Michelle S. Cotroneo scite author profile

We investigated the potential of genistein, the primary isoflavone of soy, to protect against breast and prostate cancers in animal models. For mammary cancer studies, Sprague-Dawley rats were fed AIN-76A diet plus minus 250 mg genistein/kg diet. Dimethylbenz[a]anthracene was administered by gavage at d 50 postpartum to induce mammary tumors. Mammary cancer chemoprevention was demonstrated after prepubertal and combined prepubertal and adult genistein treatments but not after prenatal- or adult-only treatments, demonstrating that the timing of exposure to genistein is important for mammary cancer chemoprevention. The cellular mechanism of action was found to be mammary gland and cell differentiation, as shown by whole-mount analysis and beta-casein expression. An imprinting effect was shown for epidermal growth factor receptor expression in mammary terminal end buds. For prostate cancer studies, we used two models. The first was a chemically (N-methylnitrosourea) induced prostate cancer rat model. Genistein in the diet inhibited the development of invasive adenocarcinomas in a dose-dependent manner. The second model was a transgenic mouse model that resulted in spontaneously developing adenocarcinoma tumor of the prostate. Genistein in the diet reduced the incidence of poorly differentiated prostatic adenocarcinomas in a dose-dependent manner and down-regulated androgen receptor, estrogen receptor-alpha, progesterone receptor, epidermal growth factor receptor, insulin-like growth factor-I, and extracellular signal-regulated kinase-1 but not estrogen receptor-beta and transforming growth factor-alpha mRNA expressions. We conclude that dietary genistein protects against mammary and prostate cancers by regulating specific sex steroid receptors and growth factor signaling pathways.

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Genistein studies in rats: potential for breast cancer prevention and reproductive and developmental toxicity

Lamartiniere

Zhang

Cotroneo

1998

The American Journal of Clinical Nutrition

117

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Asian women and men who consume a traditional diet high in soy products have low incidences of breast and prostate cancers, respectively. Yet Asians who immigrate to the United States and adopt a Western diet lose this protection. We investigated the potential of genistein, a component of soy, to protect against breast cancer and to cause reproductive and developmental toxicity. Our study showed that injections of genistein in rats during the prepubertal period resulted in a 50% reduction of chemically induced mammary tumorigenesis. Studies in mammary whole mounts revealed that prepubertal genistein exposure resulted in fewer terminal end buds and more lobules type II. Cell proliferation in the terminal end buds of adult rats treated prepubertally with genistein was less than that in animals treated with the vehicle (dimethyl sulfoxide). Reproductive and developmental toxicity studies did not find significant alterations to fertility, number of male and female offspring, body weight, anogenital distance, vaginal opening, testes descent, estrus cycle, or follicular development. We concluded that pharmacologic doses of genistein given to immature rats enhance mammary gland differentiation, resulting in a significantly less proliferative gland that is not as susceptible to mammary cancer. We speculate that breast cancer protection in Asian women consuming traditional soy-containing diets is, in part, derived from early exposure to genistein-containing soy. We believe that early programming events are essential for cancer protection benefits.

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Genistein action in the prepubertal mammary gland in a chemoprevention model

Cotroneo¹

2002

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A diet high in soy is associated with many health benefits, including reduced incidence of breast cancer. The soy phytoestrogen, genistein, is hypothesized to contribute to mammary chemoprevention via interaction with estrogen receptors (ERs) alpha and/or beta. These steroid signaling pathways are believed to exert control over proliferation and differentiation of the mammary gland by a complex bidirectional interaction with the epidermal growth factor (EGF) signaling pathway. The current work was designed to study the role of these two pathways in prepubertal mammary gland growth. Female Sprague-Dawley CD rats were injected with genistein (500 micro g/g body wt) or estradiol benzoate (EB) (500 ng/g body wt) on days 16, 18 and 20. Whole mount analysis of mammary glands from 21-day-old rats showed that both treatments resulted in significantly increased terminal end buds (TEBs), and increased ductal branching, compared with animals given the vehicle, dimethylsulfoxide (DMSO). Both effects were inhibited by blockage of ER function by pre-treating with 2 mg ICI 182,780/kg body wt, a steroidal anti-estrogen. Immunoblotting analyis of mammary gland extracts demonstrated increased epidermal growth factor receptor (EGFR) and progesterone receptor (PR) expression following treatment with EB or genistein. Tyrosine-phosphorylated EGFR, as measured by immunoprecipitation/immunoblotting was also increased, but when normalized to total receptors, there was no net effect. The expression and phosphorylation of downstream targets of the EGFR, mitogen activating kinase kinase (MEK 1 and 2) and extracellular signal regulated kinases 1 and 2 (ERK 1 and 2) were not significantly affected. Anti-estrogen pre-treatment prevented the increase in EGFR, phospho-EGFR and PR. The data indicate an ER-based mechanism of action for genistein in mammary gland proliferation and differentiation, which can lead to protection against mammary cancer.

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Sex steroid receptor regulation by genistein in the prepubertal rat uterus

Cotroneo

Wang

Eltoum

et al. 2001

Molecular and Cellular Endocrinology

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Pharmacologic, but Not Dietary, Genistein Supports Endometriosis in a Rat Model

Cotroneo

Lamartiniere²

2001

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Endometriosis is a disease in which uterine tissue proliferates in extrauterine sites. Using a surgical model to simulate endometriosis, we explored the potential for the phytoestrogen genistein, by injection and diet, to sustain endometriosis in rats. Uterine tissue was attached to intestinal mesentery of 8-week-old Sprague Dawley rats. After 3 weeks, the rats were ovariectomized and the implants measured. Following 3 weeks of daily injections or exposure to dietary genistein, animals were necropsied and implants located and measured. Injections of genistein (50 and 16.6 microg/g BW) or estrone (1 microg/rat) sustained the implants; injection of sesame oil (vehicle for estrone), dimethylsulfoxide (DMSO; vehicle for genistein), or genistein at 5.0 microg/g BW did not sustain implants. Dietary genistein (250 or 1000 mg genistein/kg AIN-76A diet) did not support the implants. In ovary-intact rats exposed to 250 mg genistein/kg AIN-76A diet, implant size was not altered, compared to control-fed animals. To assess estrogenic actions of genistein, we measured uterine estrogen receptor alpha (ER-alpha) and progesterone receptor (PR) isoforms A and B by Western blot analyses. Injections of estrone or genistein (50 or 16.6 microg/g BW) significantly reduced uterine ER-alpha compared to vehicle-treated animals. PR (B) was significantly increased by all injected doses of genistein or estrone and by the higher dietary dose (1000 mg genistein/kg AIN-76A). PR (A) was significantly increased by injected doses of genistein (16.6 and 5.0 microg/g BW). We conclude that pharmacologic injections, but not dietary physiological concentrations of genistein, support surgically induced endometriosis in rats. Our results suggest a critical role for ER modulation and genistein bioavailability in the maintenance of the implants.

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