The prevalence of breast cancer has been acknowledged in the scientific community worldwide. Breast cancer widespread in women in Southeast Asian as a result of over 2 decades of economic prosperity caused by unhealthy diet is a major concern. The findings for effective treatments are ongoing with some successes, but to discover an effective prevention and treatment with little or no side effects has proven difficulty. According to statistic, one in 8 women will be diagnosed to carry some breast cancer tissues sometimes in their life time. Detections of tumorigenesis through self observation are still the best approach to cure breast cancer in early stage but reduction of the mortality has not been accounted even with extensively modern technology in the field of diagnosis as well as insurance protection in Western world, needless to say of counties which have little. Emerged suggestions of healthy diet with plenty vegetables and fruits(1)(2)(3) with change of life style(4)(5)(6) may be the only choice for women in reducing risk of the diseases.
In fact, certain vegetables(7)(8) and fruits(9)(10) or chemical compounds in them have been found to effect the breast cancer lines, induced apoptosis of breast cells by blocking the energy sources of the pathways, influencing the signal pathways of the proliferation of the cells or suppressing the genes promoted cancers.
I. Types of vegetables may reduced risk of breast cancer
A. Cruciferous vegetables
Cruciferous vegetables are the group of vegetables belonging to the family Brassicaceae, including cauliflower, cabbage, cress, bok choy, broccoli etc.
Isothiocyanate (ITC), one of the major chemical constistuent found in Cruciferous vegetables has been studied extensively over the past three decades with preclinical evidence for the efficacy of various ITCs against cancer in preclinical models. Benzyl isothiocyanate, the derivative of isothiocyanate showed an effectiveness in influencing carcinogen metabolism and signaling pathways relevant to tumor progression and invasion(11) against MDA-MB-231(breast cancer dell line), human breast cancer xenografts(mutation tissues)(12), suppression of X-linked inhibitor of apoptosis (XIAP) protein expression of cancer cell line MCF-7 by knockdown of the p53(antigens) protein level(13).
In Her-2 positive (a most aggressive case of breast cancer), indole-3-carbinol, a naturally occurring compound found in cruciferous vegetables, used combination with paclitaxel (a mitotic inhibitor) synergistically inhibited growth of Her2/neu human breast cancer cells by arresting cancer cells in the G2(pre-mitotic phase) and M(nuclear division) phase and induction of apoptosis/necrosis(14). I3C used alone also inhibited Her-2breast cancer cell growth in a dose dependent manner as the compound up-regulated Bax(an apoptosis promoter), down-regulated Bcl-2(an apoptosis inhibitor) and, thereby, increased the ratio of Bax to Bcl-2 favoring apoptosis(15).
2. Tomatos
Tomato is a red, edible fruit, genus Solanum, belonging to family Solanaceae, native to South America. Because of its health benefits, tomato is grown world wide for commercial purpose and often in green house.
Lycopene, a major carotenoid component of tomato has been known in research community with the property to attenuate the risk of breast cancer. In a time and doses depended, the compound showed an anti-proliferative activity against ER(estrogen receptor)/PR(progesterone receptor) positive MCF-7, HER2-positive SK-BR-3 and triple-negative MDA-MB-468 cell lines by arresting cell cycle at the G0 /G1 phase(interphase together - chromosomes replicate in preparation for cell division) at physiologically achievable concentrations(range) found in human plasma(16). Inhibition of the ER-positive MCF-7 through the cell cycle progression, ER-negative MDA-MB-231 cells through G1 phase cell cycle-arrest as well as apoptosis(17). There is a report of a lack of GSTP1 expression in untreated MDA-MB-468. Lycopene treatment not only restored the GSTP1 expression but also
with 2 microM, once per week for 2 weeks induce demethylation of RARbeta2 (tumor suppressor gene) and the HIN-1(a cell growth inhibitor)) genes in the noncancer MCF10A fibrocystic breast cells(18).
3. Figs
N-hexane insoluble fraction (HIF) found in figs may be lesser known for its efficacy in breast cancer cell suppressive activity. The combination of HIF and doxorubicin showed a greater inhibition on cell growth in (Human ductal breast epithelial tumor cell line) T47D cells and increased the incidence of cells undergoing apoptosis, when compared to exhibited doxorubicin alone(19). The soluble fraction (Ethyl acetate soluble fraction (EASF)) in fig leave was also found to enhance the cytotoxic effect of doxorubicin by changing the inhibition of cell cycle G(2)/M to G(1) phase(20) and Acetone extract of Ficus religosa leaf (FAE) exerted its efficacy in irreversible inhibition of breast cancer cell growth with moderate toxicity by stimulating the loss of mitochondrial membrane potential in multiple breast cancer cell lines and accelerated cell death through the photosensitizing effect(21).
4. Garlic
Garlic is a natural superfood healer for its natural antibiotic with antiviral, antifungal, anticoagulant and antiseptic properties.
Diallyl trisulfide(DAS), a derived organosulfur compounds (OSCs) suppressed the a ratio of viable cells in the culture of (Human breast cancer cell line) MCF-7 and MCF-12a (a non-tumorigenic epithelial cell line) cells respectively by decreasing the percent of cells in phase G(2)/M and inducing apoptotic cell death as a result of up regulating Bax protein and p53(cellular tumor antigen) protein expression(22). DAS also enhanced the effect of eicosapentaenoic acid, a breast cancer suppressor, and decrese the effect of linoleic acid, a breast cancer enhancer and reduced the side effects caused by anti-cancer agents(23). In the study of a protein fraction from garlic, the fraction was found to be more effective than the augment CD8(+) T-cell infiltration into the tumor site, inhibiting tumor growth more efficiently than garlic extract in enhancing the CD8(+) T-cell infiltration into the tumor site(24).
5. Spinach
Spinach is an edible flowering plant in the genus Spinacia, belonging to the family of Amaranthaceae and native to central and southwestern Asia. It is considered as a healthy plant containing vary vitamins and minerals.
Consuming spinach may be a significantly protective effect on breast cancer among premenopausal women(25). Eating carrots or spinach more than twice weekly, compared with no intake, was associated with an odds ratio of 0.56 (95% confidence interval 0.34-0.91), but does not distinguish among several potential explanations for the protective association observed between intake of carrots and spinach and risk of breast cancer.(26). It is said that included supplementation of A. gangeticus aqueous extract of red spinach in 5%, 7.5% and 10% in cancer induced rats showed a induction of all tumor marker enzymes especially at 10%.(27).
6. Kelp
Kelps are large seaweeds (algae) growth under shallow in underwater of shallow oceans belonging to the class Phaeophyceae in the order Laminariales, with the thallus is used for food in many cultures. Laminaria, a brown kelp seaweed containg a antibiotic substance, 1-3 beta glucan, was effective in stimulating the host-mediated immune response and was suggested of playing a essential role in preventing the initiation of breast cancer(28). Japanese seaweed (Laminaria angustata) extracts exerted its antimutagenic effects in certain breast and colon carcinogen(29). L-tryptophana substances isolated from the kelp rhizoid, may play an important role in in the inhibition of cell proliferation as an suggestion of increased tryptophan degradation occurred in women with early-stage breast cancer(30)(31).
7. Chili peppers
Chili pepper is the fruit of plants from the genus Capsicum, belonging to the nightshade family, Solanaceae. The fruit has been used in human history for spices and cultivated for commercial profits.
Capsaicin (trans-8-methyl-N-vanillyl-6-nonenamide), a chemical constituent of chili peppers used in many cultures as anti cancer agent was found to inhibit the growth of ER-positive (MCF-7, T47D, BT-474) and ER-negative (SKBR-3, MDA-MB231) breast cancer cell lines, reducing 50% the size of MDA-MB231 breast cancer tumors(32), induceing cellular apoptosis through a caspase-independent pathway in MCF-7 cells(33). In the comparison of capsaicin and Dohevanil, synthesized from DHA and vanillylamine (precursor to capsaicin) showed the exhibited effects of both vanilloids and dohevanil in growth inhibition and DNA fragmentation induction in MCF-7 cells, but dohevanil was more potent than capsaicin(34).
8. Carrot
Carrot can grow to 3ft tall. It is root vegetable with orange color normally, a sub spices of Daucus carota, belongs to the family Apiaceae, native to Asian and Europe.
Intake of cruciferous vegetable and carrot are inversely associations with risk of estrogen receptor-negative/progesterone receptor-negative breast cancer(35). Wild carrot or Daucus carota L. ssp. carota (Apiacea) oil extract, used in traditional medicine in Lebanon and in different regions throughout the world was found to inhibit human colon (HT-29, Caco-2) and breast (MCF-7, MDA-MB-231) cancer cell lines, causing significant increase in cell death and decrease in cell proliferation(36).
B. Types of fruit may reduced risk of breast cancer
1. Blueberry
Blueberry is a flower plant, belonging to the family Eriaceae and native to Northern America. It can grows from 10 cm to 4 metres tall.
Triple-negative breast cancer TNBC, a cancer does not express the genes for estrogen receptor (ER), progesterone receptor(PR), and HER2(gene)expression, affecting approximately 15% of all caner cases. Female MDA-MB-231 tumor-bearing mice fed with high fat diet with 5% whole blueberry powder (BB), showed an inhibited TNBC and TNBC-related metastasis by reducing inflammation via specific cytokine-driven pathways with generation of an immune response to reduce tumor growth and metastasis(40). In 17β-estradiol-mediated mammary tumorigenesis, 5% blueberry diet, showed to reduce tumor volume and multiplicity significantly, by down regulation of CYP 1A1(enzymes, able to activate compounds with carcinogenic properties) and ER-α (a receptor activated by the sex hormone estrogen)genes expression and also favorable modulation of microRNA (mir-18a and mir-34c) levels in gene regulation(41). Other chemical constituents anthocyanin and an anthocyanin-pyruvic acid adduct extract of blueberry were found to inhibited cancer cell proliferation by acting as cell antiinvasive factors and chemoinhibitors(42).
2. Avocado
Avocados are a commercially valuable fruit and are cultivated in tropical climates throughout the world, it is a green-skinned, pear-shaped fruit that ripens after harvesting and native to the Caribbean, Mexico, South America and Central America, belonging to the flowering plant family Lauraceous.
It is suggested that avocado-produced toxin persin may contain a positive anti breast cancer effect(43), as persin selectively induces a G2-M cell cycle arrest and cell death through caspase-dependent pathway(44). Others in the study of the same, persin showed a anti breast cancer effect in both estrogen receptor (ER) and ER-negative breast cancer cells(45).
3. Strawberry
Strawberries is a genius of Fragaria × ananassa belonging to the family Roseaceae. They have been grown all over the world with suitable climate for commercial profits and for health benefits.
Methanolic extract of strawberry (MESB) fruits showed to induced cytotoxicity in cancer cells, irrespective of origin, in a concentration- and time-dependent manner, in the testing against leukaemia (CEM) and breast cancer (T47D) cell lines through Induction of intrinsic pathway of apoptosis by activating p73 (a tumor suppressor) in breast cancer cells, when tumor suppressor gene p53 was mutated(46). Polyphenols, a major chemical component found in strawberry, as an extract, induced cytotoxic with doses of approximately 50 microg/ml, causing a 50% reduction in cell survival in both the normal and the tumour lines, including (MCF-7) breast cancer cell lines(47). In other study, freeze-dried fruits of two strawberry cultivars ethanol extract, strongly inhibited CaSki and SiHa cervical cancer cell lines and MCF-7 and T47-D breast cancer cell lines(48).
4. Pomegranate
Pomegranate is a fruit-bearing small tree, genus Punica, belonging to family Lythraceae, native to Iran but has been cultivated in Asian since ancient time.
Pomegranate extracts and genistein were found to exert their anti cancer effect in growth inhibition of cell proliferation and induction of apoptosis in human breast cancer cells(MCF-7) in doses and time depending manner(49) by downregulated HR genes (a ubiquitous cellular pathway that mediates transfer of genetic information) and increased expression of microRNAs (miRNAs), miR-183 (predicted target RAD50) and miR-24 (regulation of gene expression) in enhancing the growth inhibition and apoptosis of MCF-7 breast cancer cell line(50). Pomegranate fruit extracts (PFEs), in dose-dependent inhibited NF-kB-dependent reporter gene responses associated with proliferation, invasion, and motility in aggressive breast cancer phenotypes while decreasing RhoC and RhoA protein expression as these genes are associated with tumor cell invasion and metastasis(51).
6. Grapes
Resveratrol, a polyphenolic compound known as a good chemopreventive agent for inhibiting carcinogenesis processes that target the regulators of cell function and DNA replication, found abundantly in grapes, berries and peanuts are associated to reduced risk of breast caner. HS-1793, a synthetic version of the compound induced G2/M(DNA damage checkpoint) arrest in the cell cycle progression in both types of cells and involved in cell-cycle arrest and probably in induction of p53(tumor suppressor gene)-dependent apoptosis in MCF-7 cells(52). Catechin (RQC), a polyphenol, was found to be effective in inhibiting mammary tumor growth and metastasis, by reduced Akt(multiple cellular processes0 activity, induced the activation of AMPK(cellular energy), and inhibiting mTOR(mediate cellular responses) signaling in breast cancer cells(53). In Her-2 breast cancer, fox grape seed extract increased the expression of Bax(an apoptosis promoter) and AIF(Apoptosis inducing factor), and decreased total PARP(cellular processes) expression, leading to significant downregulation of Her-2 in MCF-7 cells(54).
7. Pineapple
Pineapple is a species of Ananas Comos, belonging to the family Bromeliaceae and native to southern Brazil and Paraguay. Today it is widely cultivated for commercial uses. Its rich of vitamins and mineral and digesting enzyme bromelin seems to help digestion after a high protein meal. It is a second only to banana as America's most favourite tropical fruit.
Bromelain, a major chemical constituent or herb used in traditional medicine found in pineapple has exerted its anti-metastasis of breast caner by up regulating the function of c-Jun N-terminal kinase in cell proliferation, differentiation, survival and migration and p38 kinase, in regulation of programmed cell death(56). In GI-101A breast cancer cells, bromelain induced cell death via activation of the apoptosis mechanism, in increased dose-dependent by promoting apoptosis and cytokine processing of caspase-9 and caspase-3 coinciding with elevation of serum CK18 levels(56). In the brMDA-MB-231 mammary carcinoma, oral administration of bromelain increased the reduced bMAK- and MAK-cell activity in cell cycle regulation from 7.8% to 54% (bMAK-cell activity) and from 16% to 47% (MAK-cell activity by stimulating the deficient monocytic cellular cytotoxicity of mammary tumor(57).
8. Apple
Apple is the pomaceous fruit of the apple tree, a species of the rose family Rosaceae. It is one of the most widely cultivated tree fruits originated in Central Asia.
In estrogen-dependent MCF-7 and estrogen-independent MDA-MB-231 breast cancer cell lines, apple phytochemical extracts significantly inhibited cell proliferation in a dose-dependent manner and cell cycle modulation(58). In breast carcinoma Mcf-7 and Mcf-7:Her18 cells, peels of apple was, found to be effective in antiproliferation accompanied by a G0-G1 phase arrest in cell cycle of breast cancer cells by a tumor suppressor protein that suppressed the regulation of cell invasion, metastasis, and angiogenesis(59). Study of apple extracts and quercetin 3-beta-d-glucoside combination, also showed to possess the synergistic effect in MCF-7 cell proliferation(60).
9. Orange
Orange is a species of Citrus Sinensis, belonging to the family Rutaceae and native to the Southeast Asia. Orange is round citrus fruits with finely-textured skins, orange in color and one of most popular fruits in the world.
Polymethoxyflavones (PMFs), a chemical compound found in Sweet orange (Citrus sinensis L.) peel, showed to induce Ca(2+)-mediated apoptosis in human breast cancer cells by induced proapoptotic activity(61). D-limonene, another compound in orange peel oil, in rodent studies, also exhibited its chemotherapeutic activity against mammary, through the induction of tumor cell apoptosis, tumor redifferentiation, and/or suppression of key proteins of cell growth-regulating (62).
C. Others
1. Black Rice
Black Rice is a type of rice with enriched Anthocyanins. including Indonesian black rice and Thai jasmine black rice. It has been considered as one of nature super foods with vary antioxidants.
Anthocyanins in black rice, with oral administration of AEBR (100 mg/kg/day) to BALB/c nude mice bearing MDA-MB-453 cell xenografts significantly suppressed tumor growth and angiogenesis by suppressing the expression of the physiological process factors MMP-9MMP-2( enzymes involved in the breakdown of extracellular matrix), and uPA(activator) in tumor tissue. Altogether, this study suggests the anticancer effects of AEBR against human breast cancer cells by inducing apoptosis and suppressing angiogenesis(37)(38). Other chemical constituents of species of black glumed’ Njavara (Oryza sativa L.) isolation, namely, flavonolignans, tricin 4'-O-(erythro-β-guaiacylglyceryl) ether (compound 1) and tricin 4'-O-(threo-β-guaiacylglyceryl) ether (compound 2), were also found to exert its effect on breast cancer cell line MCF-7, causing apoptosis at concentration 40 and 30 μg/ by decreasing protein in the mitochondrial membrane, leading to chromatin condensation(39).
2. Green tea
Green tea contains more amount of antioxidants than any drinks or food with the same volume, and is the leaves of Camellia sinensis, undergone minimal oxidation during processing, originated from China. Green tea has been a precious drink in traditional Chinese culture and used exceptional in socialization for more than 4000 thousand years. Because of their health benefits, they have been cultivated for commercial purposes all over the world.
As suggestions, regular green tea intake has been associated with an inverse risk of breast cancer, as green tea enhanced the production of Ki-67, a cancer antigen when compare to women who do not.(63). (-)-epigallocatechin gallate, a phytochemical in green tea was found to exert its epigenetic effects by altering the DNA methyltransferase expression in many types of cancer, including breast cancer(64). Catechins, another phytochemical of green tea, inhibited proliferation of breast cancer cells and blocked carcinogenesis in breast cancer propably through the expression of translocation across membranes or for degradation, ribonucleoprotein DNA reduplication, apoptotic cascade, etc.(65). In inflammatory breast cancer, a most aggressive type of breast cancer, green tea polyphenol epigallocatechin-3-gallate (EGCG), showed decreased expression of genes that promote proliferation, migration, invasion, and survival in human breast cancer cell lines, SUM-149 and SUM-190 by reduced lymphangiogenesis-promoting genes(66) and inhibited the cell proliferation at 72 hours, after 10 microM of EGCG treatment. These suggests a possible reactivation of apoptosis, may be through the complexity of the angiogenic switch leading to the modulation of the cell migration processes against triple negative breast cancer cells(67). In human breast cancer MCF-7 cells, selium containg polysaccharides (Se-GTPs) from a new variety of selenium-enriched Ziyang green tea, in dose-dependent, exhibited an effective cell growth inhibition by inducing MCF-7 cancer cells to undergo G2/M(cell cycle) phase arrest and apoptosis by an up-regulation of p53 (tumor antigan) expression(68). Unfortunately, epidemiological data, on incidence of breast cancer and recurrence of breast cancer, consumption of 5 or more cups of green tea a day showed a non-statistically significant trend towards the prevention of breast cancer development. Evidence indicates that green tea consumption may possibly help prevent breast cancer recurrence in early stage (I and II) cancers(69).
3. Red wine
Red wine, made from the pigments of grape varieties is a wine involved extraction of color, and flavour components from the grape skin.
Red wine phenolics piceatannol and myricetin showed to inhibit the profileration of estrogens hormone-dependent breast cancer cells by binding to the gene expression of estrogen receptor (ER) alpha, which interacts with responsive DNA sequences located within the promoter region of target genes(70). Catechin hydrate (CH), an antioxidant in red wine, induced apotoposis against MCF-7 cells, with the rate of 40.7% and 41.16% in the volume of 150 μg/ml CH in 24 hours, resulting in apoptotic cells, respectively. Moreover, a 48-hour exposure to 150 μg/ml CH and 300 μg/ml CH resulted in 43.73% and 52.95% apoptotic cells, through its ability to increase the expression of pro-apoptotic genes such as caspase-3, -8, and -9 and TP53(71).
4. Black bean
Black bean is a Small roughly ovoid legumes with glossy black shells, genus Phaseolus, belonging to the family Fabaceae and can bought in most grocery stores all around the year in dried and canned forms. It is believed that black bean was first domesticated growth in South America.
Water-soluble condensed tannins isolated from black beans showed inhibition against breat cancer cell line MCF-7 at 24 microM by suppressed fetal bovine serum (blood fraction remaining after the natural coagulation of blood) stimulated cell migration and the secretion of matrix metalloproteinase-2 (MMP-2 or gelatinase A), matrix metalloproteinase-9 (MMP-9 or gelatinase B)(involved in the breakdown of extracellular matrix), and vascular endothelial growth factor VEGF(165)(regulator of angiogenesis) receptors expression(72). Phytochemical of black bean (Phaseolus vulgaris) seed coats, have potent antioxidant and antiproliferative activities against MCF-7 human breast cancer cells in doses depending manner(73).
5. Fermented soybean
Fermented soybean made from ground soybeans, is an popular ingredient used in cuisines of East and Southeast Asia.
Chungkookjang, a Korean fermented soybean, containing high concentration of isoflavones and peptides showed to inhibit the growth of breast cancer MCF7 cells in decreased dependent on the concentration by activating TGFβ pathway in cellular processes and depressing inflammation(74).
in murine breast adenocarcinoma, fermented soy product (FSP) showed an effectiveness in tumor containment with smallest tumor volumes. Expressed larger amounts of nitric oxide and IL-1β (regulation of immune and inflammatory responses) and exhibited larger tumor sizes(75).
6. Peanut
Peanuts is belong to the the legume related to the bean family and first cultivated in the in the Chaco region of Paraguay and Bolivia.
Lectin ( (PNA), a chemical constituent of peanut was effective in inhibiting proliferation of human breast cell lines (ZR-75.1 and 734-B)(76) and MCF-7, T 47D, HBL 100, BT 20(77). beta-Sitosterol found in legumes, oil seeds and unrefined plant oils such as peanut butter, pistachios and sunflower, showed to exhibit the extrinsic apoptotic programmed cell death pathway in human breast MCF-7 and MDA-MB-231(78).
7. Faxseed
Flax seed is native to the region of the eastern Mediterranean to India and also known as common flax or linseed. Flax, an erect annual plant, can grow to 1.2 m tall. The leaves are 20–40 mm long and 3 mm broad.
Study of athymic mice fed with basal diet (control), or 10% FS diet, with or without TRAS (2.5mg/kg) treatment for 5 wk, showed a positive effects in reduced tumor size and increased tumor apoptosis. Dietary FS improved the function of TRAS in increased overall survival(79). In dietary flaxseed lignan or oil combined with tamoxifen showed an enhancing effect in reducing growth of estrogen receptor positive breast tumors (MCF-7) at low circulating estrogen levels by inhibiting cell proliferation, expression of genes, and proteins involved in the ER- and growth factor-mediated signaling pathways(80), with FO greatest effect in increasing apoptosis compared with TAM treatment alone(80). Lignans (a class of phytoestrogens) consumption was associated with a significant reduction in breast cancer risk(81). In estrogen-receptor-positive (MCF-7) and estrogen-receptor-negative (MDA-MB-231) cells, Flaxseed sprouts induced apoptosis and inhibit cancer cell growth by significantly upregulated p53(Anti tumor antigen) mRNA (transmits genetic information from DNA to the cytoplasm and controls certain chemical processes in the cell) in both cell cancer lines(82).
Many hours have been spent, hundred studies have been read, they may be worthless, if this article can not induce some women to change their diet patterns toward plenty vegetables and fruits accompanied with healthy style of living. Vegetables and fruits in the article, indeed, showed a positive effect in inhibiting proliferation and caused apoptosis in many breast cancer cell lines. But with expansions of GMOs into almost all food sources in production of large scale, approved by FDA and promoted by elective officials for commercial profits with lack of long term studies, organic farming are in the defendant corner waiting for the death sentence in the next super gene of GMOs cross contamination. Will the foods in this article be the same in the future? Will they still exert their anti breast cancer effects?
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(61) Apoptosis-inducing activity of hydroxylated polymethoxyflavones and polymethoxyflavones from orange peel in human breast cancer cells by Sergeev IN, Ho CT, Li S, Colby J, Dushenkov S.(PubMed)
(62) Monoterpenes in breast cancer chemoprevention by Crowell PL.(PubMed)
(63) logical effects of green tea capsule supplementation in pre-surgery postmenopausal breast cancer patients by Yu SS, Spicer DV, Hawes D, Tseng CC, Yang CS, Pike MC, Wu AH(PubMed)
(64) Epigenetic effects of green tea polyphenols in cancer by Henning SM, Wang P, Carpenter CL, Heber D.(PubMed)
(65) Green Tea Catechins: Proposed Mechanisms of Action in Breast Cancer Focusing on The Interplay Between Survival and Apoptosis by Yiannakopoulou EC.(PubMed)
(66)Epigallocatechin-3-gallate inhibits stem-like inflammatory breast cancer cells by Mineva ND, Paulson KE, Naber SP, Yee AS, Sonenshein GE.(PubMed)
(67) Epigallocatechin-3-Gallate (EGCG) inhibits cell proliferation and migratory behaviour of triple negative breast cancer cells by Braicu C, Gherman CD, Irimie A, Berindan-Neagoe I.(PubMed)
(68) Inhibitory effects and molecular mechanisms of selenium-containing tea polysaccharides on human breast cancer MCF-7 cells by He N, Shi X, Zhao Y, Tian L, Wang D, Yang X.(PubMed)
(69) The effects of green tea consumption on incidence of breast cancer and recurrence of breast cancer: a systematic review and meta-analysis by Seely D, Mills EJ, Wu P, Verma S, Guyatt GH.(PubMed)
(70) The red wine phenolics piceatannol and myricetin act as agonists for estrogen receptor alpha in human breast cancer cells by Maggiolini M, Recchia AG, Bonofiglio D, Catalano S, Vivacqua A, Carpino A, Rago V, Rossi R, Andò S.(PubMed)
(71) Catechin hydrate suppresses MCF-7 proliferation through TP53/Caspase-mediated apoptosis. by Alshatwi AA.(PubMed)
(72) Inhibition of Caco-2 colon, MCF-7 and Hs578T breast, and DU 145 prostatic cancer cell proliferation by water-soluble black bean condensed tannins by Bawadi HA, Bansode RR, Trappey A 2nd, Truax RE, Losso JN.(PubMed)
(73) Phytochemicals of black bean seed coats: isolation, structure elucidation, and their antiproliferative and antioxidative activities by Dong M, He X, Liu RH.(PubMed)
(74) Inflammation-related signaling pathways implicating TGFβ are revealed in the expression profiling of MCF7 cell treated with fermented soybean, chungkookjang by Hwang JS, Yoo HJ, Song HJ, Kim KK, Chun YJ, Matsui T, Kim HB.(PubMed)
(75) A soy-based product fermented by Enterococcus faecium and Lactobacillus helveticus inhibits the development of murine breast adenocarcinoma by Kinouchi FL, Maia DC, de Abreu Ribeiro LC, Placeres MC, de Valdez GF, Colombo LL, Rossi EA, Carlos IZ.(PubMed)
(76) Peanut agglutinin inhibits proliferation of cultured breast cancer cells by Marth C, Daxenbichler G.(PubMed)
(77) The influence of dietary lectins on the cell proliferation of human breast cancer cell lines in vitro by Valentiner U, Fabian S, Schumacher U, Leathem AJ.(PubMed)
(78) beta-Sitosterol activates Fas signaling in human breast cancer cells by Awad AB, Chinnam M, Fink CS, Bradford PG.(PubMed)
(79) Dietary flaxseed-trastuzumab interactive effects on the growth of HER2-overexpressing human breast tumors (BT-474) by Mason JK, Fu MH, Chen J, Yu Z, Thompson LU.(PubMed)
(80) Dietary flaxseed lignan or oil combined with tamoxifen treatment affects MCF-7 tumor growth through estrogen receptor- and growth factor-signaling pathways by Saggar JK, Chen J, Corey P, Thompson LU.(PubMed)
(81)Consumption of flaxseed, a rich source of lignans, is associated with reduced breast cancer risk by Lowcock EC, Cotterchio M, Boucher BA.(PubMed)
(21) Bax translocation mediated mitochondrial apoptosis and caspase dependent photosensitizing effect of Ficus religiosa on cancer cells by Haneef J, Parvathy M, Thankayyan R SK, Sithul H, Sreeharshan S.(PubMed)
(22) Garlic constituent diallyl trisulfide induced apoptosis in MCF7 human breast cancer cells by Malki A, El-Saadani M, Sultan AS.(PubMed)
(23) Anticancer effects of garlic and garlic-derived compounds for breast cancer control.
Tsubura A, Lai YC, Kuwata M, Uehara N, Yoshizawa K.(PubMed)
(24) Purif ied Protein Fraction of Garlic Extract Modulates Cellular Immune Response against Breast Transplanted Tumors in BALB/c Mice Model by Ebrahimi M, Mohammad Hassan Z, Mostafaie A, Zare Mehrjardi N, Ghazanfari T.(PubMed)(25) Food sources of phytoestrogens and breast cancer risk in Mexican women by Torres-Sánchez L, López-Carrillo L, López-Cervantes M, Rueda-Neria C, Wolff MS.(PubMed)
(26) Intake of carrots, spinach, and supplements containing vitamin A in relation to risk of breast cancer byLongnecker MP, Newcomb PA, Mittendorf R, Greenberg ER, Willett WC(PubMed)
(27) Potential anticancer effect of red spinach (Amaranthus gangeticus) extract by Sani HA, Rahmat A, Ismail M, Rosli R, Endrini S.(PubMed)
(28) The dietary intake of Laminaria, a brown seaweed, and breast cancer prevention by Teas J.(PubMed)
(29) Effect of Japanese seaweed (Laminaria angustata) extracts on the mutagenicity of 7,12-dimethylbenz[a]anthracene, a breast carcinogen, and of 3,2'-dimethyl-4-aminobiphenyl, a colon and breast carcinogen by Reddy BS, Sharma C, Mathews L.(PubMed)
(30) Indoleamine 2,3-dioxygenase activity and L-tryptophan transport in human breast cancer cells.
Travers MT, Gow IF, Barber MC, Thomson J, Shennan DB.(PubMed)
(31) [Substance isolated from the kelp rhizoid identified as L-tryptophan shows high inhibition of breast cancer].[Article in Japanese] by Takahashi N, Ojika M, Dogasaki C, Nishizawa M, Fukuoka H, Sahara H, Sato N, Mori M, Kikuchi K.(PubMed)
(32) Capsaicin causes cell-cycle arrest and apoptosis in ER-positive and -negative breast cancer cells by modulating the EGFR/HER-2 pathway by Thoennissen NH, O'Kelly J, Lu D, Iwanski GB, La DT, Abbassi S, Leiter A, Karlan B, Mehta R, Koeffler HP.(PubMed)
(33) Capsaicin-induced apoptosis in human breast cancer MCF-7 cells through caspase-independent pathway by Chou CC, Wu YC, Wang YF, Chou MJ, Kuo SJ, Chen DR.(PubMed)
(34) Apoptosis induction by dohevanil, a DHA substitutive analog of capsaicin, in MCF-7 cells by Tuoya, Baba N, Shimoishi Y, Murata Y, Tada M, Koseki M, Takahata K.(PubMed)
(35) Fruit and vegetable intake in relation to risk of breast cancer in the Black Women's Health Study. by Boggs DA, Palmer JR, Wise LA, Spiegelman D, Stampfer MJ, Adams-Campbell LL, Rosenberg L.(PubMed)
(36) The antioxidant and anticancer effects of wild carrot oil extract by Shebaby WN, El-Sibai M, Smith KB, Karam MC, Mroueh M, Daher CF.(PubMed)
(37) Extracts from black carrot tissue culture as potent anticancer agents by Sevimli-Gur C, Cetin B, Akay S, Gulce-Iz S, Yesil-Celiktas O.(PubMed)
(38) Selective Anti-Proliferation of HER2-Positive Breast Cancer Cells by Anthocyanins Identified by High-Throughput Screening by Liu W, Xu J, Wu S, Liu Y, Yu X, Chen J, Tang X, Wang Z, Zhu X, Li X.(PubMed)
(39) Tricin 4'-O-(erythro-β-guaiacylglyceryl) ether and tricin 4'-O-(threo-β-guaiacylglyceryl) ether isolated from Njavara (Oryza sativa L. var. Njavara), induce apoptosis in multiple tumor cells by mitochondrial pathway by Mohanlal S, Maney SK, Santhoshkumar TR, Jayalekshmy A.(PubMed)
(40) Whole Blueberry Powder Inhibits Metastasis of Triple Negative Breast Cancer in a Xenograft Mouse Model Through Modulation of Inflammatory Cytokines, by Kanaya N, Adams L, Takasaki A, Chen S.(PubMed)
(41) Chemopreventive and therapeutic activity of dietary blueberry against estrogen-mediated breast cancer by Jeyabalan J, Aqil F, Munagala R, Annamalai L, Vadhanam MV, Gupta RC.(PubMed)
(42) Blueberry anthocyanins and pyruvic acid adducts: anticancer properties in breast cancer cell lines by Faria A, Pestana D, Teixeira D, de Freitas V, Mateus N, Calhau C.(PubMed)
(43) Synthesis and in vitro evaluation of analogues of avocado-produced toxin (+)-(R)-persin in human breast cancer cells by Brooke DG, Shelley EJ, Roberts CG, Denny WA, Sutherland RL, Butt AJ.(PubMed)
(44) A novel plant toxin, persin, with in vivo activity in the mammary gland, induces Bim-dependent apoptosis in human breast cancer cells by Butt AJ, Roberts CG, Seawright AA, Oelrichs PB, Macleod JK, Liaw TY, Kavallaris M, Somers-Edgar TJ, Lehrbach GM, Watts CK, Sutherland RL.(PubMed)
(45) Synergistic cytotoxicity between tamoxifen and the plant toxin persin in human breast cancer cells is dependent on Bim expression and mediated by modulation of ceramide metabolism by Roberts CG, Gurisik E, Biden TJ, Sutherland RL, Butt AJ.(PubMed)
(46) Extracts of strawberry fruits induce intrinsic pathway of apoptosis in breast cancer cells and inhibits tumor progression in mice by Somasagara RR, Hegde M, Chiruvella KK, Musini A, Choudhary B, Raghavan SC.(PubMed)
(47) Strawberry polyphenols are equally cytotoxic to tumourigenic and normal human breast and prostate cell lines by Weaver J, Briscoe T, Hou M, Goodman C, Kata S, Ross H, McDougall G, Stewart D, Riches A.(PubMed)
(48) Anticarcinogenic Activity of Strawberry, Blueberry, and Raspberry Extracts to Breast and Cervical Cancer Cells, by Wedge DE, Meepagala KM, Magee JB, Smith SH, Huang G, Larcom LL.(PubMed)(39) Tricin 4'-O-(erythro-β-guaiacylglyceryl) ether and tricin 4'-O-(threo-β-guaiacylglyceryl) ether isolated from Njavara (Oryza sativa L. var. Njavara), induce apoptosis in multiple tumor cells by mitochondrial pathway by Mohanlal S, Maney SK, Santhoshkumar TR, Jayalekshmy A.(PubMed)
(40) Whole Blueberry Powder Inhibits Metastasis of Triple Negative Breast Cancer in a Xenograft Mouse Model Through Modulation of Inflammatory Cytokines, by Kanaya N, Adams L, Takasaki A, Chen S.(PubMed)
(41) Chemopreventive and therapeutic activity of dietary blueberry against estrogen-mediated breast cancer by Jeyabalan J, Aqil F, Munagala R, Annamalai L, Vadhanam MV, Gupta RC.(PubMed)
(42) Blueberry anthocyanins and pyruvic acid adducts: anticancer properties in breast cancer cell lines by Faria A, Pestana D, Teixeira D, de Freitas V, Mateus N, Calhau C.(PubMed)
(43) Synthesis and in vitro evaluation of analogues of avocado-produced toxin (+)-(R)-persin in human breast cancer cells by Brooke DG, Shelley EJ, Roberts CG, Denny WA, Sutherland RL, Butt AJ.(PubMed)
(44) A novel plant toxin, persin, with in vivo activity in the mammary gland, induces Bim-dependent apoptosis in human breast cancer cells by Butt AJ, Roberts CG, Seawright AA, Oelrichs PB, Macleod JK, Liaw TY, Kavallaris M, Somers-Edgar TJ, Lehrbach GM, Watts CK, Sutherland RL.(PubMed)
(45) Synergistic cytotoxicity between tamoxifen and the plant toxin persin in human breast cancer cells is dependent on Bim expression and mediated by modulation of ceramide metabolism by Roberts CG, Gurisik E, Biden TJ, Sutherland RL, Butt AJ.(PubMed)
(46) Extracts of strawberry fruits induce intrinsic pathway of apoptosis in breast cancer cells and inhibits tumor progression in mice by Somasagara RR, Hegde M, Chiruvella KK, Musini A, Choudhary B, Raghavan SC.(PubMed)
(47) Strawberry polyphenols are equally cytotoxic to tumourigenic and normal human breast and prostate cell lines by Weaver J, Briscoe T, Hou M, Goodman C, Kata S, Ross H, McDougall G, Stewart D, Riches A.(PubMed)
(49) Anticancer activities of pomegranate extracts and genistein in human breast cancer cells by Jeune MA, Kumi-Diaka J, Brown J.(PubvMed)
(50) Antiproliferative effects of pomegranate extract in MCF-7 breast cancer cells are associated with reduced DNA repair gene expression and induction of double strand breaks by Shirode AB, Kovvuru P, Chittur SV, Henning SM, Heber D, Reliene R.(PubMed)
(51) Pomegranate fruit extract impairs invasion and motility in human breast cancer by Khan GN, Gorin MA, Rosenthal D, Pan Q, Bao LW, Wu ZF, Newman RA, Pawlus AD, Yang P, Lansky EP, Merajver SD.(PubMed)
(52) The effect of grapefruit intake on endogenous serum estrogen levels in postmenopausal women by Monroe KR, Stanczyk FZ, Besinque KH, Pike MC.(PubMed)
(53) HS-1793, a resveratrol analogue, induces cell cycle arrest and apoptotic cell death in human breast cancer cells by Kim JA, Kim DH, Hossain MA, Kim MY, Sung B, Yoon JH, Suh H, Jeong TC, Chung HY, Kim ND.(PubMed)
(54) Grape polyphenols inhibit Akt/mammalian target of rapamycin signaling and potentiate the effects of gefitinib in breast cancer by Castillo-Pichardo L, Dharmawardhane SF.(PubMed)
(55) Suppression of oncoprotein Her-2 and DNA damage after treatment with Flavan-3- ol vitis labrusca extract by Scola G, Fernandes Correia Laurino CC, Menin E, Salvador M.(PubMed)
(56) Bromelain-induced apoptosis in GI-101A breast cancer cells by Dhandayuthapani S, Perez HD, Paroulek A, Chinnakkannu P, Kandalam U, Jaffe M, Rathinavelu A.(PubMed)
(57) Effects of oral bromelain administration on the impaired immunocytotoxicity of mononuclear cells from mammary tumor patients by Eckert K, Grabowska E, Stange R, Schneider U, Eschmann K, Maurer HR.(PubMed)
(58) Apple phytochemical extracts inhibit proliferation of estrogen-dependent and estrogen-independent human breast cancer cells through cell cycle modulation by Sun J, Liu RH.(PubMed)
(59) Antiproliferative effects of apple peel extract against cancer cells by Reagan-Shaw S, Eggert D, Mukhtar H, Ahmad N.(PubMed)
(60) Synergistic effect of apple extracts and quercetin 3-beta-d-glucoside combination on antiproliferative activity in MCF-7 human breast cancer cells in vitro by Yang J, Liu RH.(PubMed)
(61) Apoptosis-inducing activity of hydroxylated polymethoxyflavones and polymethoxyflavones from orange peel in human breast cancer cells by Sergeev IN, Ho CT, Li S, Colby J, Dushenkov S.(PubMed)
(62) Monoterpenes in breast cancer chemoprevention by Crowell PL.(PubMed)
(63) logical effects of green tea capsule supplementation in pre-surgery postmenopausal breast cancer patients by Yu SS, Spicer DV, Hawes D, Tseng CC, Yang CS, Pike MC, Wu AH(PubMed)
(64) Epigenetic effects of green tea polyphenols in cancer by Henning SM, Wang P, Carpenter CL, Heber D.(PubMed)
(65) Green Tea Catechins: Proposed Mechanisms of Action in Breast Cancer Focusing on The Interplay Between Survival and Apoptosis by Yiannakopoulou EC.(PubMed)
(66)Epigallocatechin-3-gallate inhibits stem-like inflammatory breast cancer cells by Mineva ND, Paulson KE, Naber SP, Yee AS, Sonenshein GE.(PubMed)
(67) Epigallocatechin-3-Gallate (EGCG) inhibits cell proliferation and migratory behaviour of triple negative breast cancer cells by Braicu C, Gherman CD, Irimie A, Berindan-Neagoe I.(PubMed)
(68) Inhibitory effects and molecular mechanisms of selenium-containing tea polysaccharides on human breast cancer MCF-7 cells by He N, Shi X, Zhao Y, Tian L, Wang D, Yang X.(PubMed)
(69) The effects of green tea consumption on incidence of breast cancer and recurrence of breast cancer: a systematic review and meta-analysis by Seely D, Mills EJ, Wu P, Verma S, Guyatt GH.(PubMed)
(70) The red wine phenolics piceatannol and myricetin act as agonists for estrogen receptor alpha in human breast cancer cells by Maggiolini M, Recchia AG, Bonofiglio D, Catalano S, Vivacqua A, Carpino A, Rago V, Rossi R, Andò S.(PubMed)
(71) Catechin hydrate suppresses MCF-7 proliferation through TP53/Caspase-mediated apoptosis. by Alshatwi AA.(PubMed)
(72) Inhibition of Caco-2 colon, MCF-7 and Hs578T breast, and DU 145 prostatic cancer cell proliferation by water-soluble black bean condensed tannins by Bawadi HA, Bansode RR, Trappey A 2nd, Truax RE, Losso JN.(PubMed)
(73) Phytochemicals of black bean seed coats: isolation, structure elucidation, and their antiproliferative and antioxidative activities by Dong M, He X, Liu RH.(PubMed)
(74) Inflammation-related signaling pathways implicating TGFβ are revealed in the expression profiling of MCF7 cell treated with fermented soybean, chungkookjang by Hwang JS, Yoo HJ, Song HJ, Kim KK, Chun YJ, Matsui T, Kim HB.(PubMed)
(75) A soy-based product fermented by Enterococcus faecium and Lactobacillus helveticus inhibits the development of murine breast adenocarcinoma by Kinouchi FL, Maia DC, de Abreu Ribeiro LC, Placeres MC, de Valdez GF, Colombo LL, Rossi EA, Carlos IZ.(PubMed)
(76) Peanut agglutinin inhibits proliferation of cultured breast cancer cells by Marth C, Daxenbichler G.(PubMed)
(77) The influence of dietary lectins on the cell proliferation of human breast cancer cell lines in vitro by Valentiner U, Fabian S, Schumacher U, Leathem AJ.(PubMed)
(78) beta-Sitosterol activates Fas signaling in human breast cancer cells by Awad AB, Chinnam M, Fink CS, Bradford PG.(PubMed)
(79) Dietary flaxseed-trastuzumab interactive effects on the growth of HER2-overexpressing human breast tumors (BT-474) by Mason JK, Fu MH, Chen J, Yu Z, Thompson LU.(PubMed)
(80) Dietary flaxseed lignan or oil combined with tamoxifen treatment affects MCF-7 tumor growth through estrogen receptor- and growth factor-signaling pathways by Saggar JK, Chen J, Corey P, Thompson LU.(PubMed)
(81)Consumption of flaxseed, a rich source of lignans, is associated with reduced breast cancer risk by Lowcock EC, Cotterchio M, Boucher BA.(PubMed)