Molecular Docking and Preclinical Study of Five-MemberedS,S-Palladaheterocycle as Hepatoprotective Agent

Akhmadiev, Nail Salavatovich and Galimova, Albina Midkhatovna and Akhmetova, Vnira Rakhimovna and Khairullina, Veronika Radievna and Galimova, Rozaliia Akramovna and Agletdinov, Eduard Feliksovich and Ibragimov, Askhat Gabdrahmanovich and Kataev, Valery Alekseevich (2019) Molecular Docking and Preclinical Study of Five-MemberedS,S-Palladaheterocycle as Hepatoprotective Agent. Advanced Pharmaceutical Bulletin, 9 (4). pp. 674-684. ISSN 2228-5881

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Abstract

Purpose: In order to investigate mechanisms underlying the hepatoprotective action of S,Spalladaheterocycle, inhibition of cytochromes P450 has been modeled by molecular docking of four palladaheterocycle stereoisomers to the active sites of an enzymatic oxidase system. To obtain a deeper insight into biochemical aspects providing a basis for the therapeutic effects of five-membered palladacycles (as mixture of stereoisomers), a number of preclinical trials has been conducted

Methods: 2D and 3D structures of palladaheterocycle stereoisomers were obtained via converting into SDF files by means of software MarvinSketch. Binding of palladaheterocycle at the active sites of cytochromes P450 2E1 and P450 2C9 has been studied by molecular docking using LeadIT 2.3.2. Hepatoprotective activity of palladaheterocycle at 2.5, 25 and 250 mg/kg doses has been studied based on a model of acute intoxication by CCl4 using in vivo methods.

Results: By molecular docking it was identify amino acid fragments responsible for binding with palladacyclic isomers. The tested compound is comparable, in terms of its activity to the hepatoprotective drug SAM according to the in vivo and in vitro experiments such as animal survival data, the efficiency of correction of the cytolytic syndrome, the liver excretory function, carbohydrate, protein and lipid metabolism, and the correction efficiency of the liver antitoxic function (the latter has been determined based on the results of a hexobarbital control experiment).

Conclusion: Taking into account results obtained in vivo, in vitro and in silico, it can be concluded that the five-membered S,S-palladaheterocycle effectively protect the liver against acute damage caused by CCl4 , via activation of catalase and glucuronyltransferase, as well as via inhibition of the oxidative stress enzymes.

Item Type: Article
Subjects: East India library > Medical Science
Depositing User: Unnamed user with email support@eastindialibrary.com
Date Deposited: 14 Apr 2023 09:46
Last Modified: 24 May 2024 06:50
URI: http://info.paperdigitallibrary.com/id/eprint/776

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