Effects of anastrozole on the intratumoral gene expression in locally advanced breast cancer

Intratumoral levels of E₁ (oestrone), E₁S (oestrone sulphate) and E₂ (oestradiol) are significantly reduced by treatment with the aromatase inhibitor anastrozole regardless of treatment response. The purpose of the present pilot study was to look for additional markers of biochemical response to aromatase inhibitors on mRNA expression level. Whole genome expression was studied using microarray analysis of breast cancer tissue from 12 patients with locally advanced tumors, both before and following 15 weeks of treatment with the aromatase inhibitor anastrozole (Arimidex^®). Intratumoral mRNA levels for a subset of genes coding for steroid metabolizing enzymes, hormone receptors and some growth mediators involved in cell cycle control were analysed by quantitative RT-PCR. There was a correlation between the two methods for some but not all genes. The mRNA expression levels of the different genes were correlated to each other and to the intratumoral levels of E₁, E₂ and E₁S, before and after the treatment. Notably, a correlation of the E₁/E₂ metabolic ratio to the mRNA levels of CYP19A1 was observed before treatment (r = 0.745, p < 0.005). Whole genome expression analysis of these 12 breast cancer patients revealed similar tumor classification to previously published larger studies. Tumors with no or low expression of ESR1 (oestrogen receptor) clustered together and were characterized by a strong basal-like signature highly expressing keratins 5/17, cadherin 3, frizzled and apolipoprotein D, among others. The luminal epithelial tumor cluster, on the other hand, highly expressed ESR1, GATA binding protein 3 and N-acetyl transferase. An evident ERBB2 cluster was observed due to the marked over-expression of the ERBB2 gene and GRB7 and PPARBP in this patient material). Using significance analysis of microarrays (SAM), we identified 298 genes significantly differently expressed between the partial response and progressive disease groups.     

Role of the insulin-like growth factor system on an estrogen-dependent cancer phenotype in the MCF-7 human breast cancer cell line

We previously established that exposure of the estrogen receptor (ER) positive MCF-7 human breast cancer cell line to 17-β-estradiol (E₂) results in the post-confluent development of multilayered cellular aggregates (foci) which is consistent with the in vivo cancer phenotype of uncontrolled cellular proliferation. In this investigation, the interaction between the insulin-like growth factor receptor (IGF-IR) and ER-signaling systems in regard to post-confluent focus development was studied. We demonstrated that focus development requires the presence of E₂ and insulin-like growth factor I (IGF-I) or insulin-like growth factor II (IGF-II), as well as intact ER and IGF-IR.

Focus development in MCF-7 cultures, which occurs only after formation of a confluent monolayer, coincides with E₂ regulation of key members of the IGF-signaling system such as IGF-IR, IGF-II, insulin receptor substrate 1 (IRS-1), and insulin-like growth factor binding protein 3 (IGFBP-3), as demonstrated by real-time polymerase chain reaction (PCR). To establish the relevancy of an intact IGF-signaling system for foci formation, we generated stable clones from MCF-7 with IGF-IR suppressed by siRNA. Results from these studies implicate signaling through the IGF-IR to be an integral requirement for E₂-dependent post-confluent proliferation and focus formation. In summary, these studies establish the interactive roles of IGFs and E₂ in the post-confluent development of foci, and will allow subsequent identification of targets for therapeutic intervention in the control and treatment of estrogen-dependent breast cancer.     

蝉虫草样品的分级萃取与化学成分分析

利用索氏萃取技术,依次采用石油醚、乙酸乙酯、丙酮、无水乙醇和甲醇等5种溶剂对蝉虫草纯粉进行分级萃取,运用傅里叶变换红外光谱分析法和气相色谱-质谱联用技术对5级萃取物进行分析鉴定。傅里叶变换红外光谱分析显示萃取物中含有与烯烃类、羧酸类、酯类、醇类和酮类等化合物相关的C-H、C=O、C-O和C=C等官能团。气相色谱-质谱联用技术共鉴定出有机小分子化合物34种,以酯类和脂肪酸类为主,多为碳链长度为15-20的长链脂肪酸及对应的酯,其中十八碳不饱和脂肪酸相对含量高达28.95%;分别存在于两种或以上萃取物中的有机化合物共有11种;仅存于石油醚萃取物中的化合物6种,乙酸乙酯萃取物中3种,丙酮萃取物中2种,无水乙醇萃取物中6种,甲醇萃取物中6种。在一定极性范围内,利用溶剂的极性梯度变化,可实现蝉虫草中活性物质的按极性梯度分离;采用分级萃取技术可有效分离蝉虫草中部分化学成分。鉴定结果充实了蝉虫草中化合物的种类资源,为蝉虫草中活性物质谱图库的完善、构效关系的建立及蝉虫草产品的利用开发提供支撑。     

Competitive product inhibition of aromatase by natural estrogens

In order to better understand the function of aromatase, we carried out kinetic analyses to asses the ability of natural estrogens, estrone (E₁), estradiol (E₂), 16-OHE₁, and estriol (E₃), to inhibit aromatization. Human placental microsomes (50 μg protein) were incubated for 5 min at 37°C with [1β-³H]testosterone (1.24 × 10³ dpm ³H/ng, 35–150 nM) or [1β-³H,4-¹⁴C]androstenedione (3.05 × 10³ dpm ³H/ng, ³H/¹⁴C = 19.3, 7–65 nM) as substrate in the presence of NADPH, with and without natural estrogens as putative inhibitors. Aromatase activity was assessed by tritium released to water from the 1β-position of the substrates. Natural estrogens showed competitive product inhibition against androgen aromatization. The K_i of E₁, E₂, 16-OHE₁, and E₃ for testosterone aromatization was 1.5, 2.2, 95, and 162 μM, respectively, where the K_m of aromatase was 61.8 ± 2.0 nM (n = 5) for testosterone. The K_i of E₁, E₂, 16-OHE₁, and E₃ for androstenedione aromatization was 10.6, 5.5, 252, and 1182 μM, respectively, where the K_m of aromatase was 35.4 ± 4.1 nM (n = 4) for androstenedione. These results show that estrogens inhibit the process of andrigen aromatization and indicate that natural estrogens regulate their own synthesis by the product inhibition mechanism in vivo. Since natural estrogens bind to the active site of human placental aromatase P-450 complex as competitive inhibitors, natural estrogens might be further metabolized by aromatase. This suggests that human placental estrogen 2-hydroxylase activity is catalyzed by the active site of aromatase cytochrome P-450 and also agrees with the fact that the level of catecholestrogens in maternal plasma increases during pregnancy. The relative affinities and concentration of androgens and estrogens would control estrogen and catecholestrogen biosynthesis by aromatase.     

A Monoclonal Antibody to Oestradiol Potentiates the Stimulation of the Specific Activity of the Brain Type Creatine Kinase by Oestrogen in vivo and in vitro

We described previously the in vivo immunoneutralization effects of a high affinity anti-oestradiol antibody clone 15 in blocking ovulation and synaptic remodeling in cycling female rats. In the present study we report the enhancing effects of this antibody. Treatment of ovariectomized female rats or female derived skeletal cell cultures in vitro with anti-E₂ 15 plus oestrogen (E₂) potentiated the specific activity of the brain type creatine kinase (CK) response to E₂ in the rat tissues or skeletal cells. The enhancing CK response of anti E₂ 15 plus E₂ was time- and dose-dependent in the uterus, thymus, epiphysis and diaphysis of ovariectomized female rats. In the pituitary, on the other hand, anti-E₂ 15 blocked the stimulatory CK response to E₂. Two other high affinity anti-E₂ anti-bodies, clones 8D₉ and 11B₆, had no effect in augmenting the response of CK to E₂ in rat tissues. Moreover, the enhancing CK response in rat tissues was specific to anti-E₂ 15 plus E₂ since the intact anti-E₂ in the presence of other oestrogen mimetics, such as oestriol or stilbestrol or tamoxifen did not potentiate the CK response in rat tissues. In this model system the Fab' monomer of anti-E₂ 15 abolished the CK response to E₂ in rat tissues and not to anti-E₂ 15 plus E₂ whereas tamoxifen completely blocked the CK response to anti E₂ plus E₂. Anti E₂ 15 may therefore serve as a specific carrier in delivering E₂ to oestrogen sensitive rat tissues or cells containing functional oestrogen receptors and thereby increasing the magnitude of E₂ effects in vivo and in vitro.     

Interactions between FSH, estradiol-17β and transforming growth factor-β regulate growth and differentiation in the rat gonad

Estradiol-17β (E₂) is a mitogen in vivo for the proliferation of granulosa cells in the rat ovary. E₂ is synthesized by the preovulatory follicle through a series of gonadotrophin-dependent events: LH stimulates thecal cells to synthesize androgens (androstenedione and testosterone) which are substrates for FSH-induced aromatization to estrogens in granulosa cells. More recently, we have found that transforming growth factor-β (TGF-β) stimulates DNA synthesis in rat granulosa cells in vitro and this effect is augmented by FSH. Since E₂ is a mitogen in vivo and TGF-β is the only known growth factor to stimulate proliferation in vitro, the possible link between the actions of E₂ and TGF-β were examined. E₂ stimulated the secretion of a TGF-β-like factor by rat granulosa cells in culture, and with time DNA synthesis was stimulated. The mitogenic action of E₂ was enhanced in the presence of FSH, and attenuated by a neutralizing antibody to TGF-β. The latter observations have identified TGF-β as the “missing-link” in the mitogenic actions of E₂ on rat granulosa cells. In addition to the growth-promoting actions of TGF-β plus FSH, TGF-β enhanced FSH-induced aromatase activity. Consequently, FSH plus TGF-β stimulates both the proliferation and aromatization capacity of rat granulosa cells. We propose that interactions between FSH, E₂ and TGF-β lead to the exponential increase in serum E₂ levels that occurs during the follicular phase of the cycle. Similarly, FSH stimulates the aromatization of exogenous androgens to estrogen by Sertoli cells isolated from immature rat testes, and there is a correlation between FSH-induced aromatization and mitotic activity. We have shown that FSH plus TGF-β stimulates DNA synthesis in Sertoli cells. Since E₂ increases the secretion of TGF-β by Sertoli cells, interactions between FSH, E₂ and TGF-β may provide the mitogenic stimulus for Sertoli cells during the prepubertal period. In summary, our findings suggest that the estrogen-induced growth of rat granulosa cells is mediated through the production of TGF-β, which acts as an autocrine regulator of proliferation. We also propose that the growth-promoting actions of FSH on Sertoli cells may depend upon a cascade series of events involving estrogens and TGF-β.     

Estrone sulfate (E1S), a prognosis marker for tumor aggressiveness in prostate cancer (PCa)

Seeking insight into the possible role of estrogens in prostate cancer (PCa) evolution, we assayed serum E₂, estrone (E₁), and estrone sulfate (E₁S) in 349 PCa and 100 benign prostatic hyperplasia (BPH) patients, and in 208 control subjects in the same age range (50–74 years).

E₁ (pmol/L ± S.D.) and E₁S (nmol/L ± S.D.) in the PCa and BPH patients (respectively 126.1 ± 66.1 and 2.82 ± 1.78, and 127.8 ± 56.4 and 2.78 ± 2.12) were significantly higher than in the controls (113.8 ± 47.6 and 2.11 ± 0.96). E₂ was not significantly different among the PCa, BPH, and control groups. These assays were also carried out in PCa patients after partition by prognosis (PSA, Gleason score (GS), histological stage, and surgical margins (SM)). Significantly higher E₁S levels were found in PCa with: PSA > 10 ng/L (3.05 ± 1.92) versus PSA ≤ 10 ng/mL (2.60 ± 1.55), stage pT3-T4 (2.99 ± 1.80) versus pT2 (2.58 ± 1.58), and positive (3.26 ± 1.95) versus negative margins (2.52 ± 1.48). E₁ was higher in poor- than in better-prognosis PCa. E₂ was significantly higher in PCa with GS ≥ 4 + 3 (109.5 ± 43.8) versus GS ≤ 3 + 4 (100.6 ± 36.5) and increased significantly when GS increased from 3 + 3 to 4 + 4. Estrogens, especially E₁S appeared to be possible markers of PCa progression.

Attempting to identify potential sources of E₂ in PCa according to prognosis, as well as in BPH, we found a significant correlation coefficient between E₁S and E₂ (0.266–0.347) in poor-prognosis PCa and no correlation in BPH (0.026) and better-prognosis PCa (0.013–0.104).

It is as though during progression of PCa from good to poor prognosis there were a shift in the E₁ to E₂ metabolic pathway from predominantly oxidative to predominantly reductive.     

Estrogen stimulation of creatine kinase B specific activity in 3T3L1 adipocytes after their differentiation in culture: Dependence on estrogen receptor

We have demonstrated previously that rat adipose tissue showed sex and depot-specific responses to gonadal steroids. The epididymal fat pad in males responded exclusively to androgens by increased specific activity of the brain type isozyme of creatine kinase (CK). In females, the parametrial adipose tissue responded exclusively to estrogens. The present study was undertaken to follow the responsiveness to steroid hormones, and the presence of estrogen receptors (ER), in 3T3L1 cells during their differentiation from pre-adipocytes to adipocytes. In pre-adipocytes in which the basal CK specific activity is low, there was no CK response to 17β estradiol (E₂) or dihydrotestosterone (DHT). Differentiation of the cells into adipocytes was accompanied by increased basal CK activity which was stimulated by E₂, but not by DHT. Responsiveness to E₂ began 5 days after switching pre-adipocytes to differentiation medium. Upon differentiation, ER became demonstrable in the cell nuclei by staining with FITC labeled anti-idiotypic antibody (clone 1D5) directed against the steroid binding domain of ER. The response to E₂ was time-dependent and blocked completely by cycloheximide or actinomycin D. 1D5 itself, which has an estrogen mimetic effect, stimulated CK activity in the cells similarly to E₂. The antiestrogen tamoxifen which also stimulated CK activity in the adipocytes, completely blocked E₂ action. The ‘pure’ antagonist of E₂, ICI 164,384 and the tissue-selective antiestrogens, raloxifene or tamoxifen methiodide were also complete antagonists with no agonistic effects. The response of the 3T3L1 adipocytes to E₂ was upregulated by 1,25(OH)₂D₃. Moreover, IGF1 was also a potent stimulator of CK in these cells, and therefore may mediate partially the stimulation by E₂. Transient transfection of the pre-adipocytes with ER permitted E₂ induction of CK. Thus, the appearance of ER and concomitant responsiveness to E₂ is another hormone-related change occurring in 3T3L1 cells during differentiation, in addition to changes such as development of insulin responsiveness. The interactions in this system provide a useful in vitro model for investigating the development of responsiveness to E₂.     

Effects of 9-ene-tetrahydrocannabinol on expression of β-type transforming growth factors, insulin-like growth factor-I and c-myc genes in the mouse uterus

Effects of cannabinoid on expression of β-type transforming growth factors (TGF-β1, -β2 and -β3), insulin-like growth factor-I (IGF-I) and c-myc genes in the uteri of adult ovariectomized mice were examined using Northern blot hybridization. Mice were exposed to 9-ene-tetrahydrocannabinol (THC) alone or in combination with an injection of estradiol-17β (E₂) and/or progesterone (P₄), and uteri were analyzed at various times thereafter. TGF-β isoform messenger RNAs (mRNAs) persisted in ovariectomized uteri and their levels were not altered after THC treatment, whereas an injection of E₂ caused a modest increase in TGF-β1 and -β3 mRNA levels at 24 h. Imposition of THC treatment advanced the stimulatory effects of E₂ by changing the timing for the peak of TGF-β3 mRNA levels to 12 h. In comparison, E₂ treatment substantially elevated the levels of TGF-β2 mRNA at 6 h, and THC potentiated this E₂ response without affecting the timing for the response. Imposition of P₄ treatment did not antagonize any of these responses. P₄ treatment alone or with THC had insignificant effects on mRNA levels for these TGF-β isoforms. Uterine levels of IGF-I and c-myc mRNAs were low in ovariectomized mice and THC did not alter these mRNA levels. In contrast, E₂ treatment induced a rapid, but transient, increase in IGF-I and c-myc mRNAs, and THC antagonized the rapid c-myc mRNA response and altered the timing of the IGF-I mRNA response. P₄ treatment alone also caused the transient induction of these mRNAs, but THC failed to antagonize these effects. An injection of P₄ plus E₂ resulted in further modest increases in IGF-I and c-myc mRNA levels as compared to E₂ or P₄ treatment alone. However, THC did not antagonize these transient stimulatory effects of the combined ovarian steroids. The data suggest that THC should not be classified as estrogenic or antiestrogenic. However, this compound can modulate (potentiate, antagonize and/or alter timing) the effects of ovarian steroids on uterine gene expression.     

Aromatase activity, serum oestradiol and their correlation with demographic indices

Peripheral aromatase activity was measured in 24 postmenopausal women suffering from advanced breast cancer. The % conversion of androstenedione to oestrone was then assessed for a significant correlation with age, weight, height, Quetelets index (weight/height², Q.I.) and length of menopause. Serum oestradiol (E₂) levels were measured in 22 of the subjects and compared with the same indices. There was no correlation between E₂ or aromatase activity with the length of menopause (P = 0.3 and P = 0.5, respectively). In our data aromatase activity did not correlate with age (P > 0.5, N = 22). Serum E₂ levels (P = 0.07, N = 20) expressed a negative correlation (i.e. decreased) with age. There was also a poor correlation between aromatase activity and weight of Quetelets index (P = 0.3, N = 20 for both). Serum E₂ levels showed a statistically significant correlation with weight (P = 0.01, N = 21), but the relationship with Quetelets index just failed to attain statistical significance (P = 0.07, N = 20). In both cases the regression line was positive. When aromatase activity was correlated with serum E₂ levels the regression line was positive but not statistically significant (P = 0.4, N = 22). The data indicate that aromatase activity is only one factor determining the differences in serum E₂ levels between postmenopausal women.     

Adaptive hypersensitivity following long-term estrogen deprivation: involvement of multiple signal pathways

Long-term estrogen deprivation causes hypersensitivity of MCF-7 cells to the mitogenic effect of estradiol (E₂) which is associated with activation of mitogen-activated protein kinase (MAPK). However, several lines of evidence indicate that MAPK activation is not the exclusive mechanism for E₂ hypersensitivity and multiple signal pathways might be involved. The current study explores the possible role of the PI3 kinase (PI3K) pathway in development of E₂ hypersensitivity. Basal PI3K activity in long-term estrogen deprived MCF-7 cells (LTED) was elevated as evidenced by increased phosphorylation of three downstream effectors, Akt, p70 S6 kinase, and eukaryotic initiation factor-4E binding protein (4E-BP1), which was blocked by the specific inhibitor of PI3K, LY294002. Dual blockade of both MAPK and PI3K completely reversed E₂ hypersensitivity of LTED cells. Enhancement in aromatase activity is another phenomenon accompanied with E₂ hypersensitivity. In aromatase over-expressing MCF-7 cells, aromatase activity was reduced by inhibitors of MAPK and PI3K suggesting the involvement of protein phosphorylation in the regulation of aromatase activity. Our data suggest that in addition to the MAP kinase pathway, activation of the PI3 kinase pathway is involved in E₂ hypersensitivity, which develops during adaptation of MCF-7 cells to the low estrogen environment.     

Serum steroid hormones, sex hormone-binding globulin concentrations, and urinary hydroxylated estrogen metabolites in post-menopausal women in relation to daidzein-metabolizing phenotypes

Equol and O-desmethylangolensin (O-DMA) are products of bacterial metabolism of daidzein, an isoflavone in soybeans; thus, the presence or absence of equol and/or O-DMA in urine is a marker of particular intestinal bacteria profiles. Plasma hormone concentrations may be lower in pre-menopausal women who harbor the bacteria capable of producing equol (equol producers) compared to women who do not (equol non-producers). We evaluated concentrations of serum hormones, sex hormone-binding globulin (SHBG), and urinary 2-hydroxyestrone (2-OH E₁) and 16-hydroxyestrone (16-OH E₁) in relation to equol-producer and O-DMA-producer phenotypes in 89 post-menopausal women. Follicle stimulating hormone (FSH) was 23% greater in O-DMA-producers compared to non-producers (P=0.04). No significant differences in serum estrogens, androgens, metabolic hormones, or SHBG were observed in relation to either daidzein-metabolizing phenotype. Compared with non-producers within each phenotype, age-adjusted 2-OH E₁:16-OH E₁ was 27% greater (P=0.06) in equol-producers and 9% greater (P>0.10) in O-DMA-producers, and 2-OH E₁ concentrations were 24% greater in equol producers (P=0.07) and 42% greater in O-DMA producers (P=0.02). No significant differences in 16-OH E₁ were observed in relation to either phenotype. These results suggest that interindividual variability in intestinal bacteria may be related to differences in products of hormone metabolism in post-menopausal women.     

Flavin-linked peroxide reductases: protein-sulfenic acids and the oxidative stress response.

Sequence analyses of the Streptococcus faecalis NADH peroxidase and the flavoprotein component of the Salmonella typhimurium alkyl hydroperoxide reductase indicate clear evolutionary links with members of the flavoprotein disulfide reductase family. However, chemical and spectroscopic evidence demonstrate that the non-flavin redox center in NADH peroxidase is an unusual stabilized cysteine-sulfenic acid (Cys-SOH) derivative, and not a cystine disulfide as found in the disulfide reductases. This redox-active element, when appropriately stabilized by the respective protein environment, appears to play key roles in both the catalytic and regulatory aspects of the bacterial response to oxidative stress.     

Regulation of proliferation of rat cartilage and bone by sex steroid hormones

We have demonstrated previously that 17β-estradiol (E₂) stimulates proliferation of skeletal tissues, both in vivo and in vitro, as measured by increased DNA synthesis and creatine kinase (CK) specific activity. The effect of E₂ on bone is sex specific. E₂ is active only in females and androgens only in males. By contrast, in cartilage of both sexes, dihydrotestosterone (DHT) as well as E₂ stimulates CK specific activity and DNA synthesis. In bone, we find that sex steroids stimulate skeletal cell proliferation in gonadectomized as well as in immature rats. Ovariectomized (OVX) rats, between 1 and 4 weeks after surgery, show stimulation of CK by E₂. The basal activity and response of CK changes with the varying endogenous levels of E₂ in cycling rats, in which the highest basal activity is at proestrus and estrus and the highest response is in diestrus. In rats of all ages tested, both the basal and stimulated specific activity of CK is higher in diaphysis and epiphysis than in the uterus, or in the adipose tissue adjacent to the uterus, which has a response similar to that of the uterus itself. The effect of E₂ in vivo, and in chrondroblasts and osteoblasts in vitro, is inhibited by high levels of the antiestrogen tamoxifen which, by itself, in similar high concentrations, shows stimulatory effects. In addition to the sex steroids, skeletal cells are also stimulated by secosteroid and peptide calciotrophic hormones. The interactions of the sex steroids and the other calciotrophic hormones. These results provide the first steps towards understanding the regulation of bone cell proliferation and growth by the concerted action of a variety of hormones and growth factors.     

Redesigning the active-site of an acyl-CoA dehydrogenase: new evidence supporting a one-base mechanism

The acyl-CoA dehydrogenases are a family of related enzymes that share high structural homology and a common catalytic mechanism which involves abstraction of an -proton from the substrate by an active site glutamate residue. Several lines of investigation have shown that the position of the catalytic glutamate is conserved in most of these dehydrogenases (the E₂ site), but is in a different location in two other family members (the E₁ site). Using site specific in vitro mutagenesis, a double mutant rat short chain acyl-CoA dehydrogenase (rSCAD) has been constructed in which the catalytic glutamate is moved from the E₂ to the E₁ site (Glu368Gly/Gly247Glu). This mutant enzyme is catalytically active, but utilizes substrate less efficiently than the native enzyme (K_m = 0.6 and 2.0 μM, and V_max = 2.8 and 0.3 s⁻¹ for native and mutant enzyme respectively). In this study we show that both the wild-type and mutant rSCADs display identical stereochemical preference for catalysis—abstraction of the -H_R from the substrate followed by transfer of the β-H_R to the FAD coenzyme. These results, in conjunction with molecular modeling of the native and double mutant SCAD indicate that the catalytic base in the E₁ and E₂ sites are topologically similar and catalytically competent. However, analysis of the ¹H NMR spectra of the incubation products of these two enzymes revealed that, in contrast to the wild-type rSCAD, the Gly368Glu/Gly247Glu rSCAD could not perform γ-proton exchange of the product with the solvent, a property inherent to most acyl-CoA dehydrogenases. It is evident that the base in the mutant enzyme has access to the -H_R but is far removed from the γ-Hs. These findings provide further support for a one base mechanism of - and γ-reprotonation/deprotonation catalysis by acyl-CoA dehydrogenases.     

Evidence for the DNA binding and adduct formation of estrone and 17β-estradiol after dimethyldioxirane activation

Estrogens, used widely from hormone replacement therapy to cancer treatment, are themselves carcinogenic, causing uterine and breast cancers. However, the mechanism of their carcinogenic action is still not known. Recently, we found that estrone (E₁) and 17β-estradiol (E₂) could be activated by the versatile epoxide-forming oxidant dimethyldioxirane (DMDO), resulting in the inhibition of rat liver nuclear and nucleolar RNA synthesis in a dose-dependent manner in vitro. Since epoxidation is often required for the activation of chemical carcinogens, we proposed that estrogen epoxidation is the underlying mechanism for the initiation of estrogen carcinogenesis (Carcinogenesis 17 (1996) 1957–1961). It is known that initiation requires the binding of a carcinogen to DNA with the formation of DNA adducts. One of the critical tests of our hypothesis is therefore to determine whether E₁ and E₂ after activation are able to bind DNA. This paper reports that after DMDO activation, [³H]E₁ and [³H]E₂ were able to bind to both A-T and G-C containing DNAs. Furthermore, the formation of E₁–DNA and E₂–DNA adducts was detected by ³²P-postlabeling analysis.     

Effect of prostaglandins on protein, RNA, DNA and collagen synthesis in experimental wounds

The effect of exogenous prostaglandins E₁, E₂ and F₂ (PGE₁, PGE₂ and PGF₂) on ³H-leucine, ³H-uridine, ³H-thymidine and ³H-proline incorporation in experimental cutaneous wounds has been studied in rats.

Prostaglandins E₁ and E₂ markedly stimulate the incorporation of these tritiated precursors, into protein, RNA, DNA and collagen synthesis, whereas F₂ inhibits it. All tested prostaglandins exhibit their maximum effect within the first hours following administration. Most active is PGE₁. These observations indicate that application of prostaglandins significantly stimulate incorporation with protein, RNA, DNA and collagen synthesis in the skin of wounded rats and thus, may play a role in epidermal cell growth and division as well as in scar-forming tissue.