A therapeutic approach to target mitochondrial dysfunction using molecular docking studies: Screening of natural drugs for oral carcinoma

Background: Mitochondrial dysfunction is the major cause of various types of cancer, leading to death worldwide. The present study investigated the in silico binding potential of natural flavonoids and essential oils with human cyclophilin D (CyPD) protein. CyPD protein is a major molecular marker f...

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Bibliographic Details
Published in:Pharmacognosy Magazine 2018-04, Vol.14 (55), p.192-196
Main Authors: Singh, Manish, Tripathi, Manish, Singh, Alok, Azad, Chandra, Gambhir, Indrajeet, Kumar, Brijesh, Purohit, Suresh
Format: Article
Language:English
Subjects:
Amino acids
Apoptosis
Cancer therapies
Care and treatment
Chemical properties
Crystal structure
Essences and essential oils
Flavonoids
Genetic algorithms
Health aspects
Ligand binding (Biochemistry)
Ligands
Mitochondria
Mouth cancer
Mutation
Oils & fats
Oral cancer
Permeability
Pharmacognosy
Pharmacological research
Proteins
Studies
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Summary:Background: Mitochondrial dysfunction is the major cause of various types of cancer, leading to death worldwide. The present study investigated the in silico binding potential of natural flavonoids and essential oils with human cyclophilin D (CyPD) protein. CyPD protein is a major molecular marker for apoptosis and has been reported to be elevated in oral carcinoma. Methods: PubChem database was used to check the efficacy of different active phytoconstituents (kaempferol, quercetin, eugenol, oxyresveratrol, tanshinone 2a, catechin, epicatechin, cinnamaldehyde, and emodin). These compounds were used as ligands to check their potential as anticancer agents against the inner mitochondrial membrane protein, CyPD. Docking studies were performed with the help of Discovery Studio 2.5 and Autodock. Emodin was used as a reference inhibitor to compare the results. Results: The binding energy (B.E.) of the reference inhibitor (known/established drug) emodin was observed −28.9 kcal/mol while novel inhibitors (catechin, cinnamaldehyde, epicatechin, eugenol, kaempferol, oxyresveratrol, quercetin, and tanshinone 2a) exhibited a range from −51.51 to −5.89 kcal/mol. Quercetin, kaempferol, and epicatechin (B.E.: −51.51, −34.79, and −30.62 kcal/mol, respectively) showed strong affinity as compared to reference inhibitor (B.E.: −28.9 kcal/mol). Conclusion: Quercetin, kaempferol, and epicatechin can be used as lead inhibitors against targeting CyPD. Abbreviations used: CyPD: Cyclophilin D, BE: Binding Energy, PTPC: Permeability transition pore complex, mPTP: Mitochondrial permeability transition pore.
ISSN:0973-1296
0976-4062
DOI:10.4103/pm.pm_471_17