Docking-based screening of Ficus religiosa phytochemicals as inhibitors of human histamine H2 receptor

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Abstract
Pharmacognosy Magazine,2017,13,51s,s706-s714.
Published:October 2017
Type:Original Article
Authors:
Author(s) affiliations:

Amit Chaudhary1, Birendra Singh Yadav1, Swati Singh2, Pramod Kumar Maurya1, Alok Mishra1, Shweta Srivastva1, Pritish Kumar Varadwaj3, Nand Kumar Singh1, Ashutosh Mani1
1Department of Biotechnology, MNNIT, Allahabad, Uttar Pradesh, India
2Center of Bioinformatics, University of Allahabad, Allahabad, Uttar Pradesh, India
3Department of Applied Science, IIIT, Allahabad, Uttar Pradesh, India

Abstract:

Background: Ficus religiosa L. is generally known as Peepal and belongs to family Moraceae. The tree is a source of many compounds having high medicinal value. In gastrointestinal tract, histamine H2 receptors have key role in histamine-stimulated gastric acid secretion. Their over stimulation causes its excessive production which is responsible for gastric ulcer. Objective: This study aims to screen the range of phytochemicals present in F. religiosa for binding with human histamine H2 and identify therapeutics for a gastric ulcer from the plant. Materials and Methods: In this work, a 3D-structure of human histamine H2 receptor was modeled by using homology modeling and the predicted model was validated using PROCHECK. Docking studies were also performed to assess binding affinities between modeled receptor and 34 compounds. Molecular dynamics simulations were done to identify most stable receptor-ligand complexes. Absorption, distribution, metabolism, excretion, and screening was done to evaluate pharmacokinetic properties of compounds. Results: The results suggest that seven ligands, namely, germacrene, bergaptol, lanosterol, Ergost-5-en-3beta-ol, α -amyrin acetate, bergapten, and γ -cadinene showed better binding affinities. Conclusion: Among seven phytochemicals, lanosterol and α -amyrin acetate were found to have greater stability during simulation studies. These two compounds may be a suitable therapeutic agent against histamine H2 receptor.

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