Chemical Review and Letters

Bioactivity assessment of the prepared Chitosan-based Schiff base composite on lung cancer and esophageal cancer

Document Type : Research Article

Authors

Faiq Karam 1
Sara Dakhel 2

1 Department of chemistry-College of Science-University of Al-Qadisiyah , Iraq

2 Department of Chemistry, College of Science, University of Al-Qadisiyah

https://doi.org/10.22034/crl.2024.462460.1359
Abstract
The synthesis and bioactivity assessment of 2-hydroxy-5-(naphthalene-1-yldiazenyl) benzaldehyde (HNDB) on lung cancer and esophageal cancer were investigated. The study aimed to evaluate the biological efficiency of HNDB through various applications and measurements. Previous research on HNDB's efficacy against breast lesions from early lactation human milk and esophageal cancer using the HBL-100 and SKGT-4 cell lines, respectively, was reviewed. HNDB demonstrated significant inhibitory effects on breast and esophageal cancer cells, with optimal concentrations of 500 µg/ml and 250 µg/ml, respectively. Moreover, its effectiveness against lung carcinoma using the A549 cell line was explored, indicating an optimal concentration of 250 µg/ml. The study employed MTT assays to determine cytotoxicity and inhibition rates, revealing promising anti-proliferative activity of HNDB across various cancer cell lines. Furthermore, response curves illustrated concentration-dependent inhibition, with IC50 values ranging from 148.2 to 261.6 µg/ml. Box-plot correlations highlighted concentration-dependent inhibition patterns, emphasizing the significance of optimal concentrations in achieving maximal inhibitory effects. Overall, the findings underscore the potential of HNDB as a novel anti-cancer agent against lung and esophageal malignancies, warranting further exploration for therapeutic applications.

Graphical Abstract

Bioactivity assessment of the prepared Chitosan-based Schiff base composite on lung cancer and esophageal cancer

Keywords

HNDB
Lung cancer
Esophageal cancer
Bioactivity assessment
Anti-proliferative agent

Subjects

[1] J. Baek, H. S. Roh, K. H. Baek, , S. Lee, S. S. Song, K. H. Kim, Bioactivity-based analysis and chemical characterization of cytotoxic constituents from Chaga mushroom (Inonotus obliquus) that induce apoptosis in human lung adenocarcinoma cells. J. Ethnopharmacol., 224(2018), 63-75.
[2] L. H. Huang, Y. F. Zheng, Y. Z. Lu, C. J. Song, Y. G. Wang, B. Yu, H. M.  Liu, Synthesis and biological evaluation of novel steroidal [17, 16-d][1, 2, 4] triazolo [1, 5-a] pyrimidines. Steroids, 77(2012), 710-715. 
[3] P. M. Kris-Etherton, K. D. Hecker, A. Bonanome, S. M. Coval, A. E. Binkoski, K. F. Hilpert, T. D. Etherton,. Bioactive compounds in foods: their role in the prevention of cardiovascular disease and cancer. Am. J. Med., 113(2002), 71-88.
[4] J. D. Lambert, J. E. Rice, J. Hong, Z. Hou, C. S. Yang. Synthesis and biological activity of the tea catechin metabolites, M4 and M6 and their methoxy-derivatives. BMCL, 15(2005), 873-876.
[5] L. Y. Li, J. D. Peng, W. Zhou, H. Qiao, X. Deng, Z. H. Li, W. Zhao, Potent hydrazone derivatives targeting esophageal cancer cells. Eur. J. Med. Chem., 148(2018), 359-371.
[6] S. Mitra, R. Das, T. B. Emran, R. K. Labib, F. Islam, R. Sharma, P. Wilairatana, Diallyl disulfide: a bioactive garlic compound with anticancer potential. Front. pharmacol., 13(2022), 943967.
[7] A. Mondal, S. Banerjee, S. Bose, P. P. Das, E. N. Sandberg, A. G. Atanasov, A. Bishayee, Cancer preventive and therapeutic potential of banana and its bioactive constituents: a systematic, comprehensive, and mechanistic review. Front. oncol., 11(2021), 697143.
[8] D. V. Nair, A. G. Reddy,. Laboratory animal models for esophageal cancer. Vet. World, 9(2016), 1229–1232.
[9] J. Connor, S. Lee, (2010). Bioactive compounds and cancer. J. A. Milner, & D. F. Romagnolo (Eds.). NewYork, NY, USA: Humana Press.
[10] A. Faried, D. Kurnia, L. S. Faried, N. Usman, T. Miyazaki, H. Kato, H. Kuwano,. Anticancer effects of gallic acid isolated from Indonesian herbal medicine, Phaleria macrocarpa (Scheff.) Boerl, on human cancer cell lines. Int. J. Oncol., 30(2007), 605-613.
[11] P. Hong, Q. W. Liu, Y. Xie, Q. H. Zhang, L. Liao, Q. Y. He, W. W. Xu, Echinatin suppresses esophageal cancer tumor growth and invasion through inducing AKT/mTOR-dependent autophagy and apoptosis. Cell Death Dis., 11(2020), 524.
[12] I. Saadaoui, R. Rasheed, N. Abdulrahman, T. Bounnit, M. Cherif, H. Al Jabri, F. Mraiche, Algae-derived bioactive compounds with anti-lung cancer potential. Mar. Drugs, 18(2020), 197.
[13] C. Tiloke, A. Phulukdaree, A. A. Chuturgoon, The antiproliferative effect of Moringa oleifera crude aqueous leaf extract on human esophageal cancer cells. J. Med. Food, 19(2016), 398-403.
[14] I. R. S. Vieira, C. A. Conte-Junior, Nano-delivery systems for food bioactive compounds in cancer: Prevention, therapy, and clinical applications. Crit Rev Food Sci Nutr., 64(2024), 381-406.
[15] P. Wu, X. M. Dong, G. Q. Song, M. M. Wei, C. Fang, F. B. Zheng, T. Xie, Bioactivity-guided discovery of quality control markers in rhizomes of Curcuma wenyujin based on spectrum-effect relationship against human lung cancer cells. Phytomedicine, 86, (2021), 153559.
[16] S. A. Siadati, M. A. Ebrahimzadeh, R. Yazdian-Robati, E. Babanezhad. A theoretical approach on the possibility of using α-phagraphene, g-X3N4 nanosheets, and C19X fullerenes for adsorption and drug delivery of a proteasome inhibitor drug; DRM, 147(2024) 111344.
[17] F. Karam, S. Dakhil, Thermodynamics, Kinetic study and equilibrium isotherm analysis   of methyl orange adsorption by Chitosan-based Schiff base. Asian J. Chem. (2024) (this paper under review).
[18] N. Shi, T. Chen, Chemo preventive properties of black raspberries and strawberries in esophageal cancer review. Antioxidants, 11(2022), 1815.
[19] H. M. So, S. Lee, K. H. Baek, H. S. Roh, S. Kim, M. S. Jo, K. H. Kim, Bioactivity-based analysis and chemical characterization of cytotoxic compounds from a poisonous mushroom, Amanita spissacea, in human lung cancer cells in vitro. Nat. Prod. Res., 35(2021), 649-654.
[20] J. Sun, Y. Chen, Y. Wu, X. Zhang, L. Jiang, Y. Zhang, Bioassay-guided separation and identification of a new anti-lung cancer compound from Cordyceps militaris by means of off-line two-dimensional preparative chromatography, real-time cell analysis, and X-ray single-crystal diffraction. Chromatographia, 78(2015), 495-506.
[21] C. Wang, L. Jiang, S. Wang, H. Shi, J. Wang, R. Wang, H. Liu, The antitumor activity of the novel compound jesridonin on human esophageal carcinoma cells. PloS one, 10(2015), e0130284.
[22] W. Zhou, J. Wu, J. Zhang, X. Liu, S. Guo, S. Jia, M. Wang, Integrated bioinformatics analysis to decipher molecular mechanism of compound Kushen injection for esophageal cancer by combining WGCNA with network pharmacology. Sci. Rep., 10(2020), 12745.
[23] S. Abdolmohammadi, S. Dahi‐Azar, Sustainable synthesis of benzopyran azo dyes using CuCr2O4 NPs. J. Heterocycl. Chem., 58(2021), 2181-2188.
[24] S. Abdolmohammadi, Z. Hossaini, R. Poor Heravi, PANI-Fe3O4@ZnO nanocomposite as magnetically recoverable organometallic nanocatalyst promoted synthesis of new azo chromene dyes and evaluation of their antioxidant and antimicrobial activities. Mol. Divers, , 26(2022), 1983-1993.
[25] S. Abdolmohammadi, Z. Hossaini, Z. Azizi, Efficient Fe3O4@TiO2 Composite Nanoparticles Catalyzed Synthesis of Novel Azo Xanthene Dyes with Promising Antimicrobial Activity. Chemistry Select, 8(2023), 202300343.
[26] S. Abdolmohammadi, Z. Hossaini, Z. Azizi, Green synthesis of new xanthene-based azo dyes using CuI-graphene nanocomposite and evaluation of their antioxidant and antimicrobial activities. Polycycl. Aromat. Comp., 44(2024), 2257-2269.
[27] Z. T. Al-Khateeb, F. F. Karam, K. J. Al-Adilee. "Synthesis and characterization of some metals complexes with new heterocyclic azo dye ligand 2-[2--(5-Nitro thiazolyl) azo]-4-methyl-5-nitro phenol and their biological activities." Journal of Physics: Conference Series. 1294. (2019).
[28] A. A. Shihad, K. A. Abedalrazaq, F. F. Karam, H. M. Hessoon, K. J. Al-Adilee, A. F. Alkaim, New Analytical Method for Estimation of ferrous in Ferrous Sulfate drug By Preparation and Using 2-(E-(1H_benzo (d) imidozol-2-yl) diazenyl-5-(E-4-dimethyl amino benzaliden amino) phenol as a reagent. Journal of Pharmaceutical Sciences and Research, 10(2018), 2179-2182.
[29] F.F. Karam, Z.T. Al-Khateeb, Synthesis and characterization of some metals complexes with new heterocyclic azo dye ligand 2-[2--(benzimidazolyl) azo]-5-dimethylamino benzoic acid. Journal of Global Pharma Technology, 12(2020), 757–763.
[30] A. A. azayd, F. F. Karam. Kinetic and Thermodynamic Studies for Ciprofloxacin Adsorption from Aqueous Solution using poly (AAM_MA) in controlled release system." Eurasian Chemico-Technological Journal, 20(2018), 169-177.‏
[31] A. A. azayd, and F. F. Karam, Adsorption of Atenolol drug from Aqueous solution by poly (AAM_MA) hydrogel and used in Drug Delivery System: Study kinetic and Thermodynamic, Research Journal of Pharmacy and Technology, 12 (2019), 4678-4682.‏
[32] J. G. Almukhtar, F. F. Karam, Kinetic and Thermodynamic Studies for Mebeverine hydrochloride Adsorption from Aqueous Solution using prepared chitosan polymer in delivery drug system, Journal of Physics: Conference Series. 1664(2020).
 
Chemical Review and Letters
Volume 7, Issue 5 - Serial Number 5
November and December 2024
Pages 816-826

  • Receive Date 19 June 2024
  • Revise Date 30 August 2024
  • Accept Date 03 September 2024

Home

Guide for Authors

Submit Manuscript

Reviewers

Contact Us