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    Vol 58, Issue 4, 2024

    HR-LCMS Metabolite Profiling and in silico Evaluation of the Antidiabetic Activity of Methanolic Leaf Extract of Chrozophora rottleri (Geiseler) A. Juss. Ex Spreng.

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    Srilakshmi Nallapaty1, Narender Malothu1, Sathish Kumar Konidala2, Anka Rao Areti1 and Chakravarthi Guntupalli1
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    Corresponding author.

    Correspondence: Dr. Malothu Narender Department of Pharmaceutical Chemistry, KL College of Pharmacy, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, Andhra Pradesh, INDIA. Email: narendermalothu@gmail.com; mnarender@kluniversity.in

    Author Notes

    December 08, 2023; January 05, 2024; August 22, 2024.

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    Copyright Copyright ©2024 IJPER
    This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 License, which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms.
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    1.Nallapaty S, Malothu N, Konidala SK, Areti AR, Guntupalli C. HR-LCMS Metabolite Profiling and in silico Evaluation of the Antidiabetic Activity of Methanolic Leaf Extract of Chrozophora rottleri (Geiseler) A. Juss. Ex Spreng. Indian Journal of Pharmaceutical Education and Research [Internet]. 2024 Oct 4;58(4):1277–86. Available from: http://dx.doi.org/10.5530/ijper.58.4.140
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    Published in: Indian Journal of Pharmaceutical Education and Research, 2024; 58(4): 1277-1286.Published online: 04 October 2024DOI: 10.5530/ijper.58.4.140

    ABSTRACT

    Background:

    Chrozophora rottleri (Geiseler) A. Juss. ex Spreng. is a well-known traditional medicinal plant with a complex biological profile, though inadequate research has been established on its possible anti-diabetic effects and active metabolite profiling. In the present work, Methanolic leaf extracts (MECR) was used to identify plant metabolites by HR-LCMS analysis, and in silico docking studies and screened to assess their hypoglycaemic potential.

    Materials and Methods:

    In the preliminary investigation, the druggable abilities of the compounds were examined using the Swiss ADME in silico tool. The phytochemicals were virtually evaluated to determine their binding efficacies against the following proteins: sodium-glucose co-transporter 1 (PDB ID: 5EQG), insulin receptor (PDB ID: 1IR3), glucose co-tra ns porter 1 (PDB ID: 3DH4), and human dipeptidyl peptidase-IV (DPP-IV) (PDB ID: 4A5S). Besides, the impact of MECR on oxidative stress was evaluated by DPPH, H2O2, and FRAP assays.

    Results:

    In the HR-LCMS analysis, a total of 31 phytochemicals were found, including 14 flavonoids, 7 glycosides, 3 phenols, and a few carbohydrates, fatty acids, and alkaloids. Most phytochemicals showed favourable oral bioavailability and druggable characteristics, with 0 or 1 violation of Lipinski’s criteria. In contrast to dapagliflozin, a flavonoid compounds remikiren (AA12) and aureusidin (AA11); and an isoflavone genistein 8-C-glucoside (AA6) demonstrated greater affinity for 5EQG in docking study. A phenolic compound, cryptochlorogenic acid (AA1), had a notably higher binding affinity for 4A5S in comparison to vildagliptin.

    Conclusion:

    The present work has undertaken the first-ever investigation of bioactive phytochemicals and in silico hypoglycaemic profiling of leaves of C. rottleri. It can provide insight into further research for the discovery of new potential anti-diabetic agents.

    Keywords: Array, Antidiabetic activity, Antioxidant activity, Docking, HR-LCMS, Array

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