadi M, Mahernia S, Nazari Montazer M, Biglar M, et al.. Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity. Pharmaceutical Chemistry Journal. 2022;56(7):935-942.
BibTex	@article{ author = {Ghodrati A and Moradkhani F and Asadi M and Mahernia S and Nazari Montazer M and Biglar M and Amanlou M}, title = {Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity}, journal = {Pharmaceutical Chemistry Journal}, volume = {56}, number = {7}, pages = {935-942}, year = {2022} }
RIS	TY - JOUR AU - Ghodrati A AU - Moradkhani F AU - Asadi M AU - Mahernia S AU - Nazari Montazer M AU - Biglar M AU - Amanlou M TI - Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity JO - Pharmaceutical Chemistry Journal VL - 56 IS - 7 SP - 935 EP - 942 PY - 2022 ER -

Style

Citing Format

MLA

Ghodrati A, et al.. "Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity." Pharmaceutical Chemistry Journal, vol. 56, no. 7, 2022, pp. 935-942.

APA

Ghodrati A, Moradkhani F, Asadi M, Mahernia S, Nazari Montazer M, Biglar M, Amanlou M (2022). Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity. Pharmaceutical Chemistry Journal, 56(7), 935-942.

Chicago

Ghodrati A, Moradkhani F, Asadi M, Mahernia S, Nazari Montazer M, Biglar M, Amanlou M. "Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity." Pharmaceutical Chemistry Journal 56, no. 7 (2022): 935-942.

Harvard

Ghodrati A et al. (2022) 'Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity', Pharmaceutical Chemistry Journal, 56(7), pp. 935-942.

Vancouver

Ghodrati A, Moradkhani F, Asadi M, Mahernia S, Nazari Montazer M, Biglar M, et al.. Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity. Pharmaceutical Chemistry Journal. 2022;56(7):935-942.

BibTex

@article{ author = {Ghodrati A and Moradkhani F and Asadi M and Mahernia S and Nazari Montazer M and Biglar M and Amanlou M}, title = {Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity}, journal = {Pharmaceutical Chemistry Journal}, volume = {56}, number = {7}, pages = {935-942}, year = {2022} }

RIS

TY - JOUR
AU - Ghodrati A
AU - Moradkhani F
AU - Asadi M
AU - Mahernia S
AU - Nazari Montazer M
AU - Biglar M
AU - Amanlou M
TI - Cyanuric Chloride Mediated One-Pot Three-Component Reaction of Benzoylhydrazinyl-N-Alkyl Acetamide Derivatives As a New Urease Inhibitor Scaffold: Docking Study and Enzyme Inhibitory Activity
JO - Pharmaceutical Chemistry Journal
VL - 56
IS - 7
SP - 935
EP - 942
PY - 2022
ER -

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