Project description:Estrogen induce organ-specific cell proliferation and development in female reproductive organs, though the reproductive differentiation, sex maturation, implantation and lactation. However, the mechanism of organ-specific estrogen responsive genes is unknown. Thus, we examined early estrogen responsive genes in mouse uterus, vagina and mammary gland. Keywords: organ specificity 70-day-old ovariectomized mice (C57BL/6J)(n=4) were treated with 17beta-estradiol (5micro g/kg) or sesame oil. Whole uterus (Ut), vagina (Vg) and mammary gland (Mg) were sacrificed 6h after the injection.
Project description:DES is a synthetic estrogen that is associated with adverse effects on reproductive organs. Our group has employed estrogen receptor (ER) α knockout (αERKO) mice to gain insight into the contribution of ER-dependent pathways in mediating the effects of neonatal DES exposure in female and male reproductive tract tissues. The objective of this study is to compare gene expression profiles between the WT-veh and -DES groups or αERKO-veh and -DES from the adult male mice (week 10) of the SV tissues to identify differential genes.
Project description:Estrogen induce organ-specific cell proliferation and development in female reproductive organs, though the reproductive differentiation, sex maturation, implantation and lactation. However, the mechanism of organ-specific estrogen responsive genes is unknown. Thus, we examined early estrogen responsive genes in mouse uterus, vagina and mammary gland. Keywords: organ specificity
Project description:DES is a synthetic estrogen that is associated with adverse effects on reproductive organs. Our group has employed estrogen receptor (ER) α knockout (αERKO) mice to gain insight into the contribution of ER α in DES-induced toxicity following neonatal exposure
Project description:DES is a synthetic estrogen that is associated with adverse effects on reproductive organs. Our group has employed estrogen receptor (ER) α knockout (αERKO) mice to gain insight into the contribution of ER a in DES-induced toxicity following neonatal exposure.
Project description:DES is a synthetic estrogen that is associated with adverse effects on reproductive organs. Our group has employed estrogen receptor (ER) α knockout (αERKO) mice to gain insight into the contribution of ER α in DES-induced toxicity following neonatal exposure
Project description:DES is a synthetic estrogen that is associated with adverse effects on reproductive organs. Our group has employed estrogen receptor (ER) α knockout (αERKO) mice to gain insight into the contribution of ER a in DES-induced toxicity following neonatal exposure.
Project description:Crosstalk between Aryl hydrocarbonreceptor (AHR) and Estrogen receptor (ER) is poorly understood, but seems to play a major role in female reproductive organs. The study was designed to see the overall gene-expression change in the mammary gland induced by AHR ligand 3-MC alone and in combination with E2.
Project description:Contamination of the environment with endocrine disrupting chemicals (EDCs) has raised concerns about potential health hazards for humans and wildlife. P-tert-octylphenol (OP) is one such ubiquitous chemical reported to bind to the estrogen receptor (ER) and alter expression of estrogen-responsive genes. Human and wildlife exposure to OP are likely, due to its persistence in the environment and its presence in food, water and items of daily use. Detrimental effects of OP exposures on the reproductive system have been observed in some, but not all, in vivo experiments. This study compared estrogenic effects of OP in vitro with those in vivo in adult female rats, attempting to better mimic real-life exposures in adults. In vitro, OP bound to human ER weakly and accelerated proliferation of MCF-7 cells. Adult Sprague-Dawley rats were given OP by gavage either once or daily for 35 days (125 mg/kg body weight). Body and organ weights and ovarian follicle populations were unaltered in OP-exposed adult rats after either time point, despite detectable levels of OP in reproductive organs. Toxicity of OP was demonstrated by a slightly reduced growth rate and slightly altered estrous cycle, but there were no significant estrogen-like changes in histomorphology or microarray analyses of gene expression of uterine tissue. Prepubertal rats exposed by gavage to 125 or 250 mg/kg OP for three days failed to show any uterotrophic effects, although E2 caused a 3-fold increase in uterine weight. Results do not support a dose-dependent, estrogenic mode of action for OP. This SuperSeries is composed of the following subset Series: GSE14527: Effects of single oral exposure of adult Sprague-Dawley rats to p-tert-octylphenol on uterine gene expression GSE14528: Effects of 35 days oral exposure of adult female Sprague-Dawley rats to p-tert-octylphenol on uterine gene expression Refer to individual Series
Project description:Kidney stone disease is influenced by multiple factors, including but not limited to age, gender, genetic background, hydration status, diet and drug. Regarding the gender, epidemiologic data across the world has shown that females at the reproductive age (15-49 years) have lower incidence/prevalence of kidney stone disease approximately 1.5-2.5 folds as compared to males at the same age. However, this gap is narrower in the postmenopausal age, whereas the postmenopausal females with higher serum estrogen levels are less likely to have kidney stones. Furthermore, female stone formers (patients with kidney stones) are associated with lower estrogen levels. Therefore, estrogen has been proposed to serve as the protective hormone against kidney stone disease. However, the precise mechanisms underlying such protective effects of estrogen remain unclear and require further investigations. This study thus investigated the effects of estradiol (which is the most prevalent and potent form of estrogen in females at the reproductive age) on cellular proteome of renal tubular cells using a proteomics approach.