Epicutaneous Administration of 17ß-Estradiol Induces Langerhans Cells Depletion.

BACKGROUND: Langerhans cells (LC) number and function in mouse vaginal mucosa are affected by 17ß-estradiol (E2) application; nonetheless, its effect on epidermal LC has not been studied. The purpose of this study was to evaluate the effect of topical administration of E2 on the number, phenotype, and migratory ability of LC in mouse skin. METHODS: Ears of adult CD1 male mice were topically treated once with several doses. Immunohistochemical staining for CD207 and TUNEL staining were performed. LC migration to lymph nodes and the effect on the expression of costimulatory molecules on cultured dendritic cells (DC) were also evaluated. RESULTS: E2 decreased the number of CD207+ LC in a dose-dependent manner. One hour after treatment, 1 and 10 µg/mL E2 significantly reduced the LC number by 21% and 26%, respectively, after two hours, the reduction was 23% and 41%, respectively. After 48 hours, LC recovered, and after 96 hours of treatment, the CD207+/MHCII+ DC numbers were increased in regional lymph nodes. However, CD86 and CD40 molecules were expressed at lower levels than in positive control. The TUNEL assay did not show apoptotic cells. Furthermore, in cultured DC, E2 promoted a decrease in CD40 and CD86 expression and an increase in CD273, CD274, MHCII, and CCR7. CONCLUSIONS: The topical administration of E2 induced a transitory local diminution of LC population and a tolerogenic phenotype. This decrease in epidermal LC suggests that E2 may affect skin immune responses, inducing an inhibitory response, which should be considered when prescribing topical E2 medications.

In vivo and in vitro estrogenic profile of 17ß-amino-1,3,5(10)estratrien-3-ol.

17ß-amino-1,3,5(10)estratrien-3-ol (17ßAE2), is the 17ß-aminoestrogens prototype possessing anticoagulant activity, contrasting with the procoagulant effects of 17ß-estradiol (17ßE2). Its estrogenicity profile has not been reported, and it was evaluated by uterotrophic assay, estrogen receptor binding affinity and its ability to induce gene transcription of the human estrogen receptor (hER)α mediated in a Saccharomyces cerevisiae yeast expression system. Additionally, 17ßAE2 and 17αAE2 were compared with 17ßE2 in HeLa cells co-transfected with expression vectors for hERα or hERß subtypes and for an estrogen-responsive reporter gene. Immature female CD1 mice and Wistar rats (21 days old) were treated for three days with 17ßAE2 (10-5000 µg/kg), 17ßE2 (0.001-1000 µg/kg) or vehicle (propylenglycol 10 ml/kg) and uterine weights were estimated. 17ßAE2 increased uterine weight in a dose-dependent manner. The effective dose (ED)50 uterine weight values: 17ßAE2=552 and 764 µg/kg (17ßE2=4.8 and 16 µg/kg) and their relative uterotrophic potency were 0.86 and 2.1 (17ßE2=100) in mice and rats, respectively. 17ßAE2 competed with [(3)H]E2 for the estrogen receptor. The 17ßAE2 relative binding affinities (RBAs) were: 0.074; Ki=2.2×10(-6)M (17ßE2=100; Ki=1.6×10(-9)M); 0.029 and Ki=3.8×10(-6)M (17ßE2=100; Ki=1.1×10(-9)M) for mice and rats uteri respectively. 17ßAE2 activated hERα-mediated ß-galactosidase transcription activity in the yeast system co-transfected with hERα gene. 17ßAE2 effective concentration (EC)50=1.82 µM (17ßE2=2.14 nM) with a relative potency of 0.12 (17ßE2=100). These transactivation effects were abolished by the antagonist fulvestrant (ICI 182,780), similarly to 17ßE2. 17ßAE2 and 17αAE2 bind with low relative affinity to hERα and hERß. Both induced hER-mediated reporter gene transactivation in a dose-response manner. The overall results provide evidence that 17ßAE2 has a weak agonist estrogenic action greatly mediated through the hERß and to a lesser extent the hERα at genomic level.

Ovariectomy differential influence on some hemostatic markers of mice and rats.

Rodent ovariectomy is an experimental method to eliminate the main source of sexual steroids. This work explored for the first time the ovariectomy temporal changes induced in the hemostatic coagulation markers: prothrombin time (PT), activated partial thromboplastin time (aPTT), thrombin time (TT), and fibrinogen concentration (FIB) along with uterine weight on adult female CD1 mice and Wistar rats. Uterine weight (Uw) was assessed before ovariectomy (control), and 1, 3, 5, 7, 9, 16, and 21 days after surgery. PT, aPTT, TT and FIB were estimated the same days, using reported standard techniques. Ovariectomy decreased Uw, since day 1; and from day 10 to 21 reached the lowest values for both species. After day 1, mice hemostatic parameters changed (PT +10%, P<0.05; aPTT +53%, P<0.05; TT -24%, P<0.05; FIB +67%, P<0.05). Rats showed significant changes only in TT and FIB (TT -13%, P<0.001; FIB +65%, P<0.001). Neither mice PT, aPTT and TT, recovered control values after 21 days. In the rats from day 5 to 16 aPTT diminished (18-23%, P<0.05) recovering to control values on day 21, TT after 9 days and PT on day 16. In both species, FIB returned to its control values after 9 days. Ovariectomy differentially altered the PT hemostatic parameter of mice and rats indicating a non-equivalence among both species behaviour for experimental studies of blood coagulation.

In vivo profile of the anticoagulant effect of 17ß-amino-1,3,5(10)estratrien-3-ol.

The anticoagulant activity of 17ß-amino-1,3,5(10)estratrien-3-ol (AE(2)) was established for the first time. Experiment 1: mice groups were treated with a single subcutaneous (s.c.) AE(2) injection (0.5, 1, 2, 4, and 8 mg/100 g BW) or vehicle (propylenglycol; 0.5 ml/100 g). After 24 h, AE(2) produced dose-dependent blood clotting time increases related to control, Emax=+121% (P<0.01) finishing the sixth day. Experiment 2: four groups received a single s.c. administration of AE(2) (4 or 8 mg/100g BW) or 17ß-estradiol (E(2); 3mg/100g BW) or vehicle. After 24 and 48 h post-administration, the times of blood clotting, prothrombin, thrombin, and activated partial thromboplastin and fibrinogen concentrations were assessed. Both AE(2) doses increased blood clotting and fibrinogen similarly, blood clotting time: 64, 94%; fibrinogen: 71, 107% (P<0.01). Prothrombin, activated partial thromboplastin and thrombin times, increased 13-15%, 27-55%, and 15-29%, respectively (P<0.01). Meanwhile E(2) decreased blood clotting 20% (P<0.01) and thrombin 23% (P<0.01) after 48 h. Experiment 3: for five consecutive days, mice received AE(2) or E(2) (0.1, 1, 10, 100, and 1000 µg/kg/day), or vehicle. Blood clotting time was assessed at 1, 2, 3, 4, 5, 8, and 11 days after treatment. AE(2) at all doses were anticoagulant for 2-3 days after administration whereas E(2) was procoagulant for 8-11 days. These opposite effects were: AE(2) Emax=+29%; E(2) Emax=-30%; (P<0.01). AE(2) is the parent compound of the 17ß-aminoestrogens, with the largest and longest anticoagulant effect until now reported.

Gender differences in response to chronic treatment with 17ß-oestradiol and 17ß-aminoestrogen pentolame on hemostasis in rats.

OBJECTIVES: This work evaluated chronic treatment with 17ß-oestradiol (E2) and 17ß-aminoestrogen pentolame (AEP) on prothrombin time (PT), activated partial thromboplastin time (aPTT), thrombin time (TT), and fibrinogen concentration (FIB). Male (M) and ovariectomized (Ovx) Wistar rats were used to explore gender differences in the pharmacological response. MATERIALS AND METHODS: Rats (n=12-18) were treated every third day during three months with E2 (1, 10, 100 µg/kg), AEP (1, 10, 100, 500 µg/kg) or vehicle (propylenglycol 1 ml/ kg). PT, aPTT, TT, and FIB were measured using standardized techniques. RESULTS: Chronic treatment with E2 in male rats increased PT (4-7%; P<0.05), decreased aPTT (9%; 100 µg/kg; P<0.05) and decreased TT (5% at 100 µg/Kg; P<0.05). Chronic treatment with E2 in ovariectomized female rats decreased PT (3-4%; P<0.05), did not induce significant changes on aPTT and decreased TT in a dose dependent manner (12-27%; P<0.05). Chronic treatment with AEP in male rats did not alter PT, increased aPTT in a dose dependent manner (5-16%; P<0.05), and decreased TT (5%; 500 µg/Kg; P<0.05) while in female ovariectomized rats it decreased PT (5-9%; P<0.05), increased aPTT (8-13%; P<0.05) and decreased TT (6-13%; P<0.05). E2 and AEP decreased FIB in M and Ovx animals. Decreases in FIB by E2 were more pronounced in male (15-18% P<0.05) than in ovariectomized rats (10-14% P<0.05). E2 showed more potency than AEP, lowering FIB at 1 and 10 µg/kg doses. Both estrogens decreased FIB in ovariectomized animals (E2, 10-14%, P<0.05; AEP, 9% P<0.05) and were reverted by increasing dosage. CONCLUSIONS: Gender influenced response to chronic treatment with E2 and AEP on hemostatic parameters. PT and aPTT were the most affected parameters, demonstrating non-equivalence in the pharmacological response of M and Ovx rats.

Effect of the 17beta-aminoestrogen pentolame on bone mineral levels in ovariectomized rats.

Estrogens are fundamental to maintaining bone mineral balance. 17beta-aminoestrogens produce low estrogenic effects through ERalpha and ERbeta receptors, however their effects on bone tissue are unknown. This work evaluates the effects of the 17beta-aminoestrogen pentolame (AEP) and estradiol (E2) on the mineral profile of rat femur. Six months after ovariectomy (Ovx) adult Wistar rats (200-250g) were treated every third day for 30 days with subcutaneous (s.c.) injections of E2 (1, 10, 100 microg/kg), AEP (1, 10, 100, 500 microg/kg) or vehicle (propylenglycol; 1 ml/kg). After treatment, femur samples were prepared and Ca, P, Mg, Si, Fe, S, Na, K, and Cl concentration profiles were estimated using an X-ray analysis system coupled to an scanning electron microscope. Ovariectomy significantly decreased Ca, P, Mg and Si and increased Fe and S. Treatment with E2 restored Ca, P, Mg, and Si to the control values and decreased Fe and S in a dose dependent manner. AEP restored the levels of Ca, P, Mg and Si at all doses administered. AEP increased the levels of Fe and restored S to the basal level. The other minerals showed great variability and no significant differences were detected. Our results indicate differential action of AEP related to E2 in the restitution of bone mineral content.

In vivo and in vitro estrogen bioactivities of alkyl parabens.

The alkyl esters of p-hydroxybenzoic acid known as parabens (Pbens) are used as preservatives in food, pharmaceutical and cosmetic formulations. They have been reported as estrogenic. Here, we present evidence for the in vivo and in vitro bioactivities and receptor binding affinities of methylparaben (MePben), ethylparaben (EtPben), propylparaben (PrPben), and butylparaben (BuPben) compared with those of estradiol (E2). Estrogenicity was studied using the uterotrophic assay in immature (Im) and adult ovariectomized (Ovx) CD1 mice, and in immature female Wistar rats (IW). Animals were subcutaneously (sc) treated for three consecutive days with different molar equivalent doses ranging from 3.62 to 1086 micromol/kg body weight of Pbens, E2 (0.036 micromol/kg), or vehicle. Pbens increased uterine weight in Im and Ovx animals and their relative uterotrophic effect to E2 (100) (RUEE2) were from 34 to 91. The relative uterotrophic potencies related to E2 (100) (RUPE2) of these compounds were from 0.003 to 0.007. The E2 ED50 for CD1 animals able to increase the uterine weight was 7 microg/kg (0.9-55 confidence limits); and that of Pbens ranged from 18 to 74 mg/kg. In IW rats, the ED50 were from 33 to 338 mg/kg. All Pbens, except MePb, competed with [3H]E2 for the estrogen receptor binding sites. The uterotrophic effects of Pbens in Im mice have a positive correlation with the side-chain length of the ester group of these compounds. The E2 and Pbens relative binding affinities (RBA) and Ki values correlated to their estrogenic activity. The NOELs values for Pbens uterotrophic activity in Im were from 0.6 to 6.5 mg/kg per day; and Ovx from 6 to 55 mg/kg. The NOELs IW ranged from 16.5 to 70 mg/kg indicating that Im were more susceptible than Ovx and IW to these effects. The data shown here confirm the estrogenicity of Pbens.