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               REFERENCES
               1.       Boada LD, Henríquez-Hernández LA, Luzardo OP. The impact of red and processed meat consumption on cancer and other health
                   outcomes: Epidemiological evidences. Food Chem Toxicol 2016;92:236-44.  DOI  PubMed
               2.       Lin DX, Lang NP, Kadlubar FF. Species differences in the biotransformation of the food-borne carcinogen 2-amino-1-methyl-6-
                   phenylimidazo[4,5-b]pyridine by hepatic microsomes and cytosols from humans, rats, and mice. Drug Metab Dispos 1995;23:518-24.
                   PubMed
               3.       Wink  M.  Plant  secondary  metabolism:  Diversity,  function  and  its  evolution.  Natural  Product  Communications
                   2008;3:1934578X0800300.
               4.       Ranjan A, Ramachandran S, Gupta N, et al. Role of phytochemicals in cancer prevention. Int J Mol Sci 2019;20:4981.  DOI  PubMed
                   PMC
               5.       Dutta S, Mahalanobish S, Saha S, Ghosh S, Sil PC. Natural products: An upcoming therapeutic approach to cancer. Food Chem
                   Toxicol 2019;128:240-55.  DOI  PubMed
               6.       Chapa-Oliver AM, Mejía-Teniente L. Capsaicin: From plants to a cancer-suppressing agent. Molecules 2016;21:931.  DOI  PubMed
                   PMC
               7.       Venier NA, Yamamoto T, Sugar LM, et al. Capsaicin reduces the metastatic burden in the transgenic adenocarcinoma of the mouse
                   prostate model. Prostate 2015;75:1300-11.  DOI  PubMed
               8.       Tsai YJ, Chen BH. Preparation of catechin extracts and nanoemulsions from green tea leaf waste and their inhibition effect on prostate
                   cancer cell PC-3. Int J Nanomedicine 2016;11:1907-26.  DOI  PubMed  PMC
               9.       Tu Y, Kim E, Gao Y, Rankin GO, Li B, Chen YC. Theaflavin-3, 3'-digallate induces apoptosis and G2 cell cycle arrest through the
                   Akt/MDM2/p53 pathway in cisplatin-resistant ovarian cancer A2780/CP70 cells. Int J Oncol 2016;48:2657-65.  DOI  PubMed  PMC
               10.      Chen ML, Lin YH, Yang CM, Hu ML. Lycopene inhibits angiogenesis both. in vitro ;56:889-99.  DOI  PubMed
               11.      Preet R, Mohapatra P, Das D, et al. Lycopene synergistically enhances quinacrine action to inhibit Wnt-TCF signaling in breast cancer
                   cells through APC. Carcinogenesis 2013;34:277-86.  DOI  PubMed
               12.      Gupta P, Srivastava SK. Inhibition of Integrin-HER2 signaling by Cucurbitacin B leads to in vitro and in vivo breast tumor growth
                   suppression. Oncotarget 2014;5:1812-28.  DOI  PubMed  PMC
               13.      Saglam AS, Alp E, Elmazoglu Z, Menevse S. Treatment with cucurbitacin B alone and in combination with gefitinib induces cell cycle
                   inhibition and apoptosis via EGFR and JAK/STAT pathway in human colorectal cancer cell lines. Hum Exp Toxicol 2016;35:526-43.
                   DOI  PubMed
               14.      Zheng Q, Liu Y, Liu W, et al. Cucurbitacin B inhibits growth and induces apoptosis through the JAK2/STAT3 and MAPK pathways in
                   SHSY5Y human neuroblastoma cells. Mol Med Rep 2014;10:89-94.  DOI  PubMed
               15.      Chen J, Duan Y, Zhang X, Ye Y, Ge B, Chen J. Genistein induces apoptosis by the inactivation of the IGF-1R/p-Akt signaling
                   pathway in MCF-7 human breast cancer cells. Food Funct 2015;6:995-1000.  DOI  PubMed
               16.      Sarkar FH, Li Y. Mechanisms of cancer chemoprevention by soy isoflavone genistein. Cancer Metastasis Rev 2002;21:265-80.  DOI
                   PubMed
               17.      Bahrami A, Fereidouni M, Pirro M, Bianconi V, Sahebkar A. Modulation of regulatory T cells by natural products in cancer. Cancer
                   Lett 2019;459:72-85.  DOI  PubMed
               18.      Kim C, Kim B. Anti-cancer natural products and their bioactive compounds inducing ER stress-mediated apoptosis: A Review.
                   Nutrients 2018;10:1021.  DOI  PubMed  PMC
               19.      Kumar A, Jaitak V. Natural products as multidrug resistance modulators in cancer. Eur J Med Chem 2019;176:268-91.  DOI  PubMed
               20.      Bonofiglio D, Giordano C, De Amicis F, Lanzino M, Andò S. Natural products as promising antitumoral agents in breast cancer:
                   Mechanisms of action and molecular targets. Mini Rev Med Chem 2016;16:596-604.  DOI  PubMed
               21.      Yin B, Fang DM, Zhou XL, Gao F. Natural products as important tyrosine kinase inhibitors. Eur J Med Chem 2019;182:111664.  DOI
                   PubMed
               22.      Wink M. Evolution of secondary metabolites from an ecological and molecular phylogenetic perspective. Phytochemistry 2003;64:3-
                   19.  DOI  PubMed
               23.      Schmeller T, Latz-Brüning B, Wink M. Biochemical activities of berberine, palmatine and sanguinarine mediating chemical defense
                   against microorganisms and herbivores. Phytochemistry 1997;44:257-66.  DOI  PubMed
               24.      Lu JJ, Bao JL, Chen XP, Huang M, Wang YT. Alkaloids isolated from natural herbs as the anticancer agents. Evid Based Complement
                   Alternat Med 2012;2012:485042.  DOI  PubMed  PMC
               25.      Guengerich FP. Metabolism of chemical carcinogens. Carcinogenesis 2000;21:345-51.  DOI  PubMed