Brassica vegetable consumption shifts estrogen metabolism in healthy postmenopausal women

Previous studies suggest that the estrogen metabolite 16alpha-hydroxyestrone acts as a breast tumor promoter. The alternative product of estrogen metabolism, 2-hydroxyestrone, does not exhibit estrogenic properties in breast tissue, and lower values of the ratio 2-hydroxyestrone:16alpha-hydroxyestrone (2:16) in urine may be an endocrine biomarker for greater breast cancer risk. Vegetables of the Brassica genus, such as broccoli, contain a phytochemical, which may shift estrogen metabolism and increase the 2:16 ratio. Adding 500 g/day of broccoli to a standard diet shifts 2:16 values upward in humans; however, it is unknown as to whether healthy women are able to consume a sufficient quantity of Brassica to affect breast cancer risk through this mechanism. In this study, 34 healthy postmenopausal women participated in an intensive intervention designed to facilitate the addition of Brassica to the daily diet. The diet was measured by repeated 24-h recall, and estrogen metabolites were measured by enzyme immunoassay in 24-h urine samples. In a crude analysis, there was a nonsignificant increase in the urinary 2:16 ratio associated with greater Brassica consumption. With adjustment for other dietary parameters, Brassica vegetable consumption was associated with a statistically significant increase in 2:16 values, such that for each 10-g/day increase in Brassica consumption, there was an increase in the 2:16 ratio of 0.08 (95% confidence interval, 0.02-0.15). To the extent that the 2:16 ratio, as measured in urine, is associated with breast cancer risk, future research should consider Brassica vegetable consumption as a potentially effective and acceptable dietary strategy to prevent breast cancer

Androgen and estrogen dynamics: relationships with age, weight, and menopausal status

Previous studies have shown a relationship between age and weight and the MCR and conversions ([rho]) of androgens and estrogens. To assess the relative importance of these relationships in the metabolism and conversion of the androgens and estrogens, we used a series of statistical analyses, including t test, Pearson\u27s correlation, and a step-wise regression analysis of the data obtained from the constant infusion of radiolabeled androgens and estrogens to normal women, 18-90 yr old. The MCRs of testosterone (T), androstenedione (A), and estrone (E1) were strongly correlated with weight, but not age or menopausal status. The MCR of estradiol (E2) was strongly correlated with weight and less strongly correlated with age, but was not correlated with menopausal status. The interconversions of the androgens ([rho]T,ABB and [rho]A,TBB, i.e. percentage of precursor infused measured as product in blood) and estrogens ([rho]E1,E2BB and [rho]E2,E1BB) were not correlated with age or weight, but there was a weak correlation between [rho]T,ABB and menopausal status. The aromatization of androgens to estrogens ([rho] A,E1BM and [rho]T,E2BM, i.e. percentage of androgens infused measured as estrogen glucuronide in the urine) was highly correlated with age, less strongly correlated with weight, and not correlated with menopausal status. The correlation with weight and MCR is a reflection of the extrasplanchnic metabolism of steroids. The lack of correlation with weight for the interconversions of androgens and estrogens indicates that the enzyme(s) responsible is affected differently in extrasplanchnic tissue than is the aromatase complex. The relationship between age and aromatization, while strong, remains unexplained

Analysis of differential gene regulation in adequate versus inadequate secretory-phase endometrial complementary deoxyribonucleic acid populations from the rhesus monkey

The ability to create artificial menstrual cycles in the rhesus monkey provides a model for studies on the regulation of genes and gene networks by estradiol or progesterone (P) in the primate endometrium. This model allowed us to create both a normal level of secretory phase P or an inadequate level of secretory phase P, i.e. endometria that cannot support implantation. The objective of our present study focused on PCR analyses of genes for several factors that are believed to be important in the proper maturation of the endometrium. Complementary DNA (cDNA) populations were prepared from endometria harvested on day 13 (peak E level), days 21-23 of an adequate secretory phase (PcDNA) and days 21-23 of an inadequate secretory phase (IcDNA). Although placental protein 14, leukemia inhibitory factor and 17-beta hydroxysteroid dehydrogenase displayed highly upregulated levels in PcDNA (P-activated genes), there was little or no up-regulation in IcDNA. Transforming growth factor-beta 2 and its receptor and insulin growth factor-I and its receptor were up-regulated in PcDNA, whereas little or no expression was observed in IcDNA. Regulators of the cell cycle and transcription, such as retinoblastoma, c-fos, and c-jun genes, were also greatly underexpressed in IcDNA compared with PcDNA. Interestingly, one gene that we studied, keratinocyte growth factor, that was up-regulated by P (peak E levels vs. PcDNA) was more highly expressed in IcDNA. This latter result suggests that low levels of circulating P are sufficient for expression of this gene, whereas high sustained P levels result in an autologous down-regulation. These data show that the regulation of genes that may play pivotal roles in endometrial maturation are differentially expressed in IcDNA vs. PcDNA and may, in part, characterize improper endometrial maturation

Metabolic clearance rates and interconversions of estrone and 17β-estradiol in normal males and females

The continuous infusion of (3)H-6,7-estrone and (3)H-6,7-estradiol has been used to study the metabolic clearance rate (MCR), the interconversions, and the red cell uptake of these steroids in normal males and females. The whole blood MCR of estrone is 1,990 ± 120 liters per day/m(2) (SE) in males and 1,910 ± 100 liters per day/m(2) in females. The whole blood MCR of estradiol is 1,600 ± 80 liters per day/m(2) in males and 1,360 ± 40 liters per day/m(2) in females. The values in females do not vary significantly when studied in the follicular or luteal phase of the cycle. At least 35% of the total estrone metabolism in both sexes is extrasplanchnic and at least 25% of the total estradiol metabolism in males, and 15% in females is extrasplanchnic. The [ρ](BB)(2,1) [transfer constant of estradiol to estrone, which is equivalent to the fraction of the precursor (estradiol) converted to the product (estrone) when both the infusion of the precursor and the measurement of the product are in peripheral blood] is 15%; and the [ρ](BB)(1,2) [transfer constant of estrone to estradiol, which is equivalent to the fraction of the precursor (estrone) converted to product (estradiol) when both the infusion of the precusor and the measurement of the product are in peripheral blood] is 5% in both males and females. Our findings concerning the radioactivity in whole blood, as measured by our procedure, were the following: 15-20% of estrone in both sexes and 15% of estradiol in males is associated with red cells. Only 2% of the whole blood radioactivity of estradiol in females is associated with red cells. Changes in the distribution of radioactivity between plasma and red cells will influence the MCR as calculated from plasma, but not as calculated from whole blood

Recombinant human thyrotropin stimulates thyroid function and radioactive iodine uptake in the rhesus monkey

The administration of bovine TSH to stimulate thyroid radioactive iodine uptake to detect functioning thyroid tissue in man after surgery for thyroid cancer is rarely, if ever, used, due to allergic reactions and/or the development of TSH antibodies. Human (h) TSH would be far less likely to induce allergic reactions or TSH antibodies. Recombinant hTSH (rec-hTSH) was produced by a line of Chinese hamster ovary cells that had been transfected with cDNA for the two subunit proteins that comprise hTSH. The present study was carried out to determine the half-life of rec-hTSH in the monkey and its ability to stimulate thyroid function. The half-life of rec-hTSH after iv administration was approximately 63 min for the rapid phase and 326 min for the slow phase. After three daily im injections of 2 U rec-hTSH to two monkeys, serum T4 concentrations increased several-fold, and serum T3 increased 2-3 times above basal values. The 6 and 20 h thyroid 123I uptakes doubled after rec-hTSH administration. These results demonstrate the biological efficacy of rec-hTSH administered to the monkey and strongly suggest that rec-hTSH will be effective in stimulating thyroid function in man

Diet and sex hormone-binding globulin

The serum concentration of sex hormone-binding globulin (SHBG) is inversely related to weight and in animal studies is inversely related to protein intake. As SHBG can affect the biological activity of testosterone and estradiol, we wished to determine the role of protein intake on SHBG levels in men. Using data from the Massachusetts Male Aging Study we examined cross-sectional relationships between dietary components and SHBG levels in 1552 men (aged 40-70 yr) for whom these factors were known. Analyzed by multiple regression, controlling for testosterone and estradiol levels, age (