Insights & Discussion
The pharmacological actions of Coix seed in gastric cancer treatment may involve pathways in cancer, the DNA damage response, transcription factor binding, the apoptotic process, and the cell–cell junction.
Coix seed, the mature seed of Coix lacryma-jobi L., is a traditional herb widely used in various cancer adjuvant treatments; however, its mechanism is unknown. The aim of this study was to reveal the multitarget mechanisms of Coix seed in the treatment of gastric cancer (GC) by biological network and modular analysis methods. Forty-one ingredients and 482 targets of Coix seed and 165 GC-related genes were obtained from databases. Twelve on-target genes (AICDA, CASP3, EP300, ERBB2, FGFR2, IL12A, IL12B, IL1B, LOX, TJP1, TP53, and TRIB3) of Coix seed overlapped with GC-related genes. Using compound-target and protein–protein interaction network analyses, we discovered the core targets of Coix seed. Markov cluster algorithm-based modular analysis identified 5 potential module targets of Coix seed for GC. Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway analysis demonstrated the vast actions of Coix seed, which involve pathways in cancer, the cell cycle, receptor signal transduction, deoxyribonucleic acid damage response, transcriptional regulation, apoptosis, and cell connections. This study elucidated the potential mechanisms of Coix seed on GC, which may lead to the development of an effective drug. Additionally, this study showed the feasibility of network and modular analysis methods to investigate traditional Chinese medicinal herbal mechanisms and may provide a new angle for further research in the field of anticancer mechanisms and multitarget drugs.
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Crocin, a compound derived from saffron, has shown considerable potential in hindering tumor growth and improving immune status, across various malignant tumors.
2023 PeerJ Advances on the anti-tumor mechanisms of the carotenoid Crocin Bao X, Hu J, Zhao Y, Jia R, Zhang H, Xia L
Review Article Anti-Tumour Breast Cancer Cervical Cancer
The methodology for the study involved an in-depth review of modern pharmacological studies that have analyzed the therapeutic effects of crocin, a natural compound that can be extracted from saffron. Various anti-tumor effects were assessed including the induction of tumor cell death (apoptosis), restrictions on tumor cell proliferation, and potential barriers to invasion and metastasis of these cells. The potential for enhancement of sensitivity to chemotherapy and improvement of immune status were also examined.
Following the review, the study revealed that crocin has significant anti-tumor properties. It showed that this natural compound can induce apoptosis in tumor cells, inhibit their expansion and progression, and even prevent their invasiveness and metastasis. Furthermore, crocin demonstrated the potential to enhance the body’s responsiveness to chemotherapy and help boost the immune system. These effects were observed across a range of different malignant tumors, including stomach, liver, cervical, breast, and colorectal cancers.
Ellagic acid, found naturally in pomegranates, significantly inhibits growth and migration of gastric cancer cells without causing notable side effects.
2022 Human & Experimental Toxicology The effects of ellagic acid and other pomegranate (Punica granatum L.) derivatives on human gastric cancer AGS cells Cheshomi H, Bahrami AR, Rafatpanah H, Matin MM
Experimental Study Ellagic Acid Pomegranate Stomach Cancer
In the methodology of this study, High Performance Liquid Chromatography (HPLC) was employed to detect the presence of Ellagic Acid (EA) in samples. Various methods were then used to determine the various anti-cancer properties of different concentrations of pomegranate fruit juice, pomegranate peel extract, and pure EA. This included an MTT assay, apoptosis and scratch assay, gelatin zymography and quantitative RT-PCR. Additionally, the study examined the impact of these compounds on immunocompromised C57BL/6 mice carrying human gastric cancer tumors.
Extending to discussing the results, it was found that EA inhibited both the proliferation and migration of gastric cancer cells in mice and altered gene expressions related to apoptosis and inflammation. The treatments with EA or pomegranate extract resulted in a noticeable decrease in tumor size in the lab mice. No significant side effects were reported from EA use. In sum, the results showed EA's potential as a safe and effective anti-cancer agent specific to gastric adenocarcinoma.
Probiotic-enriched mung and adzuki bean sprouts demonstrate increased antioxidant potential and exhibit cytostatic and cytotoxic effects on human stomach cancer cells.
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Experimental Study Adzuki Bean Mung Bean Stomach Cancer
The study utilized mung bean sprouts (MBS) and adzuki bean sprouts (ABS), enriched with probiotic strain 299v, and their gastric digests were tested on human stomach cancer cells, AGS. Differentiation was shown through ABS containing quercetin and kaempferol derivatives while MBS featured kaempferol and apigenin derivatives, each displaying a higher antioxidant potential compared to controls. The viability of AGS reduced notably with low concentrations of ABS extracts, displaying inhibitive action which pointed to their cytostatic effects.
In discussing the results, it is noticed that the sprouts showcased dose-independent cytostatic effects. However, ABS extracts were found to be more effective in reducing the proliferation of AGS, compared to MBS. Notably, the ABS extracts exerted about 70% inhibitions, elucidating their strong inhibitive power. Concurrently, the phytochemicals from these probiotic-enriched sprouts were observed to reduce the associated activity significantly. Observations of increased vinculin level, apoptotic shape of cell nuclei, alongside decreased cell motility and proliferation provide evidence that these extracts exhibited not only cytostatic but also cytotoxic activity.
Consuming carrots reduces the risk of gastric cancer by an indicated 26%.
2015 Journal of Gastric Cancer Effect of Carrot Intake in the Prevention of Gastric Cancer: A Meta-Analysis Fallahzadeh H, Jalali A, Momayyezi M, Bazm S
Systematic Review Carrot Stomach Cancer
Using specific search terms related to gastric cancer and carrot consumption, a comprehensive search through databases such as PubMed, Cochrane Library, Scopus, ScienceDirect, and some Persian databases was conducted. Comprehensive Meta Analysis/2.0 software was utilized for statistical analysis.
The initial search yielded 81 articles, but only 5 met the inclusion and exclusion criteria and were included in the study. Without mentioning specifics, a fixed effects model determined a significant reduction in the risk of gastric cancer associated with carrot consumption. The results showed no indication of publication bias through a funnel graph depiction. The results demonstrate an inverse relationship between carrot consumption and the risk of gastric cancer.
Adzuki bean exhibited the strongest antiproliferative properties in a dose-dependent manner against all digestive system cancer cell lines, ovary cancer cell SK-OV-3 and breast cancer cell MCF-7 among all legumes tested.
2012 Food Chemistry Comparative study on antiproliferation properties and cellular antioxidant activities of commonly consumed food legumes against nine human cancer cell lines Xu B, Chang SKC
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This research involved comparing the health-promoting effects of various food legumes. The Cellular Antioxidant Activity (CAA) was assessed using a fluorescence microplate reader and in vitro animal cell cultivation. The antiproliferative properties against cancer cells were evaluated through the MTT method in an in vitro cell culture system. Additionally, the study quantified phytochemicals (total phenolic, procyanidin, saponin, and phytic acid) and chemical antioxidant activities (DPPH free radical scavenging activity, oxygen radical absorbing capacity, peroxyl radical scavenging capacity).
The results indicated significant variations in phytochemical and antioxidant activities among different legumes. Notably, adzuki bean demonstrated the strongest dose-dependent antiproliferative effects against various cancer cell lines, including those from the digestive system, ovary, and breast. Meanwhile, black soybean showed the highest levels of saponin, phytic acid, and the strongest cellular antioxidant activities. These findings suggest that food legumes, particularly adzuki beans and black soybeans, are promising as natural antioxidants for health promotion and cancer prevention.
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