A dominant negative ERβ splice variant determines the effectiveness of early or late estrogen therapy after ovariectomy in rats

The molecular mechanisms for the discrepancy in outcome of initiating estrogen therapy (ET) around peri-menopause or several years after menopause in women are unknown. We hypothesize that the level of expression of a dominant negative estrogen receptor (ER) β variant, ERβ2, may be a key factor determining the effectiveness of ET in post-menopausal women. We tested this hypothesis in ovariectomized nine month-old (an age when irregular estrous cycles occur) female Sprague Dawley rats. Estradiol treatment was initiated either 6 days (Early ET, analogous to 4 months post-menopause in humans), or 180 days (Late ET, analogous to 11 years post-menopause in humans) after ovariectomy. Although ERβ2 expression increased in all OVX rats, neurogenic and neuroprotective responses to estradiol differed in Early and Late ET. Early ET reduced ERβ2 expression in both hippocampus and white blood cells, increased the hippocampal cell proliferation as assessed by Ki-67 expression, and improved mobility in the forced swim test. Late ET resulted in either no or modest effects on these parameters. There was a close correlation between the degree of ERβ2 expression and the preservation of neural effects by ET after OVX in rats, supporting the hypothesis that persistent elevated levels of ERβ2 are a molecular basis for the diminished effectiveness of ET in late post-menopausal women. The correlation between the expression of ERβ2 in circulating white blood cells and brain cells suggests that ERβ2 expression in peripheral blood cells may be an easily accessible marker to predict the effective window for ET in the brain.     

Mechanisms regulating norgestomet inhibition of endometrial gland morphogenesis in the neonatal ovine uterus

In many species, endometrial gland adenogenesis occurs neonatally in an ovary- and steroid-independent manner. Chronic exposure of the developing neonatal ovine uterus to norgestomet (NOR) from birth permanently ablates endometrial gland morphogenesis or adenogenesis, creating an adult ovine uterine gland knockout (UGKO) phenotype. This study was conducted to determine the mechanism(s) whereby NOR inhibits adenogenesis in the neonatal ewe. Ewe lambs received no implant or a NOR implant at birth and on postnatal day (PND) 14, and they were necropsied on PND28. Histological analyses of the tracts indicated NOR exposure specifically inhibited endometrial adenogenesis, but no histoarchitectural differences were observed in the oviduct, cervix, or vagina. No effect of NOR treatment was detected on proliferating cell nuclear antigen (PCNA) expression in the endometrial luminal epithelium (LE), stroma, or myometrium. In control (CX) ewes, estrogen receptor alpha (ER-alpha) and progesterone receptor (PR) mRNA and protein were expressed strongly in nascent and proliferating glandular epithelium (GE) but were undetected in epithelium of NOR uteri. Expression of c-met and fibroblast growth factor receptor 2IIIb (FGFR2IIIb) mRNA was detected in the LE and GE of CX uteri. In NOR uteri, c-met was expressed in the LE similar to CX uteri, but FGFR2IIIb mRNA levels were lower than in the LE of CX uteri. Uterine hepatocyte growth factor (HGF), the ligand for c-met, and FGFR2IIIb mRNA expression was substantially lower in NOR ewes, but expression of FGF-7 and FGF-10 mRNAs, ligands for FGFR2IIIb, was unaffected. These results indicate that NOR disrupts endometrial adenogenesis by ablating epithelial ER-alpha expression and altering expression of paracrine growth factors and/or receptors involved in epitheliomesenchymal interactions. Likewise, these mechanisms are proposed to be important regulators of normal uterine gland morphogenesis in the neonate.     

H-Type 1 carbohydrate antigen expression by ovine endometrial cells

Our objective was to determine whether H-Type 1 carbohydrate antigen is expressed by ovine endometrial epithelial cells. Endometrium was obtained from sheep on days (D) 1, 5, 11, 13, and 15 of the estrous cycle or pregnancy and D17 and D19 of pregnancy. Immunofluorescence microscopy of frozen tissue sections revealed intense staining on the apical surface of glandular uterine epithelial (GE) cells from D11 to D17 of pregnancy. Light punctate staining of luminal uterine epithelial (LE) cells was present from D15 to D19 of pregnancy, with isolated areas of intense staining observed only on D15 of pregnancy. There were no noticeable differences in staining patterns on equivalent d of the estrous cycle. Immortalized sheep LE and GE cells were used to determine whether estradiol (E), progesterone (P), or E + P, with or without interferon tau (IFNtau), regulates H-Type 1 antigen expression in vitro. Intermittent punctate surface staining was observed on both cell lines independent of steroid treatment. Treatment with P or IFNtau increased H-Type 1 antigen expression (P < 0.01) and resulted in large aggregates of punctate staining. Domain-specific biotinylation and Western blotting of cell lysates from LE and GE cells were used to identify proteins carrying the H-Type 1 antigen. For both cell types, major immunoreactive apical membrane proteins were detected at 31, 33, 42, 55, 60, and 70 kDa. Therefore, the H-type 1 antigen is expressed mainly on GE cells during pregnancy recognition in utero and up-regulated by P and IFNtau on LE and GE cells in vitro.     

Effects of estradiol and estradiol sulfamate on the liver of ovariectomized or ovariectomized and hypophysectomized rats

This study was performed to evaluate and compare the effects of estradiol sulfamate (J995) and estradiol (E2) on the hepatic levels of the estrogen receptor (ER) and its mRNA, in ovariectomized (OVX) and OVX+hypophysectomized (OVXHX) female rats and to study the effects on the liver-derived serum compounds angiotensin I, triglycerides, high-density lipoprotein (HDL) and cholesterol. ER concentrations were determined using ligand-binding assay (LBA) and enzyme immuno assay (EIA), and the mRNA levels using solution hybridization.

The rats were treated orally (p.o.) or subcutaneously (s.c.) for 7 days, with treatments initiated 14 days after surgery.

No differences were found in ER mRNA levels between J995 and E2 treated rats.

The s.c. administered estrogens increased ER levels in OVX rats. Addition of GH+DEX to OVXHX rats restored the ER to levels above those seen in intact rats, whereas simultaneous oral treatment with E2 significantly decreased ER levels again. The s.c. treatment with either J995 or E2 limited the increase caused by addition of GH+DEX.

After oral treatment angiotensin I levels were increased by E2, but not by J995, while triglycerides, HDL and cholesterol levels were decreased by oral E2, J995 showing a similar pattern but was less effective.

In summary, these results on hepatic ER levels and estrogen dependent compounds produced by the liver showed that J995 has a lower impact on the normal liver functions after oral treatment than E2. Thus, J995 is a very promising substance for development of oral estrogen treatment with reduced hepatic side effects.     

Select nutrients in the ovine uterine lumen. ii. glucose transporters in the uterus and peri-implantation conceptuses

Total glucose in ovine uterine lumenal fluid increases 6-fold between Days 10 and 15 of gestation, but not the estrous cycle; however, mechanisms for glucose transport into the uterine lumen and uptake by conceptuses (embryo/fetus and associated membranes) are not established. This study determined the effects of the estrous cycle, pregnancy, progesterone (P4), and interferon tau (IFNT) on expression of both facilitative (SLC2A1, SLC2A3, and SLC2A4) and sodium-dependent (SLC5A1 and SLC5A11) glucose transporters in ovine uterine endometria from Days 10 to 16 of the estrous cycle and Days 10 to 20 of pregnancy, as well as in conceptuses from Days 10 to 20 of pregnancy. The SLC2A1 and SLC5A1 mRNAs and proteins were most abundant in uterine luminal epithelia and superficial glandular epithelia (LE/sGE), whereas SLC2A4 was present in stromal cells and glandular epithelia (GE). SLC5A11 mRNA was most abundant in endometrial GE, whereas SLC2A3 mRNA was not detectable in endometria. SLC2A1, SLC2A3, SLC2A4, SLC5A1, and SLC5A11 were expressed in the trophectoderm and endoderm of conceptuses. Steady-state levels of SLC2A1, SLC5A1, and SLC5A11 mRNAs, but not SLC2A4 mRNA, were greater in endometria from pregnant than from cyclic ewes. Progesterone increased SLC2A1, SLC5A11, and SLC2A4 mRNAs in the LE/sGE and SLC5A1 in the GE of ovariectomized ewes. Expression of SLC5A1 was inhibited by ZK136,317 (progesterone receptor antagonist), and the combination of ZK136,317 and IFNT further decreased expression in GE. In constrast, P4 induced and IFNT stimulated expression of SLC2A1 and SLC5A11, and these effects were blocked by ZK136,317. Results of this study indicate differential expression of facilitative and sodium-dependent glucose transporters in ovine uteri and conceptuses for transport and uptake of glucose, and that P4 or P4 and IFNT regulate their expression during the peri-implantation period of pregnancy.     

Prepubertal treatment with estrogen or testosterone precipitates the loss of regular estrous cyclicity and normal gonadotropin secretion in adult female rats

To examine the effects of prepubertal steroid environment on subsequent estrous cyclicity and gonadotropin secretion, Silastic implants containing 25, 50 or 100% 17 beta-estradiol (E2;n=34), 50% diethylstilbestrol (DES; n=16) or 50% testosterone (T; n=17) were placed into female rats at 12 days of age and removed on the day of vaginal opening (18-24 days of age). At 80 days of age, the percentages of regularly cycling females in the E2-(three groups combined), DES- and T-implanted groups were 59%, 0% and 59%, respectively. By 110 days of age, the percentages were reduced to 24%, 0% and 0%, and at 140 days of age 6%, 0% and 0%, respectively. Many of these females displayed irregular estrous cycles followed by a persistent estrous (PE) state. By contrast, 89% of the control females (blank implants or no implant) maintained regular cycles up to 140 days of age. At 150 days of age, an i.p. injection of gonadotropin-releasing hormone (GnRH; 100 ng/100 g BW) markedly increased serum luteinizing hormone (LH), but not follicle-stimulating hormone (FSH), in intact PE females treated prepubertally with E2 implants. After the test with GnRH, PE rats were ovariectomized (OVX). Thirty days after OVX, similar GnRH administration significantly increased serum levels of both LH and FSH, but these responses were significantly (P less than 0.01) reduced when compared with those in OVX controls. Progesterone administration to estradiol benzoate-primed, acutely (3 days) OVX, or long-term (43 days) OVX-PE females did not increase LH or FSH release. These results indicate that exposure to exogenous estrogen or T prior to puberty precipitates the decline in estrous cyclicity associated with the loss of gonadotropin surge response, presumably due to an alteration in hypothalamic GnRH release.     

Expression of interferon receptor subunits,IFNAR1 and IFNAR2, in the ovine uterus

Interferon-tau (IFN-tau) is the antiluteolytic factor released by concepti of ruminant ungulate species prior to implantation. All type I interferons, including IFN-tau, exert their action through a common receptor, which consists of two subunits, IFNAR1 and IFNAR2c, but the distribution of the two polypeptides in uterine endometrium has not been examined. In situ hybridization and immunohistochemistry on sections from pregnant and nonpregnant ovine uteri at Days 14 and 15 after estrus and mating showed that both IFNAR1 and IFNAR2 mRNA and protein were strongly expressed in endometrial luminal epithelium (LE), superficial glandular epithelium (GE), and stromal cells, within but not outside caruncles. Similar staining patterns were noted in pregnant and nonpregnant uteri for both subunits. Western blot analysis of membrane fractions from cell lines derived from endometrial LE, GE, and stromal cells, and affinity cross-linking experiments with radioactively labeled IFN-tau performed on crude endometrial membranes indicated the presence of both high ( approximately 110 kDa) and low (75-80 kDa) molecular mass forms of the two receptor subunits. To localize where IFN-tau binds when it is introduced into the uterine lumen, immunohistochemistry with an antiserum against IFN-tau was performed on sections of uteri from Day 14 nonpregnant ewes whose uteri had previously been infused with IFN-tau. Staining was concentrated on the LE and superficial GE cells, and was absent from the deeper regions of the glands and from the stromal tissues. These studies demonstrate the heavy concentration of IFNAR1 and IFNAR2 in cells of the LE and superficial GE, which appear to be the main targets for IFN-tau.     

Isolation, immortalization, and initial characterization of uterine cell lines: An in vitro model system for the procine uterus

Summary The aim of this study was to develop immortalized cell lines from porcine uterus. Endometrial cells including luminal epithelium (LE), glandular epithelium (GE), stroma (ST), and myometrium (MYO) were enzymatically isolated from the uterus of a day 12 pregnant gilt. Primary cultures were immortalized by transduction with a retroviral vector containing the E6 and E7 open reading frames of human papillomavirus type 16 (LXSN-16E6E7) packaged by the amphotropic fibroblast line PA-317. Cells having integrated the vector were selected by resistance to the neomycin analog G418 (0.4–1.5 mg/ml). Surviving cells were maintained in complete culture medium containing G418 (0.1 mg/ml) and subcultured for 1 yr. Expression of the E7 protein was confirmed in all cell lines by Western blotting. Phase contrast microscopy revealed that LE and GE cells exhibited cobblestone morphology, whereas ST and MYO cells exhibited spindle-shaped morphology. The epithelial origin of LE and GE was confirmed by positive immunostaining for cytokeratin. Stromal and MYO cells were vimentin-positive, but cytokeratin-negative. The MYO cell lines were positive for smooth muscle α-actin staining, whereas LE, GE, and ST cell lines were negative for α-actin. Western blotting indicated that all cell lines expressed both estrogen and progesterone receptors, but only GE cells secreted uteroferrin (UF). Collectively, these porcine uterine cell lines provide an in vitro model for studying cell type-specific actions of hormones and cytokines, signal transduction pathways, cell-cell interactions, and gene expression.     

Estrogen regulates the expression of the small proline-rich 2 gene family in the mouse uterus

Small proline-rich (SPRR) proteins are structural components of the cornified cell envelope (CE), a specialized structure beneath the plasma membrane of stratified squamous epithelia. They are divided into four families, of which SPRR2 is the most complex consisting of 11 members (2a-2k) in the mouse. To assess the possible influence of estrogen on expression of the SPRR2 family in the uterus, we examined the effect of 17b-estradiol (E2) on SPRR2 mRNA levels on ovariectomized (OVX) adult mice. We employed a combination of laser capture microdissection (LCM) and semiquantitative RT-PCR to examine expression in particular uterine cell types - luminal epithelia, and stromal and muscle cells. We also used quantitative real-time PCR to measure levels of the mRNA of several SPRR2 proteins in the mouse uterus over the estrous cycle and during early pregnancy. Expression of SPRR2a, 2b, 2c, 2d, 2e, 2f and 2g mRNA was increased by estrogen treatment. SPRR2a, 2b, 2d and 2e were highly expressed on day 1 and 2 of pregnancy, but decreased markedly by days 3-6. Interestingly, several members of the SPRR2 family were preferentially up-regulated at implantation sites compared to inter-implantation sites around day 4 of pregnancy. They were abundant during proestrus and estrus but declined rapidly during metestrus. These results indicate that estrogen is a key regulator of the expression of the SPRR2 family in the mouse uterus during the estrous cycle and early pregnancy. In addition, they suggest that some members of the family play an important role in uterine processes such as the estrous cycle, early pregnancy and implantation.     

Endometrial expression of cellular protooncogene c-ski and its regulation by estradiol-17beta.

The expression of the cellular protooncogene c-ski was examined in the rat uterus. In situ hybridization revealed that c-ski mRNA was expressed in the uterus of the adult rat on the day of estrous and localized mainly in the luminal and glandular epithelia. To test the possibility that the expression of c-ski mRNA is induced by estrogen, rats were ovariectomized and estradiol-17beta (E2) was injected. The expression of c-ski mRNA was upregulated 3 h after E2 treatment, reaching the highest level at 6 h and this persisted until 24 h; the E2-induced expression of c-ski mRNA was restricted to the luminal and glandular epithelia. These results suggest that the c-ski gene plays a role in uterine epithelial cell proliferation and mediates the proliferative action of E2.     

雌激素受体α和β在不同雌激素干预大鼠骨代谢中的表达

应用雌性大鼠的骨质疏松模型,通过骨密度(BMD)检测、RT-PCR和Westernblot等技术观察去卵巢(Ovariectomy,OVX)、结合性雌激素(ConjugatedEquineEstrogens,CEE)和戊酸雌二醇(EstradiolValerate,EV)对大鼠松质骨骨量以及松质骨中雌激素受体(ER)α和βmRNA和蛋白表达的影响,探讨两受体亚型在介导雌激素参与松质骨代谢的不同作用机制以及不同来源雌激素对ERα和ERβ表达的差异性调节。40只7-8周龄的雌性Sprague-Dawley大鼠,在观察动情周期后随机分成四组:对照组(Control,n=10)、去卵巢组(Ovariectomy,OVX,n=10)、去卵巢后结合性雌激素治疗组(CEE,n=10)和去卵巢后戊酸雌二醇治疗组(EV,n=10)。对照组大鼠行假手术,其余三组行去卵巢手术。术后48天(12个动情周期),对照组和OVX组用生理盐水喂养12天(3个动情周期),CEE组和EV组分别用药物的生理盐水溶液喂养12天。结果显示:在对照组中,大鼠松质骨ERα的蛋白表达水平显著性高于ERβ蛋白表达水平,而ERα的mRNA表达水平显著性低于ERβmRNA水平。与对照组相比,OVX组大鼠松质骨中ERα的蛋白表达水平显著性降低,ERαmRNA表达水平显著性增加,而ERβ蛋白和mRNA的表达水平均显著性增加。与OVX组相比,CEE组大鼠松质骨中ERβ蛋白和mRNA的表达水平均显著性下降,而EV组大鼠松质骨中ERα蛋白表达显著性上升,ERαmRNA表达显著性下降,ERβ蛋白表达显著性下降。此外,OVX大鼠松质骨的骨密度下降均可通过应用CEE和EV得到显著性改善。上述结果提示:⑴ERα可能是大鼠松质骨中优势表达的受体亚型,在介导雌激素参与松质骨代谢中起着主导作用。⑵不同来源雌激素可能侧重不同的ER亚型途径产生骨保护效应。     

Estrous Cycle‐Dependent Expression of Estrogen Receptor α in Periodontal Tissue

Estrogen receptor α (ERα) may play important roles in many estrogen physiological effects, but little is known about the fluctuation of ERα during the estrous cycle. In this study, the dynamic expression of ERα mRNA and protein in periodontal tissue during the estrous cycle were examined. Forty 12‐week‐old female rats were divided into four groups, based on the estrous cycle stage, and sacrificed. Immunohistochemistry and in situ hybridization were used to detect dynamic changes in ERα protein and mRNA in periodontal tissue during the estrous cycle, and data were analyzed by one‐way ANOVA and cosinor analysis for temporal patterns. Significant differences (p<0.05) were found in the expression of ERα protein and mRNA among the four groups. The expression of ERα protein and mRNA exhibited an infradian rhythm with a period of about 120 h (five days). The phase and amplitude differences between ERα protein and mRNA were not significant (p>0.05). The results suggest the expression of ERα is dynamic during the estrous cycle and that in the future chronobiologic methods should be used to study the mechanism of estrogen effect on periodontal tissue.     

17β-雌二醇和跑台运动对去卵巢大鼠骨组织及子宫ERα蛋白表达影响的对比研究

目的：雌激素受体α（ERα）作为雌激素调节骨效应的主要受体在雌激素对骨量和骨代谢的调节中发挥重要的作用,为此本研究比较了17β-雌二醇（E2）和跑台运动对去卵巢大鼠骨组织和子宫ERα蛋白表达影响的异同。方法：将40只健康3月龄雌性SD大鼠,按体重分层后随机分为假手术、去卵巢、雌激素和运动四个组。手术1周后,雌激素组大鼠每周按体重颈部皮下注射三次17β-雌二醇,每次25μg／kg体重。运动组每周进行4次45min、速度18m／min、坡度5°的跑台训练。连续给药或运动处理14周后。采用放射免疫法和免疫组织化学法分别检测血清E2水平以及胫骨和子宫ERα蛋白表达的变化。结果：大鼠去卵巢后,子宫重量、子宫重量指数和血清E2水平显著下降,补充外源性17β-雌二醇后,三项指标均显著增加;但运动处理只能增加血清E2水平,对子宫重量和子宫重量指数均无显著影响。子宫EIh蛋白免疫组化结果显示：ERα在去卵巢组子宫内膜腔上皮、腺上皮及基质中的表达显著低于假手术组,而在雌激素组中的表达高于去卵巢组,运动组各部位ERα表达虽有所增加,但是增加的程度远低于雌激素组。胫骨近端ERα蛋白免疫组化结果显示：去卵巢后,胫骨近端骨骺端软骨细胞的细胞核内ERα表达减少,运动和雌激素干预后,胫骨近端ERα表达增加。结论：运动和雌激素处理均能刺激去卵巢大鼠子宫和骨组织ERα蛋白的表达,但运动处理无雌激素处理增加子宫重量的副作用。可见在绝经后骨质疏松的预防中,运动处理可能要优于雌激素处理。     

Diurnal pattern of proopiomelanocortin gene expression in the arcuate nucleus of proestrous, ovariectomized, and steroid-treated rats: a possible role in cyclic luteinizing hormone secretion

Opiate peptides are thought to modulate the pattern of LH release in female rats. We tested the hypothesis that changes in proopiomelanocortin (POMC) gene expression occur in proestrous (PRO) and ovariectomized (OVX) steroid-treated rats which may explain their unique patterns of LH secretion. Using in situ hybridization, we examined whether diurnal changes in POMC gene expression occur in the arcuate nucleus. Four groups of rats were used in this study. 1) PRO rats were used after exhibiting at least two consecutive 4-day estrous cycles; 2) OVX rats were killed 9 days after ovariectomy; 3) estradiol (E2)-treated rats were OVX for 7 days and then treated for 2 days; and 4) E2-progesterone (P4)-treated rats were treated with E2 as described above, and on day 9 at 1030 h, P4 was administered. Rats were killed at 2300, 0300, 1000, 1300, 1500, 1800, or 2300 h, beginning on the evening of diestrous day 2 or day 8 after ovariectomy. POMC gene expression exhibited a diurnal rhythm on PRO. Levels of mRNA rose during the morning, peaked between 0300-1000 h, and decreased by 2300 h. In E2-treated rats, which exhibited a LH surge similar in timing to the PRO surge, POMC mRNA levels exhibited a diurnal rhythm strikingly similar to that observed in PRO animals. OVX abolished the rhythm; however, average POMC mRNA levels across the 24-h period were not significantly different from those in PRO or E2-treated rats. P4 treatment increased POMC mRNA levels by 2300 h compared to those in all other experimental groups.(ABSTRACT TRUNCATED AT 250 WORDS)     

Steroid regulation of cell specific secreted phosphoprotein 1 (osteopontin) expression in the pregnant porcine uterus

Secreted phosphoprotein 1 (SPP1, commonly referred to as osteopontin and formerly known as bone sialoprotein 1, early T-lymphocyte activation 1) is an extracellular matrix/adhesion molecule that is upregulated in the pregnant uterus of all mammals examined to date. This study focused on the pig, which has true epitheliochorial placentation and exhibits induction of SPP1 mRNA in luminal epithelium (LE) just before conceptus attachment and in glandular epithelium (GE) after Day 30 of pregnancy. The objective of this study was to determine steroid regulation of SPP1 mRNA and protein in porcine uterine epithelium. To examine the effect of estrogen, cyclic gilts were treated daily (Days 11-14) with 5 mg estradiol benzoate (i.m.) and hysterectomized on Day 15. To evaluate the long-term effect of pseudopregnancy, cyclic gilts were given daily injections (Days 11-15) with steroid as above and hysterectomized on Day 90. In situ hybridization showed high expression of SPP1 mRNA only in LE contiguous with apposing conceptus tissue on Day 15 of pregnancy. In contrast, estrogen injection resulted in moderate but uniform SPP1 mRNA in all LE of Day 15 nonpregnant gilts, with expression maintained through Day 90 of pseudopregnancy. SPP1 mRNA also localized to the GE of Day 90 pseudopregnant gilts, similar to expression in late gestation. Consistent with in situ hybridization results, SPP1 protein localized to the apical surface of LE in all estrogen-treated gilts and in the GE on Day 90 of pseudopregnancy. We conclude that, in pregnant pigs, SPP1 is induced by conceptus estrogen in uterine LE and is regulated in GE in a manner coincident with CL/placental progesterone production.     

Effect of estradiol and soy phytoestrogens on choline acetyltransferase and nerve growth factor mRNAs in the frontal cortex and hippocampus of female rats.

We report here the effects of oral micronized estradiol and soy phytoestrogens on uterine weight, choline acetyltransferase (ChAT) and nerve growth factor (NGF) mRNAs in the frontal cortex and hippocampus of ovariectomized young and retired breeder rats. Within each age category, 15 bilaterally ovariectomized rats were randomized equally into three groups: control (OVX), estradiol (E2), and soy phytoestrogens (SBE). The OVX rats were fed a casein/lactalbumin-based control diet; the E2 rats were fed with the control diet with added estradiol; and the SBE rats were fed with the control diet with added soy phytoestrogens. After 8 weeks of treatment, blood, uteri, frontal cortex, and hippocampus were collected at necropsy. Results showed that the uterine weights and serum estradiol concentrations were significantly higher in the E2 group compared with those in the OVX and SBE groups. In the hippocampus of young rats, E2 treatment resulted in significantly higher NGF mRNA levels than no treatment (OVX), and NGF mRNA levels in the SBE group were intermediate between the E2 and OVX groups. ChAT mRNA levels were significantly higher in the frontal cortex of E2 and SBE-treated retired breeder rats compared to OVX retired breeder rats. There were no differences among treatment groups for ChAT mRNA levels in the frontal cortex of young rats and in the hippocampus of both young and retired breeder rats. Our data suggest that soy phytoestrogens may function as estrogen agonists in regulating ChAT and NGF mRNAs in the brain of female rats.     

Retroperitoneal white adipose tissue mitochondrial function and adiponectin expression in response to ovariectomy and 17β-estradiol replacement

Sexual dimorphism has been previously found both in mitochondrial biogenesis and function and in adiponectin expression of retroperitoneal WAT. However, little is known about the E2 effects on WAT mitochondrial function. Accordingly, the aim of this study was to examine in greater depth the role of estrogens in sexual dimorphism. This was accomplished by studying the effects of ovariectomy and E2 replacement on retroperitoneal WAT mitochondrial function. Fourteen-week-old female and ovariectomized (OVX) female Wistar rats were used in this study. The ovariectomy was performed at 5 weeks of age and at 10 weeks of age OVX rats were divided into two experimental groups: OVX, and OVX treated with 17β-estradiol (E2) (OVX+E2). Subcutaneous injections of E2 (10 μg/kg/48 h) were administered to the OVX+E2 rats for 4 weeks previous to the sacrifice whereas OVX rats were treated only with the vehicle. Levels of the main markers for mitochondrial biogenesis and function and those representatives of the antioxidant defense system and insulin sensitivity were determined. Additionally, the mRNA levels of the α and β estrogen receptors and of some adipocyte differentiation markers were studied. Our results indicate that retroperitoneal WAT was able to adapt itself to ovariectomy without any changes in mitochondrial function markers or for the adiponectin levels. However, E2 supplementation led to an unexpected decrease in: TFAM protein levels, in LPL, PPARγ and adiponectin gene expression and in the systemic HMW adiponectin levels. This decrease is probably due to the down-regulation of the ERα mRNA expression to avoid an over-stimulation by E2.     

Estrogen stimulates differentiation of megakaryocytes and modulates their expression of estrogen receptors alpha and beta

Estrogen has multifunctional effects influencing growth, differentiation, and function in many tissues. High-dose estrogen has been shown to produce anabolic skeletal effects in the skeleton of postmenopausal women with increased megakaryocyte (MK) population in the bone marrow, suggesting a possible role for these cells in bone remodelling. To investigate if estrogen stimulates megakaryocytopoiesis and affects on estrogen receptor (ER) expression, CD34(+) cells were cultured for 6, 9, and 14 days plus or minus low-dose or high-dose 17 beta estradiol (E). Cells were immunolocalised for CD61, CD41, ER alpha and beta. ER mRNA expression was assessed by RT-PCR. Cells formed more CD61 positive MK colonies with low- and high-dose E treatment (P < 0.001) at 6 and 9 days. CD41 expression was increased dose-dependently in MK (3- and 5-fold P < 0.001) at 9 days. E-stimulated ER alpha expression at 6 days (P < 0.001) whilst ER beta was dose-dependently increased only at 9 days (P < 0.01). ER alpha mRNA was increased at 6 days but not at 14 days whilst ER beta mRNA expression was only increased at 14 days with E treatment. These results demonstrate that E stimulates the colony forming potential of CD34(+) cells to a more megakaryocytic phenotype in vitro. This finding together with the stimulation of ER protein and mRNA expression adds to the increasing evidence for a role for MKs in estrogen-induced bone formation.