Food for Breast Cancer

Current evidence-based information on how to reduce risk and survive breast cancer

Food for Breast Cancer provides information on how various foods and other factors affect breast cancer risk, prevention and prognosis. The findings are drawn exclusively from scientific studies and updated as new research becomes available. Our goal is to provide breast cancer patients, survivors and those at high risk for breast cancer with information to help prevent and survive breast cancer.

In addition to web pages covering specific foods, we provide in-depth articles on what to eat for various types of breast cancer (e.g., HER2 overexpressing, ER+/PR+, triple negative, or lobular) and during treatment (radiation, Taxol, aromatase inhibitor). See our article on how to optimize your breast cancer diet for information on what to eat during all stages of treatment and recovery.

We also provide extensive information on breast cancer risk factors, treatment and prognosis. For example, there are articles concerning the prognosis of triple negative, lobular, and HER2 positive breast cancer. In addition, there are news reports on the latest breast cancer research.

Below is the latest news story or article from Food for Breast Cancer:

Foods that inhibit or increase aromatase

Foods that inhibit or increase aromatase

Aromatase inhibitors such as Arimidex (anastrozole), Femara (letrozole), and Aromasin (exemestane) suppress the production of estrogen within the body by inhibiting the action of the enzyme aromatase (which converts androgens into estrogens). The growth of ER+ (i.e., estrogen sensitive) breast cancer is promoted by estrogen and decreasing its production is designed to reduce recurrence.

There are also some foods that inhibit aromatase and others that increase it. We cover these and other foods that influence the treatment effects of aromatase inhibitors in Foods to eat & avoid during aromatase inhibitor treatment. Below we list only those foods known to inhibit or promote aromatase activity directly. The purpose is to provide useful information to postmenopausal women who would benefit from aromatase inhibitor treatment, but are unable to undergo it or other anti-estrogen treatment.

Foods that inhibit aromatase activity

The following foods contain compounds that have been shown to inhibit aromatase activity, thereby suppressing estrogen biosynthesis.

: Artichokes
: Arugula
: Blueberries & bilberries
: Broccoli & broccoli sprouts
: Brussels sprouts
: Cabbage
: Cauliflower
: Celery
: Cherries, sour or tart
: Chives
: Cilantro
: Collard greens
: Corn
: Cranberries & ligonberries
: Currants, black
: Grapes and grape juice, red
: Green onions
: Horseradish & wasabi

: Hot peppers
: Kale
: Lemons & limes
: Mexican oregano
: Mushrooms, white button & related
: Mustard
: Mustard greens
: Oats
: Oranges & tangerines
: Parsley
: Pomegranates & pomegranate juice
: Radishes
: Rice, black, red or purple
: Saffron
: Turnip greens
: Turnips
: Walnuts & walnut oil
: Watercress

Aspirin and metformin also have both been shown to inhibit aromatase expression.

Foods that increase aromatase activity

The following foods contain compounds that have been shown to increase aromatase activity, thereby increasing the production of estrogen.

: Alcohol
: Beef
: Corn oil
: Grilled, BBQ'd, or smoked meat or fish
: Lamb

: Peanut oil
: Safflower oil
: Soybean oil
: Sunflower oil

Please see our article on aromatase inhibitors for more information.

Selected breast cancer studies

Usefulness of melatonin as complementary to chemotherapeutic agents at different stages of the angiogenic process Bis(4-hydroxy-2H-chromen-2-one) Coumarin Induces Apoptosis in MCF-7 Human Breast Cancer Cells Through Aromatase Inhibition Anti-Estrogenic and Anti-Cell Proliferative Effect of Allyl Isothiocyanate in Chemoprevention of Chemically Induced Mammary Carcinogenesis in Rats Metformin inhibits stromal aromatase expression and tumor progression in a rodent model of postmenopausal breast cancer Aryl hydrocarbon receptor induced intratumoral aromatase in breast cancer Zeranol stimulates proliferation and aromatase activation in human breast preadipocytes Modulation of Aromatase by Phytoestrogens NSAID Use Reduces Breast Cancer Recurrence in Overweight and Obese Women: Role of Prostaglandin-Aromatase Interactions Anti-aromatase effect of resveratrol and melatonin on hormonal positive breast cancer cells co-cultured with breast adipose fibroblasts Phytoestrogens in menopausal supplements induce ER-dependent cell proliferation and overcome breast cancer treatment in an in vitro breast cancer model Melatonin modulates aromatase activity and expression in endothelial cells Modulation of CYP19 expression by cabbage juices and their active components: indole-3-carbinol and 3,3′-diindolylmethene in human breast epithelial cell lines Inhibitory effect of luteolin on estrogen biosynthesis in human ovarian granulosa cells by suppression of aromatase (CYP19) Melatonin suppresses aromatase expression and activity in breast cancer associated fibroblasts The citrus flavonone hesperetin inhibits growth of aromatase-expressing MCF-7 tumor in ovariectomized athymic mice Alcohol Promotes Mammary Tumor Development via the Estrogen Pathway in Estrogen Receptor Alpha-Negative HER2/neu Mice Genistein induces breast cancer-associated aromatase and stimulates estrogen-dependent tumor cell growth in in vitro breast cancer model Dietary flavones and flavonones display differential effects on aromatase (CYP19) transcription in the breast cancer cells MCF-7 Pomegranate Ellagitannin-Derived Compounds Exhibit Antiproliferative and Antiaromatase Activity in Breast Cancer Cells In vitro Expression profile of CYP19 in human breast cancer cell lines treated with indole-3-carbinol, 3,3'-diindolylmethane, and sulforaphane Dietary genistein negates the inhibitory effect of letrozole on the growth of aromatase-expressing estrogen-dependent human breast cancer cells (MCF-7Ca) in vivo Anti-Aromatase Activity of Phytochemicals in White Button Mushrooms (Agaricus bisporus)