OBJECTIVE To assess the effect of 17 β-estradiol(E2) on cell proliferation, cell invasiveness and its regulation of MTA3, Snail and matrix metalloproteinase 2 (MMP-2) expression in the ovarian clear cell adenocar...OBJECTIVE To assess the effect of 17 β-estradiol(E2) on cell proliferation, cell invasiveness and its regulation of MTA3, Snail and matrix metalloproteinase 2 (MMP-2) expression in the ovarian clear cell adenocarcinoma cell line ES-2, and to further investigate the mechanism involved. METHODS We first investigated expression of ERα, ERβ, PR and E-cadherin of ES-2 cells by RT-PCR and Western blots. Before all experiments, the ES-2 cells were grown in medium depleted of steroid for more than 7 days. Following treatment with 10^-7,10^-8 and 10^-9 M E2, cell viability of the ES-2 cells was determined by the MTT method, and the cell cycle distribution and apoptosis were examined by flow cytometry (FCM). Invasion and mobility assays were performed using modified Boyden chambers. MTA3, Snail and MMP-2 mRNA expression was measured by RT-PCR, and Snail, MMP-2 protein levels were determined by IHC. MMP-2 activity was assayed by zymography. RESULTS RT-PCR and Western Blots showed that theexpression of ERα and E-cadherin mRNA and protein in the ES-2 cells was negative, while ERβ and PR expression was positive. E2 at 10^-7,10^-8 or 10^-9M stimulated cell proliferation. A level of 10^-8M E2 reduced the proportion of G0-G1 phase cells and increased the proportion of cells in the S phase, but it had no effect on apoptosis. Invasiveness and mobility of the ES-2 cells was significantly increased by 10^-8M E2. Treatment with 10^-8M E2 led to reduced MTA3 mRNA expression, and elevated Snail and MMP-2 mRNA and protein levels. CONCLUSION E2 enhanced invasion by the ES-2 cells. The effects observed maybe mediated by down-regulation of MTA3 and up-reguation of Snail and MMP-2.展开更多
Following an introduction, non-native species are exposed to environments that differ from those found in their native range; further, as these non-native species expand beyond the site of introduction, they must cons...Following an introduction, non-native species are exposed to environments that differ from those found in their native range; further, as these non-native species expand beyond the site of introduction, they must constantly adapt to novel environ- ments. Although introduced species are present across most ecosystems, few species have successfully established themselves on a truly global scale. One such species, the house sparrow Passer domesticus, is now one of the world's most broadly distributed vertebrate species and has been introduced to a great part of its current range. To date, work on four continents suggests both ge- netic and phenotypic variation exists between native and introduced ranges. As such, house sparrows represent an excellent op- portunity to study adaptations to novel environments and how these adaptations are derived. The global distribution of this spe- cies and the multiple independent introductions to geographically isolated sites allow researchers to ask questions regarding ge- netic variation and adaptation on a global scale. Here, we summarize the molecular studies of invasive house sparrows from the earliest work using allozymes through more recent work on epigenetics; using these studies, we discuss patterns of dispersal of this species. We then discuss future directions in techniques (e.g. next generation sequencing) and how they will provide new in- sight into questions that are fundamental to invasion biology. Finally, we discuss how continued research on the house sparrow in light of these genetic changes and adaptations will elucidate answers of adaptation, invasion biology, range expansion, and resi- lience in vertebrate systems generally展开更多
文摘OBJECTIVE To assess the effect of 17 β-estradiol(E2) on cell proliferation, cell invasiveness and its regulation of MTA3, Snail and matrix metalloproteinase 2 (MMP-2) expression in the ovarian clear cell adenocarcinoma cell line ES-2, and to further investigate the mechanism involved. METHODS We first investigated expression of ERα, ERβ, PR and E-cadherin of ES-2 cells by RT-PCR and Western blots. Before all experiments, the ES-2 cells were grown in medium depleted of steroid for more than 7 days. Following treatment with 10^-7,10^-8 and 10^-9 M E2, cell viability of the ES-2 cells was determined by the MTT method, and the cell cycle distribution and apoptosis were examined by flow cytometry (FCM). Invasion and mobility assays were performed using modified Boyden chambers. MTA3, Snail and MMP-2 mRNA expression was measured by RT-PCR, and Snail, MMP-2 protein levels were determined by IHC. MMP-2 activity was assayed by zymography. RESULTS RT-PCR and Western Blots showed that theexpression of ERα and E-cadherin mRNA and protein in the ES-2 cells was negative, while ERβ and PR expression was positive. E2 at 10^-7,10^-8 or 10^-9M stimulated cell proliferation. A level of 10^-8M E2 reduced the proportion of G0-G1 phase cells and increased the proportion of cells in the S phase, but it had no effect on apoptosis. Invasiveness and mobility of the ES-2 cells was significantly increased by 10^-8M E2. Treatment with 10^-8M E2 led to reduced MTA3 mRNA expression, and elevated Snail and MMP-2 mRNA and protein levels. CONCLUSION E2 enhanced invasion by the ES-2 cells. The effects observed maybe mediated by down-regulation of MTA3 and up-reguation of Snail and MMP-2.
文摘Following an introduction, non-native species are exposed to environments that differ from those found in their native range; further, as these non-native species expand beyond the site of introduction, they must constantly adapt to novel environ- ments. Although introduced species are present across most ecosystems, few species have successfully established themselves on a truly global scale. One such species, the house sparrow Passer domesticus, is now one of the world's most broadly distributed vertebrate species and has been introduced to a great part of its current range. To date, work on four continents suggests both ge- netic and phenotypic variation exists between native and introduced ranges. As such, house sparrows represent an excellent op- portunity to study adaptations to novel environments and how these adaptations are derived. The global distribution of this spe- cies and the multiple independent introductions to geographically isolated sites allow researchers to ask questions regarding ge- netic variation and adaptation on a global scale. Here, we summarize the molecular studies of invasive house sparrows from the earliest work using allozymes through more recent work on epigenetics; using these studies, we discuss patterns of dispersal of this species. We then discuss future directions in techniques (e.g. next generation sequencing) and how they will provide new in- sight into questions that are fundamental to invasion biology. Finally, we discuss how continued research on the house sparrow in light of these genetic changes and adaptations will elucidate answers of adaptation, invasion biology, range expansion, and resi- lience in vertebrate systems generally
