Estradiol, or 17-β-estradiol (E2), the most potent naturally occurring estrogen, is involved in the hormone-immune system interaction in both mammals and fish. However, in vivo studies are largely limited, and litt...Estradiol, or 17-β-estradiol (E2), the most potent naturally occurring estrogen, is involved in the hormone-immune system interaction in both mammals and fish. However, in vivo studies are largely limited, and little is known about whether E2 exerts similar effects on both female and male zebrafish (Danio rerio). Here, we show exposure of both sexes ofD. rerio to 20 nmol/L E2 resulted in a significant increase in Vgl expression, but caused little damage to the hepatocytes, suggesting that this is the optimum E2 concentration. Also, exposure to 20 nmol/L E2 for 20 days caused a marked increase in plasma IgM levels, but had little influence on the peripheral leukocyte density, providing the first evidence of a hormone-immune system interaction in this species.展开更多
Breast cancer,one of the most frequent cancer types,is a leading cause of death in women worldwide.Estrogen receptor(ER)αis a nuclear hormone receptor that plays key roles in mammary gland development and breast canc...Breast cancer,one of the most frequent cancer types,is a leading cause of death in women worldwide.Estrogen receptor(ER)αis a nuclear hormone receptor that plays key roles in mammary gland development and breast cancer.About 75%of breast cancer cases are diagnosed as ER-positive;however,nearly half of these cancers are either intrinsically or inherently resistant to the current anti-estrogen therapies.Recent studies have identified an ER coactivator,Mediator Subunit 1(MED1),as a unique,tissue-specific cofactor that mediates breast cancer metastasis and treatment resistance.MED1 is overexpressed in over 50%of human breast cancer cases and co-amplifies with another important breast cancer gene,receptor tyrosine kinase HER2.Clinically,MED1 expression highly correlates with poor disease-free survival of breast cancer patients,and recent studies have reported an increased frequency of MED1 mutations in the circulating tumor cells of patients after treatment.In this review,we discuss the biochemical characterization of MED1 and its associated MED1/Mediator complex,its crosstalk with HER2 in anti-estrogen resistance,breast cancer stem cell formation,and metastasis both in vitro and in vivo.Furthermore,we elaborate on the current advancements in targeting MED1 using state-of-the-art RNA nanotechnology and discuss the future perspectives as well.展开更多
To investigate the effect of Yikun Neiyi Wan (益坤内异丸YKNYW) and gestrinone on the expression of aromatase P450 (P450arom), cyclo-oxygenase-2 (COX-2) and estrogen receptor (ER) in isolated ectopic and normal...To investigate the effect of Yikun Neiyi Wan (益坤内异丸YKNYW) and gestrinone on the expression of aromatase P450 (P450arom), cyclo-oxygenase-2 (COX-2) and estrogen receptor (ER) in isolated ectopic and normal endometriat stroma cells in vitro. Methods: Digestion and serial filtration were used to isolate and culture the ectopic and eutopic endometrial cells from patients with chocolate cyst in virto Transformation of the cell morphology was observed in a inverted microscope. The effect of YKNYW on the expression of aromatase P450, cyclo-oxygenase-2, estrogen receptor in cultured endometriosis cells were detected by immunohistochemical method. Results: The expression levels of P450arom, COX-2 in glandular epithelium cells in vitro were decreased significantly by YKNYW compared with gestrinone (P〈0.05). ER expression in mesenchymal cells of endometriosis was increased by YKNYW in the large and medium dosage groups compared with gestrinone. Conclusion: The mechanism by which YKNYW alleviates endometriosis pain is possibly related to the decrease in ectopic endometrial P450 arom and COX-2 expression in glandular epithelium, contrary to gestrinone, and the increase in ER expression in mesenchymalis, consistent with gestrione in patients with endometriosis.展开更多
基金Supported by the Natural Science Foundation of Shandong Province (No. 2007ZRB02238)the Natural Science Foundation of Qingdao Municipality (No. 06-2-2-15-jch)
文摘Estradiol, or 17-β-estradiol (E2), the most potent naturally occurring estrogen, is involved in the hormone-immune system interaction in both mammals and fish. However, in vivo studies are largely limited, and little is known about whether E2 exerts similar effects on both female and male zebrafish (Danio rerio). Here, we show exposure of both sexes ofD. rerio to 20 nmol/L E2 resulted in a significant increase in Vgl expression, but caused little damage to the hepatocytes, suggesting that this is the optimum E2 concentration. Also, exposure to 20 nmol/L E2 for 20 days caused a marked increase in plasma IgM levels, but had little influence on the peripheral leukocyte density, providing the first evidence of a hormone-immune system interaction in this species.
基金Project supported by the National Cancer Institute(No.R01CA197865),the Ride Cincinnati Awardthe National Center for Advancing Translation Science of the National Institutes of Health(No.UL1TR001425),USA
文摘Breast cancer,one of the most frequent cancer types,is a leading cause of death in women worldwide.Estrogen receptor(ER)αis a nuclear hormone receptor that plays key roles in mammary gland development and breast cancer.About 75%of breast cancer cases are diagnosed as ER-positive;however,nearly half of these cancers are either intrinsically or inherently resistant to the current anti-estrogen therapies.Recent studies have identified an ER coactivator,Mediator Subunit 1(MED1),as a unique,tissue-specific cofactor that mediates breast cancer metastasis and treatment resistance.MED1 is overexpressed in over 50%of human breast cancer cases and co-amplifies with another important breast cancer gene,receptor tyrosine kinase HER2.Clinically,MED1 expression highly correlates with poor disease-free survival of breast cancer patients,and recent studies have reported an increased frequency of MED1 mutations in the circulating tumor cells of patients after treatment.In this review,we discuss the biochemical characterization of MED1 and its associated MED1/Mediator complex,its crosstalk with HER2 in anti-estrogen resistance,breast cancer stem cell formation,and metastasis both in vitro and in vivo.Furthermore,we elaborate on the current advancements in targeting MED1 using state-of-the-art RNA nanotechnology and discuss the future perspectives as well.
文摘To investigate the effect of Yikun Neiyi Wan (益坤内异丸YKNYW) and gestrinone on the expression of aromatase P450 (P450arom), cyclo-oxygenase-2 (COX-2) and estrogen receptor (ER) in isolated ectopic and normal endometriat stroma cells in vitro. Methods: Digestion and serial filtration were used to isolate and culture the ectopic and eutopic endometrial cells from patients with chocolate cyst in virto Transformation of the cell morphology was observed in a inverted microscope. The effect of YKNYW on the expression of aromatase P450, cyclo-oxygenase-2, estrogen receptor in cultured endometriosis cells were detected by immunohistochemical method. Results: The expression levels of P450arom, COX-2 in glandular epithelium cells in vitro were decreased significantly by YKNYW compared with gestrinone (P〈0.05). ER expression in mesenchymal cells of endometriosis was increased by YKNYW in the large and medium dosage groups compared with gestrinone. Conclusion: The mechanism by which YKNYW alleviates endometriosis pain is possibly related to the decrease in ectopic endometrial P450 arom and COX-2 expression in glandular epithelium, contrary to gestrinone, and the increase in ER expression in mesenchymalis, consistent with gestrione in patients with endometriosis.
