Molecular docking, MMGBSA, and ADMET studies of phytoconstituents of
            <i>Ocimum gratissimum</i>
            on multiple breast cancer targets

Ajiboye, Basiru Olaitan; Fatoki, Toluwase Hezekiah; Akinnusi, Precious Ayorinde; Ajuwon, Olawale Rasaq; Oyinloye, Babatunji Emmanuel; Jeje, Temitope Olawale; Owolabi, Olutunmise Victoria; Ogedengbe, Oluwatosin O.; Genovese, Claudia

doi:10.1080/14786419.2024.2344193

Natural Product Research

2024

DOI: 10.1080/14786419.2024.2344193

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Molecular docking, MMGBSA, and ADMET studies of phytoconstituents of Ocimum gratissimum on multiple breast cancer targets

Basiru Olaitan Ajiboye,

Toluwase Hezekiah Fatoki,

Precious Ayorinde Akinnusi

et al.

Abstract: O. gratissimum is one of the most common medicinal plants in every community in Nigeria.This plant has been presumed to be useful in the management of diseases including breast cancer, which is one the commonest cancers affecting women globally. Hence, this study aimed to computationally investigate the phytochemicals present in O. gratissimum by elucidate their binding dynamics against five selected molecular targets of breast cancer and predict their pharmacokinetics properties. Molecular docking, MMGBSA cal… Show more

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In silico molecular targets, docking, dynamics simulation and physiologically based pharmacokinetics modeling of oritavancin

Fatoki,

Balogun,

Ojewuyi

et al. 2024

BMC Pharmacol Toxicol

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Introduction Oritavancin is a semi-synthetic lipoglycopeptide antibiotic primarily used to treat serious infections caused by Gram-positive bacteria. The aim of this study was to elucidate possible molecular targets of oritavancin in human and microbes in relevance to its mechanism of action and model its pharmacokinetics for optimal dose selection in clinical practice. Methods Computational methods were used in this study which include target prediction, molecular docking, molecular dynamics simulation, pharmacokinetics prediction, and physiological-based pharmacokinetics (PBPK) modeling. Results Oritavancin was moderately soluble in water and did not permeate the blood-brain barrier. Seven molecular targets were identified in humans. Molecular docking results showed highest binding affinity of oritavancin with PI3-kinase p110-gamma subunit (−10.34 kcal/mol), followed by Acyl-CoA desaturase (−10.07 kcal/mol) and Cytochrome P450 2C19 (−8.384 kcal/mol). Oritavancin PBPK modelling in adult human showed that infusion has lower peak concentrations (Cmax) compared to bolus administration, with 1200 mg dose yielded Cmax of 16.559 mg/L, 800 mg dose yielded Cmax of 11.258 mg/L, and 200 mg over 3 days dose yielded Cmax of 7.526 mg/L. Notably, infusion gave extended half-life (t 1/2 ) for all doses and slightly higher clearance rates compared to bolus, particularly for the 1200 mg and 800 mg doses. The results corroborated existing clinical pharmacokinetic data, and confirmed the model’s accuracy and predictive capability. Conclusion This comprehensive computational study has provided invaluable insights into the pharmacological profile of Oritavancin, aiding its further development and optimization for clinical use.

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In silico molecular targets, docking, dynamics simulation and physiologically based pharmacokinetics modeling of oritavancin

Fatoki,

Balogun,

Ojewuyi

et al. 2024

BMC Pharmacol Toxicol

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In-silico screening of bioactive compounds of Moringa oleifera as potential inhibitors targeting HIF-1α/VEGF/GLUT-1 pathway against Breast Cancer

Masarkar,

Pal,

Roy

et al. 2024

Journal of Complementary and Integrative Medicine

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Objectives Breast cancer is among the most heterogeneous and aggressive diseases and a foremost cause of death in women globally. Hypoxic activation of HIF-1α in breast cancers triggers the transcription of a battery of genes encoding proteins that facilitate tumor growth and metastasis and is correlated with a poor prognosis. Based on the reported cytotoxic and anti-cancer properties of Moringa oleifera (Mo), this study explores the inhibitory effect of bioactive compounds from M. oleifera and breast cancer target proteins HIF-1α, VEGF, and GLUT-1 in silico. Methods The X-ray crystallographic structures of HIF-1α, VEGF, and GLUT1 were sourced from the Protein Data Bank (PDB) and docked with 70 3D PubChem structures of bioactive compounds of M. oleifera using AutoDock Vina, and binding modes were analyzed using Discovery Studio. Five compounds with the highest binding energies were selected and further drug-likeness, oral bioavailability, ADME, and toxicity profiles were analyzed using SwissADME, ADMETSaR, and ADMETlab 3.0 web server. Results Out of the screened 70 bioactive compounds, the top five compounds with the best binding energies were identified namely Apigenin, Ellagic Acid, Isorhamnetin, Luteolin, and Myricetin with each receptor. Molecular docking results indicated that the ligands interact strongly with the target HIF-1α, VEGF, and GLUT-1 receptors through hydrogen bonds and hydrophobic interactions. These compounds showed favorable drug-like and pharmacokinetic properties, possessed no substantial toxicity, and were fairly bioavailable. Conclusions Results suggested that the compounds possess strong potential in developing putative lead compounds targeting HIF-1α that are safe natural plant-based drugs against breast cancer.

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Molecular docking, MMGBSA, and ADMET studies of phytoconstituents of Ocimum gratissimum on multiple breast cancer targets

Cited by 2 publications

References 46 publications

In silico molecular targets, docking, dynamics simulation and physiologically based pharmacokinetics modeling of oritavancin

In silico molecular targets, docking, dynamics simulation and physiologically based pharmacokinetics modeling of oritavancin

In-silico screening of bioactive compounds of Moringa oleifera as potential inhibitors targeting HIF-1α/VEGF/GLUT-1 pathway against Breast Cancer

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