Research Article
Benzofuran fused phenyl pyrimidine/pyrazole schiff base derivatives as bioactive agents: anticancer, antimicrobial and molecular docking studies
Abstract
Benzofuran fused phenyl pyrimidine/pyrazole schiff base derivatives 8(a-e) and 9(a-e) have been
synthesized by a three step reaction. The structures of the synthesized compounds were established based on the
analytical and spectral data. The in-vitro anticancer and antimicrobial activity of compounds against MCF-7 and HeLa
cancer cell lines and microbes were studied. The compounds 8c and 9c showed significant levels of anticancer activity
compared to the standard. Molecular docking studies were performed on the active site of transferase (PDB ID: 4ANM)
with the synthesized ligands 8(a-e) and 9(a-e) for the optimization of the investigated compounds as potential cancer
cell inhibitors. The antimicrobial activity was performed by using well diffusion method, compounds 8d and 9d showed
maximum inhibition effect against the tested microbial pathogens, respectively.
References
- [1] Bozorov K, Zhao, J, Aisa HA. 1, 2, 3-Triazole-Containing Hybrids as Leads in Medicinal Chemistry: A Recent Overview. Bioorg Med Chem.2019; 27: 3511-3531. [CrossRef]
- [2] Khanam H, Shamsuzzaman. Bioactive Benzofuran Derivatives: A review. Eur J Med Chem. 2015; 97: 483-504. [CrossRef]
- [3] Chand K, Rajeshwari, Hiremathad A, Singh M, Santos M, Keri RS. A Review on Antioxidant Potential of Bioactive Heterocycle Benzofuran: Natural and Synthetic Derivatives. Pharmacol Rep. 2017; 69: 281-295. [CrossRef]
- [4] Bhargava S, Rathore D. Synthetic Routes and Biological Activities of Benzofuran and its Derivatives: A Review. Lett Org Chem. 2017; 14: 381–402. [CrossRef]
- [5] Napiуrkowska M, Ciesrlak M, Kazrmierczak-Baranrska J, Krуlewska-Golinrska K, Nawrot B. Synthesis of New Derivatives of Benzofuran as Potential Anticancer Agents. Molecules. 2019; 24: 1529- 1545. [CrossRef]
- [6] Miao YH, Hu YH, Yang J, Liu T, Sun J, Wang XJ. Natural Source, Bioactivity and Synthesis of Benzofuran Derivatives. RSC Advances. 2019; 9: 27510-27540. [CrossRef]
- [7] Matiichuk Y, Ostapiuk Y, Chaban T, Sulyma M, Sukhodolska N, Matiychuk V. Synthesis and Anticancer Activity of Novel Benzofurancarboxamides. Biointerface Res Appl Chem. 2020; 10(6), 6597-6609.[CrossRef]
- [8] Plosker GL. Eprosartan: A Review of its use in Hypertension. Drugs. 2009; 69: 2477-2499. [CrossRef]
- [9] Nevagi R, Dighe SN, Dighe SN. Biological and Medicinal Significance of Benzofuran. Eur J Med Chem. 2015; 97: 561- 581.[CrossRef]
- [10] Sztanke K, Maziarka A, Osinka A, Sztanke M. An Insight into Synthetic Schiff Bases Revealing Antiproliferative Activities in vitro. Bioorg Med Chem. 2013; 21: 3648-3666. [CrossRef]
- [11] Anu K, Suman B, Sunil K, Neha S, Vipin S. Schiff Bases: A Versatile Pharmacophore. J Catal. 2013; 1-15 [CrossRef]
- [12] Kajal A, Bala S, Kamboj S, Sharma N, Saini V. Schiff Bases: A Versatile Pharmacophore. J Catal. 2013; 1:185-189. [CrossRef]
- [13] Vanitha U, Elancheran R, Manikandan V, Kabilan S, Krishnasamy K. Design, Synthesis, Characterization, Molecular Docking and Computational Studies of 3-Phenyl-2-thioxoimidazolidin-4-one Derivatives. J Mol Struct. 2021, 1246, 131212. [CrossRef]
- [14] Arjun HA, Anil Kumar GN, Elancheran R, Kabilan S. Crystal Structure, DFT and Hirshfeld Surface Analysis Of (E)- N′-[(1-Chloro-3,4-Dihydronaphthalen-2-Yl)Methylidene]Benzohydrazide Monohydrate. Acta Cryst. 2020, E76, 132- 136. [CrossRef]
- [15] Arjun HA, Natarajan M, Ravi Kumar R, Ramakrishnan E, Kunasekaran L, Muthiah R, Atanu B, Kabilan S. Design, Synthesis, and Biological Evaluation of 2-(2-Bromo-3- nitrophenyl)-5-phenyl-1,3,4-oxadiazole Derivatives as Possible Anti-Breast Cancer Agents. Chem Biodiversity. 2020, 17, e1900659. [CrossRef]
- [16] Harini ST, Kumar HV, Rangaswamy J, Naik N. Synthesis, Antioxidant and Antimicrobial Activity of Novel Vanillin Derived Piperidin-4-one Oxime Esters: Preponderant Role of the Phenyl Ester Substituents on the Piperidin-4-one Oxime core. Bioorg Med Chem. 2012; 22: 7588-7592. [CrossRef]
- [17] Rangaswamy J, Kumar HV, Harini ST, Naik N. Functionalized 3-(benzofuran-2-yl)-5-(4-methoxyphenyl)-4, 5- dihydro-1H-pyrazolescaffolds: A New Class of Antimicrobials and Antioxidants. Arab J Chem. 2017, 10, S2685- S2696. [CrossRef]
- [18] Kariyappa, NA, Rangaswamy J, Mallappa S, Naik N. Synthesis, Molecular Docking and in vivo Biological Evaluation of İminostilbene linked 1,2,3-triazolepharmacophores as Promising Anti-anxiety and Anti-inflammatory Agents. Med Chem. 2022; 18: 260-272. [CrossRef]
- [19] Kariyappa NA, Rangaswamy J, Mallappa S, Naik N, Krishnamurthy GK. Synthesis and Molecular Docking of novel 1,3-thiazole derived 1,2,3-triazoles and in vivo Biological Evaluation for their Anti-anxiety and Anti-inflammatory Activity. J Mol Struc. 2021; 1236: 130357. [CrossRef]
- [20] Dawood KM, Farag HAAM, Abdel-Aziz. Azoles and azolo-azines via 3-(3-methylbenzofuran-2-yl)-3- oxopropanenitrile. J Chem Res. 2005; June: 378–381. [CrossRef]
- [21] Slaett J, Romero I, Bergman. J. Cyanoacetylation of Indoles, Pyrroles and Aromatic Amines with the Combination Cyanoacetic Acid and Acetic Anhydride. Synthesis. 2004; 16: 2760-2775. [CrossRef]
- [22] Mosmann T. Rapid Colorimetric Assay for Cellular Growth and Survival: Application to Proliferation and Cytotoxicity Assays. J Immunol Methods. 1983; 65: 55-63. [CrossRef]
- [23] Balouiri M, Sadiki M, Ibnsouda SK. Methods for in vitro Evaluating Antimicrobial Activity: A review. J Pharm Anal. 2016; 6: 71–79. [CrossRef]
- [24] Xu Z, Zhao S, Zaosheng LV, Feng L, Wang Y, Zhang F, Bai L, Deng J. Benzofuran Derivatives and Their Antitubercular, Anti-bacterial activities. Eur J Med Chem. 2019; 162: 266-276. [CrossRef]
- [25] Desta B. Ethiopian Traditional Herbal Drugs part II. Antimicrobial Activity of 63 Medicinal Plants. J Ethnopharmacol. 1993; 39: 129-139. [CrossRef]
- [26] Ahmed AF, Aya RM, Ebrahim AG. Synthesis and Antimicrobial Evaluation of Some 4-quinolinylazo-N-pyrimidinyl Benzenesulfonamide Derivatives. Biointerface Res Appl Chem. 2020; 10: 4846–4852. [CrossRef]
- [27] Perez C, Pauli M, Bazerque P. An Antibiotic Assay by Agar Well Diffusion Method. Acta Biol Med Expt. 1990; 15: 113–115. [CrossRef]
- [28] Magaldi S, Mata-Essayag S, Capriles CHD, Perez C, Colella MT, Olaizola, C, Ontiveros Y. Well diffusion for antifungal susceptibility testing. Int J Infect Dis. 2004; 8: 39-45. [CrossRef]
- [29] Alzoreky NS, Nakahara K. Antibacterial Activity of Extracts from Some Edible Plants Commonly Consumed in Asia. Int J Food Microbiol. 2003; 80: 223–230. [CrossRef]
- [30] Ritchie DW. Evaluation of Protein Docking Predictions Using Hex 3.1 in CAPRI rounds 1 and 2. Proteins 2003; 52: 98-106. [CrossRef]
There are 30 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Pharmaceutical Chemistry |
| Journal Section | Articles |
| Authors | |
| Publication Date | June 28, 2025 |
| Published in Issue | Year 2022 Volume: 26 Issue: 5 |