Revealing analgesic and anxiolytic potentials of synthetic benzimidazole analogues: An in-vivo and in-silico study

Certain drugs have potential to affect and alter individual's behavior. On the other hand, pain is a complex phenomenon with various treatment options; analgesic medicines are the primary source. Therefore, this study was based on examining some of the benzimidazole analogues for their analgesi...

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Veröffentlicht in:	Pakistan journal of pharmaceutical sciences 2023-11, Vol.36 (6), p.1749-1757
Hauptverfasser:	Akhtar, Shamim, Naeem, Sabahat, Asghar, Nadia, Muhammad Khan, Faisal, Mehboob Khan, Moona, Akram, Arfa, Suheryani, Imran
Format:	Artikel
Sprache:	eng
Schlagworte:	Analgesics Analgesics - chemistry Analgesics - pharmacology Anti-Anxiety Agents - pharmacology Antianxiety agents Benzimidazoles Benzimidazoles - chemistry Benzimidazoles - pharmacology Chemical properties Humans Molecular Docking Simulation Pain - drug therapy Pharmaceutical research
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container_end_page	1757
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container_start_page	1749
container_title	Pakistan journal of pharmaceutical sciences
container_volume	36
creator	Akhtar, Shamim Naeem, Sabahat Asghar, Nadia Muhammad Khan, Faisal Mehboob Khan, Moona Akram, Arfa Suheryani, Imran
description	Certain drugs have potential to affect and alter individual's behavior. On the other hand, pain is a complex phenomenon with various treatment options; analgesic medicines are the primary source. Therefore, this study was based on examining some of the benzimidazole analogues for their analgesic as well as behavioral potential following Tail immersion test and Open field test respectively. In addition, molecular docking was performed to find the interaction of these compounds with the active site using AutoDock Vina which was further visualized through Discovery Studio Visualizer. It was seen that the cyano-methyl benzimidazole derivatives (CMB1-CMB3) showed relief in pain as compared to benzimidazole derivatives (BI1-BI3), CMB2 demonstrated highly potent analgesic effect. Likewise, all structures except BI1 displayed increase locomotion during open field test and can be offered as anxiolytic compounds. Almost all derivatives showed improve binding energies for the tested proteins where the high analgesic action of CMB2 might be correlated to its high binding affinity and interaction at µOR. It was also noticed that all structures except BI showed possible binding interaction with GABAA receptor and hence possessed anxiolytic like potential. Thus, this study offered benzimidazole analogues for further drug development of analgesic and anxiolytic like compounds.
doi_str_mv	10.36721/PJPS.2023.36.6.REG.1749-1757.1
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Almost all derivatives showed improve binding energies for the tested proteins where the high analgesic action of CMB2 might be correlated to its high binding affinity and interaction at µOR. It was also noticed that all structures except BI showed possible binding interaction with GABAA receptor and hence possessed anxiolytic like potential. Thus, this study offered benzimidazole analogues for further drug development of analgesic and anxiolytic like compounds.</abstract><cop>Pakistan</cop><pub>Pakistan Journal of Pharmaceutical Sciences</pub><pmid>38124415</pmid><doi>10.36721/PJPS.2023.36.6.REG.1749-1757.1</doi><tpages>9</tpages></addata></record>
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subjects	Analgesics Analgesics - chemistry Analgesics - pharmacology Anti-Anxiety Agents - pharmacology Antianxiety agents Benzimidazoles Benzimidazoles - chemistry Benzimidazoles - pharmacology Chemical properties Humans Molecular Docking Simulation Pain - drug therapy Pharmaceutical research
title	Revealing analgesic and anxiolytic potentials of synthetic benzimidazole analogues: An in-vivo and in-silico study
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