Prepubertal physical activity up-regulates estrogen receptor beta, BRCA1 and p53 mRNA expression in the rat mammary gland.

Findings in BRCA1 mutation carriers suggest that physical activity, particularly during childhood, may be linked to a reduced risk of developing breast cancer. We investigated whether physical activity at puberty alters the expression of BRCA1 and two other tumor suppressor genes--p53 and estrogen receptor (ER)-beta--in rats. In addition, the effects on ER-alpha expression, mammary proliferation and functional epithelial differentiation were investigated as markers of altered mammary cancer risk in rats exposed to regular physical activity at puberty. Female Sprague Dawley rat pups were randomized to voluntary exercise, sham-exercise control and non-manipulated control groups. Treadmill training (20-25 m/min, 15% grade, 30 min/day, 5 days/week) started on postnatal day 14 and continued through day 32. Third thoracic mammary glands (n = 5 per group and age) were obtained at days 32, 48 and 100 and assessed for changes in morphology through wholemounts, and at 100 days cell proliferation by using Ki67 staining, protein levels of ER-alpha and ER-beta by immunohistochemistry, and mRNA expression levels of BRCA1, p53, ER-alpha and ER-beta by real-time PCR. Mammary glands of rats exposed to exercise during puberty contained fewer terminal end buds (TEBs) and a higher number of differentiated alveolar buds and lobules than the sham controls. However, cell proliferation was not significantly altered among the groups. ER-alpha protein levels were significantly reduced, while ER-beta levels were increased in the mammary ducts and lobular epithelial structures of 100-day old rays which were voluntarily exercised at puberty, compared to sham controls. ER-beta, BRCA1 and p53 mRNA levels were significantly higher in the mammary glands of 100-day-old exercised versus sham control rats. Pubertal physical activity reduced mammary epithelial targets for neoplastic transformation through epithelial differentiation and it also up-regulated tumor suppressor genes BRCA1, p53 and ER-beta, and reduced ER-alpha/ER-beta ratio in the mammary gland. It remains to be determined whether the up-regulation of BRCA1, and perhaps p53, explains the protective effect of childhood physical activity against breast cancer in women who carry a germline mutation in one of the BRCA1 alleles.

Reversal of increased mammary tumorigenesis by valproic acid and hydralazine in offspring of dams fed high fat diet during pregnancy.

Maternal or paternal high fat (HF) diet can modify the epigenome in germ cells and fetal somatic cells leading to an increased susceptibility among female offspring of multiple generations to develop breast cancer. We determined if combined treatment with broad spectrum DNA methyltransferase (DNMT) inhibitor hydralazine and histone deacetylase (HDAC) inhibitor valproic acid (VPA) will reverse this increased risk. C57BL/6 mouse dams were fed either a corn oil-based HF or control diet during pregnancy. Starting at age 7 weeks, female offspring were administered 3 doses of 7,12-dimethylbenz[a]anthracene (DMBA) to initiate mammary cancer. After last dose, offspring started receiving VPA/hydralazine administered via drinking water: no adverse health effects were detected. VPA/hydralazine reduced mammary tumor multiplicity and lengthened tumor latency in HF offspring when compared with non-treated HF offspring. The drug combination inhibited DNMT3a protein levels and increased expression of the tumor suppressor gene Cdkn2a/p16 in mammary tumors of HF offspring. In control mice not exposed to HF diet in utero, VPA/hydralazine increased mammary tumor incidence and burden, and elevated expression of the unfolded protein response and autophagy genes, including HIF-1α, NFkB, PERK, and SQSTM1/p62. Expression of these genes was already upregulated in HF offspring prior to VPA/hydralazine treatment. These findings suggest that breast cancer prevention strategies with HDAC/DNMT inhibitors need to be individually tailored.

The role of early life genistein exposures in modifying breast cancer risk.

Review of the existing literature suggests that consumption of soy foods or an exposure to a soy isoflavone genistein during childhood and adolescence in women, and before puberty onset in animals, reduces later mammary cancer risk. In animal studies, an exposure that is limited to the fetal period or adult life does not appear to have the same protective effect. A meta-analysis of human studies indicates a modest reduction in pre- and postmenopausal risk when dietary intakes are assessed during adult life. These findings concur with emerging evidence indicating that timing may be vitally important in determining the effects of various dietary exposures on the susceptibility to develop breast cancer. In this review, we address the mechanisms that might mediate the effects of an early life exposure to genistein on the mammary gland. The focus is on changes in gene expression, such as those involving BRCA1 and PTEN. It will be debated whether mammary stem cells are the targets of genistein-induced alterations and also whether the alterations are epigenetic. We propose that the effects on mammary gland morphology and signalling pathways induced by pubertal exposure to genistein mimic those induced by the oestrogenic environment of early first pregnancy.

Preventing excessive weight gain during pregnancy - a controlled trial in primary health care.

OBJECTIVE: To investigate whether individual counselling on diet and physical activity during pregnancy can have positive effects on diet and leisure time physical activity (LTPA) and prevent excessive gestational weight gain. DESIGN: A controlled trial. SETTING: Six maternity clinics in primary health care in Finland. The clinics were selected into three intervention and three control clinics. SUBJECTS: Of the 132 pregnant primiparas, recruited by 15 public health nurses (PHN), 105 completed the study. INTERVENTIONS: The intervention included individual counselling on diet and LTPA during five routine visits to a PHN until 37 weeks' gestation; the controls received the standard maternity care. RESULTS: The counselling did not affect the proportion of primiparas exceeding the weight gain recommendations or total LTPA when adjusted for confounders. The adjusted proportion of high-fibre bread of the total weekly amount of bread decreased more in the control group than in the intervention group (difference 11.8%-units, 95% confidence interval (CI) 0.6-23.1, P=0.04). The adjusted intake of vegetables, fruit and berries increased by 0.8 portions/day (95% CI 0.3-1.4, P=0.004) and dietary fibre by 3.6 g/day (95% CI 1.0-6.1, P=0.007) more in the intervention group than in the control group. There were no high birth weight babies (>or=4000 g) in the intervention group, but eight (15%) of them in the control group (P=0.006). CONCLUSIONS: The counselling helped pregnant women to maintain the proportion of high-fibre bread and to increase vegetable, fruit and fibre intakes, but was unable to prevent excessive gestational weight gain.

Breast cancer risk in rats fed a diet high in n-6 polyunsaturated fatty acids during pregnancy.

BACKGROUND: Women who took the synthetic estrogen diethylstilbestrol during pregnancy exhibit an elevated risk of breast cancer, whereas those who suffered from preeclampsia, which is associated with low circulating pregnancy estrogens, exhibit a reduced risk. Since a high-fat diet may increase circulating estrogen levels and possibly breast cancer risk, dietary factors during pregnancy could influence the risk of developing this disease. PURPOSE: We tested the hypothesis that consumption of a high-fat diet during pregnancy increases carcinogen-induced mammary tumor incidence in rats. METHODS: Pregnant or virgin female Sprague-Dawley rats that had been previously treated with 10 mg 7, 12-dimethylbenz[a]anthracene (DMBA) by oral gavage when 55 days old were assigned to one of two isocaloric diets containing either 16% calories from fat (low-fat) or 43% calories from fat (high-fat) for the length of pregnancy or for the equivalent time of approximately 21 days. There were 20 pregnant and 10 nonpregnant DMBA-treated rats per group. Ten additional pregnant animals (not previously treated with DMBA) per group were used for hormone analysis. The fat source used was corn oil, which is high in n-6 polyunsaturated fatty acids, primarily linoleic acid. The animals were checked for tumors at least once per week by palpation. The tumor size, number, and latency to appearance after carcinogen exposure were recorded. The statistical significance of observed differences was tested by use of appropriate two-sided tests. RESULTS: Female rats on different diets had virtually identical food intakes and weight gains during pregnancy. On gestation day 19, serum estradiol levels were approximately twofold higher in rats fed a high-fat diet than in rats fed a low-fat diet (P < .02). The serum insulin levels and insulin/glucose ratios (an index of insulin resistance) in rats fed the high-fat diet were approximately twofold lower than in rats fed the low-fat diet, but the differences did not reach statistical significance (P < .09 and P < .09, respectively). On week 18 following DMBA administration, the number of rats developing mammary tumors was significantly higher in the group exposed to a high-fat diet (40% of animals) than in the group exposed to a low-fat diet (10% of animals) during pregnancy (P < .05). Tumor multiplicity, latency to tumor appearance, and size of tumors upon first detection were similar among the dietary groups. No intergroup differences in the mammary tumor incidence were noted in virgin animals that were exposed to the high- or low-fat diets for an equivalent period of time. CONCLUSIONS: Our findings indicate that consumption of a diet high in fat (primarily in the form of n-6 polyunsaturated fatty acids) during pregnancy increases the risk of developing carcinogen-induced mammary tumors, possibly by increasing the pregnancy levels of circulating estrogens. IMPLICATIONS: If further studies find that the results from animal model studies are applicable to humans, some human breast cancers may be preventable by dietary manipulations during pregnancy.

Estrogens, BRCA1, and breast cancer.

Findings obtained in in vitro assays and animal studies indicate that estrogens might influence the activity of the tumor suppressor gene BRCA1, and BRCA1 in turn may suppress the activity of the estrogen receptor. This review will discuss the possibility that interactions between estrogens and BRCA1 partly explain why elevated circulating estrogen levels appear to increase breast cancer risk among postmenopausal women but not among young women. A hypothesis is proposed that estrogens have a dual role in affecting breast cancer risk. In young women whose breasts have not yet accumulated critical mutations required for cancer initiation and promotion, activation of BRCA1 by estrogens helps to maintain genetic stability and induce differentiation, and therefore estrogens do not increase breast cancer risk. Breasts of older women, in contrast, are likely to contain transformed cells whose growth is stimulated by estrogens. Although BRCA1 is also probably activated by estrogens in older women, its function may have been impaired, for example, due to increased methylation associated with aging. Estrogen exposure in women who carry germ-line mutations in BRCA1 may always increase breast cancer risk because estrogens would be able to cause DNA damage and increase genetic instability without being opposed by BRCA1-induced repair activity. This might lead to an increase in the number of overall mutations, including those that initiate breast cancer. In addition to increasing genetic instability, reduced BRCA1 activity may also be linked to changes in the mammary gland morphology that predispose individuals to breast cancer. For example, a persistent presence of lobules type 1, which are the least differentiated lobular structures in the human breast, is seen in the BRCA1 mutation carriers. The aim of this review is to discuss the role of premenopausal estrogens in breast cancer and to initiate more research that would lead to novel means of reducing breast cancer risk, particularly among BRCA1 mutation carriers.

Consumption of a high-fat diet alters estrogen receptor content, protein kinase C activity, and mammary gland morphology in virgin and pregnant mice and female offspring.

Previous studies have shown that a diet high in polyunsaturated fatty acids increases mammary tumor incidence in adult and pregnant mice and rats and in the female offspring. The present study investigated whether a high-fat diet alters the number of estrogen receptor (ER) binding sites and protein kinase C (PKC) activity in the mammary gland of these animals. In the female offspring, the effects of maternal exposure to a high-fat diet during pregnancy on development of the mammary epithelial tree were studied also. BALB/c mice were kept on a diet containing either 43% (high-fat) or 16% (low-fat) calories from corn oil, which consists mostly of n-6 polyunsaturated fatty acids, for 1 month. In adult female mice, a 6-fold increase in the number of ER binding sites and 2-fold increase in PKC activity were found in the mammary glands of the high-fat mice when compared with the low-fat mice. In pregnant mice, a high-fat diet increased ER binding sites by 61% and PKC activity by 51%. In contrast to adult and pregnant mice, females exposed to a high-fat diet only in utero through their pregnant mother exhibited a significantly reduced number of mammary ER binding sites by age 45 days (78% decrease) and a reduction in PKC activity by ages 30 and 100 days (44 and 20% decrease, respectively). The mammary epithelial tree of the high-fat offspring contained more terminal end buds and was less differentiated than that of the low-fat offspring. These findings show that consumption of a high-fat diet increases ER and PKC in the adult and pregnant mouse mammary gland, perhaps contributing to the fat-induced promotion of mammary tumorigenesis. In contrast, reduced ER and PKC following a high-fat exposure in utero may be associated with increased susceptibility to carcinogenesis, possibly due to an increased number of terminal end buds that are the sites of neoplastic transformation in the mammary gland.

Effects of tryptophan on depression and aggression in STZ-D mice.

Streptozocin-induced diabetic (STZ-D) mice have reduced brain concentrations of tryptophan, a precursor substance for 5-hydroxytryptamine, and show lengthened immobility in Porsolt's swim test, a putative animal model of depression. This study investigated whether tryptophan affects behavior in Porsolt's swim test in STZ-administered male National Institutes of Health Swiss mice. In addition, the effect of tryptophan on behavior in the resident-intruder test of aggression was studied. Tryptophan is effective in the treatment of mild depression and may reduce aggressive behavior. Diabetes was induced with injection of 200 mg/kg body wt i.p. STZ. Two weeks after STZ treatment, the mice received 0, 50, and 100 mg/kg i.p. tryptophan 60 min before the swim test. The STZ-administered mice exhibited lengthened immobility in the swim test, and tryptophan caused a dose-related shortening in their immobility times. The control and STZ mice, which were isolated for 1 wk before the resident-intruder test, did not show any difference in the time spent in social investigation or aggressive or defensive behaviors. However, 100 mg/kg i.p. tryptophan 60 min before the test reduced the social interaction and aggressive behavior of the STZ-D mice but increased these behaviors in controls. Results indicate that tryptophan shortens the increased immobility time and reduces social and aggressive behavior in STZ-D mice. Therefore, the reported reductions in the brain-tryptophan concentrations in STZ-D mice may participate in regulating their behavior.

Nutritional modulation of the cell cycle and breast cancer.

In the USA, breast cancer accounts for approximately 30% of all cancers diagnosed in women and is the second leading cause of cancer death in women. An understanding of the molecular genetic events governing breast cancer lead to both prevention and intervention strategies in an attempt to reduce mortality and morbidity from breast cancer. The last three decades of medical research examining the molecular pathogenesis of cancers have provided compelling evidence for the universal disruption of the cell cycle in human tumors. The importance of cell cycle control in human cancer was recognized by the recent award of the Nobel Prize to Drs Nurse and Hartwell for their discovery of the cyclins. More recent studies have demonstrated a critical interface between hormonal signaling and the cell cycle. In parallel, epidemiological studies have identified as being associated with breast cancer important dietary and environmental components that regulate hormonal signaling. This review describes the intersection of these two fields of study, which together imply a role for dietary prevention and intervention in human breast cancer perhaps through altering cell cycle components.

Hypomethylation of an exon I estrogen receptor CpG island in spontaneous and carcinogen-induced mammary tumorigenesis in the rat.

Loss of methylation at a CpG island in exon I of the rat ER gene was observed in 48% of the spontaneous mammary tumors in old female Wistar rats and 22% of the contralateral normal mammary tissues. The majority of the methylation losses were total. Similarly, 50% of 7,12-dimethylbenz[a]anthracene (DMBA)-induced mammary tumors in young Sprague-Dawley rats exhibited a partial or total loss of methylation at this site, while all normal mammary tissues in young rats were fully methylated. Loss of ER methylation also increased with age in normal mammary tissues of tumor-free rats approaching 12.5% in middle-aged and 43% in old rats. In addition, 66% of mammary glands obtained from young rats that are subsequently at an increased risk to develop breast cancer due to manipulation of in utero dietary fat intake, exhibited methylation loss while no methylation changes were observed in rats at no increased risk for breast cancer. Therefore, the loss of ER methylation is more extensive in mammary glands of rats at high than low breast cancer risk, in old than young, and in mammary tumors than in normal tissues. The data suggest that hypomethylation of a growth-associated ER gene may be a common event in mammary tumorigenesis in the rat and may be of predictive value as a marker of increased breast cancer risk in aged individuals.

Genistein: does it prevent or promote breast cancer?

Diet is estimated to contribute to approximately 50% of all newly diagnosed breast cancers. As such, a search for dietary factors differentially consumed among populations with increased breast cancer risk (e.g., Caucasians) compared to those with low risk (e.g., Asians) has become a priority. One such dietary component, which is typical to the Asian but not the Caucasian diet, is soy. We review data relevant to attempts to determine whether soy, and more specifically genistein, is a dietary component that may help to explain the dramatic disparity in breast cancer risk among these populations.

Overexpression of transforming growth factor alpha in transgenic mice alters nonreproductive, sex-related behavioral differences: interaction with gonadal hormones.

Sexually dimorphic differences in voluntary sodium intake, locomotor activity, immobility in the swim test, and aggressive behavior were found to be altered in transgenic CD-1 mice that overexpressed transforming growth factor alpha (TGF alpha). In contrast to nontransgenic CD-1 mice, immobility in the swim test was longer and sodium intake higher in the male TGF alpha mice than in the female TGF alpha mice. These findings indicate that the male TGF alpha mice exhibited feminization of some behaviors. Furthermore, the male TGF alpha mice were highly aggressive. Castration reversed the behavioral effects in the adult male transgenic mice, but ovariectomy did not reverse the behavioral effects in the adult female transgenic mice. Thus the feminizing effect of TGF alpha on some nonreproductive behaviors and increased aggressive behavior in male mice may be mediated through an interaction between this growth factor and gonadal hormones.

Social status and voluntary alcohol consumption in mice: interaction with stress.

Dominant rats are found to consume less alcohol than their subordinate cage-mates. It is unclear whether the difference is due to dominant, aggressive animals consuming low levels of alcohol or whether social stress increases alcohol intake in subordinate animals. The present study investigated alcohol drinking patterns in aggressive alpha mice, their fight-stressed submissive cage-mates and non-fighting control mice before and after the establishment of social hierarchies. The results revealed that both moderately and severely fight-stressed submissive mice showed increased consumption of 5% alcohol, expressed as g/kg, but only severely wounded submissive mice showed increased alcohol preference over total fluid consumption, as compared with alpha mice. The difference in alcohol consumption was not seen prior to the establishment of submissive and alpha status, indicating that the submissive mice increased their alcohol consumption only after experiencing fight-stress. The amount of alcohol consumed did not differ between alpha and non-fighting control mice. To further investigate the possible connection between alcohol intake and aggressivity, the mice were studied in the resident-intruder test before group-housing. The results failed to show a consistent pattern of correlations between the time spent in aggression in this test and subsequent alcohol intake measures. The data indicate that severe fight-stress increases alcohol consumption in mice. Alcohol intake of aggressive, dominant alpha mice is not significantly altered, as compared with non-fighting animals. Furthermore, the level of aggressiveness prior to the establishment of social status does not directly affect alcohol consumption.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of alcohol on elevated aggressive behavior in male transgenic TGF alpha mice.

The effect of alcohol on aggressive behavior was studied in the highly aggressive transgenic TGF alpha male mouse. In contrast to findings obtained in other aggressive animals, low and moderate doses of alcohol failed to reduce this behavior in the TGF alpha mice; only a high dose reduced aggression. The plasma levels of alcohol were similar in the TGF alpha mice and non-transgenic control mice. However, the loss of righting reflex following an alcohol administration was significantly lengthened in the TGF alpha mice. These results suggest that the male TGF alpha mice can be used to investigate the mechanisms determining the physiological sensitivity to alcohol. Furthermore, these mice represent the first animal model supporting the findings obtained in humans that alcohol maintains pathological aggression.

Effects of early postnatal handling on brain beta-adrenoceptors and behavior in tests related to stress.

The present study investigated the effects of early postnatal handling and temporary maternal isolation, between the 5th and 20th postnatal days, on various behaviors related to stress measured in adulthood in male Wistar rats. In addition, beta-adrenoceptor binding in the brain was measured. The handling consisted of daily 3-min sessions during which a pup was gently held by an investigator. The isolated rat pups were kept separated from their nursing mothers for 1 h daily. Subsequently, it was found that the time spent immobile in Porsolt's swim test was shortened, and voluntary alcohol (5% v/v) consumption was reduced in the handled rats, as compared with the non-handled and isolated animals. No differences in the measure of anxiety--food consumed in a novel environment--or the time spent in social, aggressive and defensive behaviors in a resident-intruder paradigm, were noted. Neither did the density or affinity of beta-adrenoceptors in the frontal cortex or hippocampus differ significantly between the groups. The results indicate that short-lasting maternal separation does not cause sustained effects on behavior in the rat. Early postnatal handling leads to shortened immobility in the swim test and reduced voluntary alcohol consumption, suggesting that handled rats show an improved ability to cope with stress.

Alterations in behavior, steroid hormones and natural killer cell activity in male transgenic TGF alpha mice.

The expression of transforming growth factor alpha (TGF alpha) is widely distributed throughout many normal and neoplastic tissues, but its physiological significance remains unclear. We have utilized male transgenic mice overexpressing the gene encoding human TGF alpha in multiple tissues to further identify those functions which are influenced by this protein. Male TGF alpha mice develop hepatocellular carcinoma at the age of 10-15 months. At the age of 2-3 months these mice, compared to age matched CD-1 controls, spent significantly longer times immobile in Porsolt's swim test, a model of stress and depressive behavior, and exhibiting aggressive behavior in the resident-intruder test. In contrast, the transgenic TGF alpha mice did not differ from the controls in either the plusmaze test of anxiety, or in their voluntary alcohol intake. Significantly, the TGF alpha mice exhibited a 25% lower Natural Killer (NK) cell activity and a four-fold increase in the plasma levels of 17-beta-estradiol (E2) than the controls. No significant changes in plasma testosterone or corticosterone levels were noted. The results indicate that transgenic male mice overexpressing TGF alpha exhibit behaviors characteristic of both an impaired ability to cope with stress and an increased aggressivity. The TGF alpha mice also show reduced NK cell activity and increased plasma estradiol concentrations. The present data suggest that TGF alpha may be important in influencing behavioral, immunological and hormonal systems prior to the onset of tumors. It remains to be determined whether hepatocarcinoma is associated with the direct proliferative and transforming effects of TGF alpha and/or indirect effects mediated through immune, hormonal and behavioral mechanisms.

Effects of tryptophan and serotonin uptake inhibitors on behavior in male transgenic transforming growth factor alpha mice.

Our findings have implicated that transgenic male mice overexpressing human growth factor alpha (TGF alpha) exhibit lengthened immobility in the swim test and elevated levels of aggression in the resident-intruder test. Further, these animals have a reduced ratio between the metabolite of serotonin (5-HT), and 5-HT in the brain. The present study investigated whether pharmacological manipulations of serotonergic transmission affect the altered behavioral patterns of the male TGF alpha mice. For that purpose, we used tryptophan (0, 50 or 100 mg/kg), a precursor substance to 5-HT, and 5-HT uptake inhibitors, zimelidine (0, 12.5 or 25 mg/kg) and clomipramine (0, 10 or 20 mg/kg). Administration of tryptophan or zimelidine significantly shortened immobility in the swim test in the TGF alpha male mice. Tryptophan or clomipramine did not influence the male non-transgenic CD-1 mice, and zimelidine significantly lengthened their immobility. High levels of aggression were completely reversed by zimelidine or clomipramine in the transgenic male mice. Neither of these compounds altered behavior of the control mice in the resident-intruder test. Tryptophan failed to affect aggressive behavior in the TGF alpha or control male mice. These results suggest that TGF alpha may influence behavior by affecting the uptake of 5-HT in neurons.

Trimester-specific reference intervals for thyroxine and triiodothyronine in pregnancy in iodine-sufficient women using isotope dilution tandem mass spectrometry and immunoassays.

BACKGROUND: Accurate assessment of the pregnant woman's thyroid status is critical, for both the initiation of thyroid hormone therapy and for the adjustment of thyroid hormone dose in those already receiving thyroid hormone. Trimester-specific intervals are especially important during pregnancy when thyroid insufficiency may be associated with adverse obstetric outcome and fetal neurodevelopmental deficits. We defined pregnancy-specific reference intervals for thyroxine (T4) and 3,5,3'-triiodothyronine (T3). We used a novel isotope dilution tandem mass spectrometry (LC/MS/MS) method, and compare these to reference intervals obtained by immunoassays (IAs) performed on the same samples. METHODS: Concentrations of circulating T4 and T3 were measured simultaneously during first, second and third trimesters and postpartum in iodine-sufficient, healthy, singleton pregnancies using API-3000 LC/MS/MS with deuterium-labeled internal standard (L-thyroxine-d2). Immunoassays were conducted on the same samples (T4 Dade Behring RxL, T3 DPC-Immunolite). RESULTS: Linear regression is reported for method comparisons; for T4, the slope decreased from r=0.900 in nonpregnant women to 0.802-0.820 during pregnancy. For T3, correlations between LC/MS/MS and immunoassays were weaker in all cases (r=0.407-0.574). CONCLUSION: In this longitudinal study, we established trimester-specific reference intervals for T4 and T3 by LC/MS/MS and compare these to intervals obtained by immunoassays.

Maternal genistein exposure mimics the effects of estrogen on mammary gland development in female mouse offspring.

Human and animal data indicate that a high maternal estrogen exposure during pregnancy increases breast cancer risk among daughters. This may reflect an increase in the epithelial structures that are the sites for malignant transformation, i.e., terminal end buds (TEBs), and a reduction in epithelial differentiation in the mammary gland. Some phytoestrogens, such as genistein which is a major component in soy-based foods, and zearalenone, a mycotoxin found in agricultural products, have estrogenic effects on the reproductive system, breast and brain. The present study examined whether in utero exposure to genistein or zearalenone influences mammary gland development. Pregnant mice were injected daily with i) 20 ng estradiol (E2); ii) 20 microg genistein; iii) 2 microg zearalenone; iv) 2 microg tamoxifen (TAM), a partial estrogen receptor agonist; or v) oil-vehicle between days 15 and 20 of gestation. E2, genistein, zearalenone, and tamoxifen all increased the density of TEBs in the mammary glands. Genistein reduced, and zearalenone increased, epithelial differentiation. Zearalenone also increased epithelial density, when compared with the vehicle-controls. None of the treatments had permanent effects on circulating E2 levels. Maternal exposure to E2 accelerated body weight gain, physical maturation (eyelid opening), and puberty onset (vaginal opening) in the female offspring. Genistein and tamoxifen had similar effects on puberty onset than E2. Zearalenone caused persistent cornification of the estrus smears. These findings indicate that maternal exposure to physiological doses of genistein mimics the effects of E2 on the mammary gland and reproductive systems in the offspring. Thus, our results suggest that genistein acts as an estrogen in utero, and may increase the incidence of mammary tumors if given through a pregnant mother. The estrogenic effects of zearalenone on the mammary gland, in contrast, are probably counteracted by the permanent changes in estrus cycling.

Maternal exposure to genistein during pregnancy increases carcinogen-induced mammary tumorigenesis in female rat offspring.

A high estrogenic environment in utero may increase subsequent breast cancer risk. It was therefore determined whether a maternal exposure during pregnancy to the phytoestrogen genistein or zearalenone, both of which exhibit estrogenic activities in vitro and in vivo, alters breast cancer risk among female offspring. Pregnant rat dams were treated daily with subcutaneous injections of 20, 100 or 300 microgram genistein, 20 microgram zearalenone, or vehicle between days 15 and 20 of gestation. The offspring were given 7, 12-dimethylbenz(a)anthracene (DMBA) at the age of 2 months to induce mammary tumors. The results indicate that in utero exposure to genistein, but not to zearalenone, dose-dependently increased the incidence of DMBA-induced mammary tumors, when compared with the controls. Tumor growth characteristics were not altered. Prior to the carcinogen administration, the number of estrogen receptor (ER) binding sites, determined using a ligand binding assay, were significantly elevated in the mammary glands of genistein offspring. In contrast, the mammary protein kinase C (PKC) activity was significantly reduced in the genistein offspring. Our results suggest that a maternal exposure to subcutaneous administration of genistein can increase mammary tumorigenesis in the offspring, mimicking the effects of in utero estrogenic exposures. Further, increased ER protein levels and reduced PKC activity in the mammary gland may be involved in increasing susceptibility to carcinogen-induced mammary tumorigenesis in rats exposed to genistein in utero.