Abstract
Oral squamous cell carcinoma (OSCC) is one of the common lethal malignancies which is increasing rapidly in the world. Increasing risks from alcohol and tobacco habits, lack of early detection markers, lack of effective chemotherapeutic agents, recurrence and distant metastasis make the disease more complicated to manage. Laboratory-based studies and epidemiological studies indicate important roles of nutraceuticals to manage different cancers. The plant bitter melon (Momordica charantia) is a good source of nutrients and bio-active phytochemicals such as triterpenoids, triterpene glycosides, phenolic acids, flavonoids, lectins, sterols and proteins. The plant is widely grown in Asia, Africa, and South America. Bitter melon has traditionally been used as a folk medicine and Ayurvedic medicine in Asian culture to treat diseases such as diabetes, since ancient times. The crude extract and some of the isolated pure compounds of bitter melon show potential anticancer effects against different cancers. In this review, we shed light on its effect on OSCC. Bitter melon extract has been found to inhibit cell proliferation and metabolism, induce cell death and enhance the immune defense system in the prevention of OSCC in vitro and in vivo. Thus, bitter melon may be used as an attractive chemopreventive agent in progression towards OSCC clinical study.
Highlights
Cancer is a genetic disease that involves uncontrolled cell proliferation due to the dynamic changes in the genome, and it is the second leading cause of death worldwide[1,2,3]
We focus only on oral cancer and summarize the effect of bitter melon with molecular details
We mainly focused on the effect of bitter melon in preventing oral cancer
Summary
Cancer is a genetic disease that involves uncontrolled cell proliferation due to the dynamic changes in the genome, and it is the second leading cause of death worldwide[1,2,3]. Cancer is highly heterogeneous with more than 200 distinct disease entities in humans due to the differences in initiating cells, pattern of acquired somatic mutations, alteration in molecular signaling events and influence of local tissue microenvironments[4]. The incidence of oral cancer continues to increase worldwide. A global estimate of lip and oral cavity cancer cases in 2018 was 354,864, which was 2% of all new cancer cases with 177,000 deaths every year[7,8]. In the USA, the estimated incidence rate of cancer of the oral cavity and pharynx in 2020 was 53,260, leading to 10,750 deaths[9]. Genetic factors and age influence OSCC development[11]
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