Cancer occurs when the body’s cells grow beyond the usual control. Normal body cells multiply in a controlled manner and undergo apoptosis when the body no longer needs them. Different types of cancers exist, and the common ones include breast, cervical, prostate, lung, colon, and skin cancers. Several factors have been associated with cancers, and these factors include poor dieting, exposure to harmful chemicals and radiation, weak immune system, and genetics. Cancer presents an enormous health threat in the modern world and thus the need to identify an effective treatment. The conventional treatments used in the management of cancer include chemotherapy and physiotherapy. These forms of cancer treatments usually have enormous side effects on the subjects. In this respect, an alternative form of treatment would be effective in managing cancer patients. A substantial number of natural products have been observed to be effective in the management of cancer. These natural products include plants and other natural substances such as honey. This study focuses on the efficiency of natural products in the treatment of cancer. Also, the anticancer effects of Peganum harmala, Manuka honey, and Saudi honey will be analyzed. Bee honey and Peganum harmala have been traditionally used in the treatment of cancer. The extracts from Peganum harmala plant have also been shown to exhibit divers’ antitumor effects similar to the mode of action of a vast number of anticancer agents. These established hypotheses thus give the rationale for this study. In this experiment, extracts were obtained from Peganum harmala leaves and exposed to cervical, lung, and prostate cancer cells. Similarly, solutions of Manuka honey and Saudi honey were exposed to the cervical, lung, and prostate cancer cells. The experiment duration was 24 hours, which obtained results were recorded and analyzed. Peganum harmala extracts inhibit cancer cell growth at different and achievable concentrations. Manuka honey highly inhibits the growth of HeLa cancer cells while Saudi honey highly inhibits the growth of A549 cells. Peganum harmala can form an effective treatment for managing several types of cancers. Manuka Honey can be applied as an effective treatment for managing cervical cancer while Saudi honey can form an effective treatment for managing lung cancers.
References
[1]
Alison, M.R. (2001) Cancer. Encyclopedia of Life Sciences, 1-8. https://www.researchgate.net/publication/279950572_Cancer
[2]
Risk Factors for Cancer. https://www.cancer.gov/about-cancer/causes-prevention/risk
[3]
Cancer Society (2003) The History of Cancer. Information Sheet, 1-2. https://www.cancer.org/cancer/understanding-cancer/history-of-cancer.html
[4]
Samarghandian, S., Farkhondeh, T. and Samini, F. (2017) Honey and Health: A Review of Recent Clinical Research. Pharmacognosy Research, 9, 121-127.
[5]
Mathers, C.D., Shibuya, K., Boschi-Pinto, C., Lopez, A.D. and Murray, C.J. (2002) Global and Regional Estimates of Cancer Mortality and Incidence by Site: I. Application of Regional Cancer Survival Model to Estimate Cancer Mortality Distribution by Site. BMC Cancer, 2, Article No. 36. https://doi.org/10.1186/1471-2407-2-36
[6]
Ahmed, S. and Othman, N.H. (2013) Honey as a Potential Natural Anticancer Agent: A Review of Its Mechanisms. Evidence-Based Complementary and Alternative Medicine, 2013, Article ID: 829070. https://doi.org/10.1155/2013/829070
[7]
Boukraa, L. and Niar, A. (2007) Sahara Honey Shows Higher Potency against Pseudomonas aeruginosa Compared to North Algerian Types of Honey. Journal of Medicinal Food, 10, 712-714. https://doi.org/10.1089/jmf.2006.256
[8]
Han, D.H., Denison, M.S., Tachibana, H. and Yamada, K. (2002) Relationship between Estrogen Receptor-Binding and Estrogenic Activities of Environmental Estrogens and Suppression by Flavonoids. Bioscience, Biotechnology, and Biochemistry, 66, 1479-1487. https://doi.org/10.1271/bbb.66.1479
[9]
Moloudizargari, M., Mikaili, P., Aghajanshakeri, S., Asghari, M.H. and Shayegh, J. (2013) Pharmaceutical and Therapeutic Effects of Peganum harmala and Its Main Alkaloids. Pharmacognosy Review, 7, 199-212. https://doi.org/10.4103/0973-7847.120524
[10]
Lamchouri, F., Toufik, H., Bouzzine, S.M., Hamidi, M. and Bouachrine, M. (2010) Experimental and Computational Study of Biological Activities of Alkaloids Isolated from Peganum harmala Seeds. Journal of Mater and Environmental Science, 1, 343-352.
[11]
Alhawiti, N.M., Alramadhan, W.H., Boadi, W. and Myles, E.L. (2023) Anticancer Activity of Peganum harmala and Haloxylon salicornicum Leaf Extracts on Lung Cancer A549 and Prostate Cancer PC-3 Cell Lines. American Journal of Plant Sciences, 14, 1360-1374. https://doi.org/10.4236/ajps.2023.1411092
[12]
Mohammad, M.H., Kadhum, H.E.M. and Ali, Z.A. (2010) Cytotoxic Effect of Peganum Harmala L. Extract and Induction of Apoptosis on Cancerous Cell Line. Iraqi Journal of Cancer and Medical Genetics, 3, 11-15. https://doi.org/10.29409/ijcmg.v3i1.21
[13]
Vallianou, N.G., Gounari, P., Skourtis, A., Panagos, J. and Kazazis, C. (2014) Honey and Its Anti-Inflammatory, Anti-Bacterial and Anti-Oxidant Properties. General Medicine Open Assess Journal, 2, Article 132. https://doi.org/10.4172/2327-5146.1000132
[14]
Mandal, M.D. and Shyamapada, M. (2011) Honey: Its Medicinal Property and Antibacterial Activity. Asian Pacific Journal of Tropical Biomedicine, 1, 154-160. https://doi.org/10.1016/S2221-1691(11)60016-6
[15]
Schiassi, M.C.E.V., De Souza, V.R., Lago, A.M.T., Carvalho, G.R., Curi, P.N., Guimaraes, A.S. and Queiroz, F. (2021) Quality of Honeys from Different Botanical Origins. Journal of Food Science and Technology, 58, 4167-4177. https://doi.org/10.1007/s13197-020-04884-7
[16]
Gazdar, A.F., Girard, L., Lockwood, W.W., Lam, W.L. and Minna, J.D. (2010) Lung Cancer Cells Lines as Tools for Biomedical Discovery and Research. JNCI Journal of the National Cancer Institute, 102, 1310-1321. https://doi.org/10.1093/jnci/djq279
[17]
Shen, C., Buck, A., Mehrke, G., Polat, B., Gross, H. and Bachem, M. (2011) Triplex Forming Oligonucleotide Targeted to 3’UTR Down-Regulates the Expression of the bcl-2 Proto-Oncogene in Hela Cells. JNCI Journal of the National Cancer Institute, 25, 137-149.
[18]
Skoog, D.A., Holler, F.J. and Crouch, R.S. (2007) Principles of Instrumental Analysis. Thomson Higher Education, Belmont.
