BACKGROUND: The fusion of trophoblast cells into the villous syncytiotrophoblast is crucial for appropriate placental function and fetal development. Fusion occurs following the interaction of syncytin-1, an envelope protein of the endogenous retrovirus HERV-W, and the RD114/mammalian type D retrovirus receptor (RDR/ASCT2) on adjacent cell membranes. This process must be tightly regulated in order to maintain the proliferative pool of cytotrophoblast cells as well as the function of the syncytia. AIM: We sought to investigate whether syncytial fusion of placental cytotrophoblast cells may be regulated via modulation of RDR/ASCT2 expression. METHODS: Expression of RDR/ASCT2 in term and first trimester villous placenta was assessed along with a number of molecular markers using immunofluorescent staining. In a complementary approach, Western blotting was used to investigate RDR/ASCT2 expression in a panel of choriocarcinoma cell lines before and after stimulation of fusion. RESULTS: Villous placental RDR/ASCT2 expression was found to be restricted to the cytotrophoblast compartment, being largely absent in the syncytiotrophoblast. Local variations in RDR/ASCT2 expression were not associated with the proliferative status of cytotrophoblast cells. RDR/ASCT2 expression was also shown to be down-regulated in BeWo choriocarcinoma cells after stimulation of syncytial fusion. CONCLUSION: This first report of the localisation and distribution of RDR/ASCT2 in human placental villi suggests that the fusion of placental trophoblast cells is not regulated by local or temporal variations of RDR/ASCT2 expression in villous cytotrophoblast cells.
BACKGROUND: The fusion of trophoblast cells into the villous syncytiotrophoblast is crucial for appropriate placental function and fetal development. Fusion occurs following the interaction of syncytin-1, an envelope protein of the endogenous retrovirus HERV-W, and the RD114/mammalian type D retrovirus receptor (RDR/ASCT2) on adjacent cell membranes. This process must be tightly regulated in order to maintain the proliferative pool of cytotrophoblast cells as well as the function of the syncytia. AIM: We sought to investigate whether syncytial fusion of placental cytotrophoblast cells may be regulated via modulation of RDR/ASCT2 expression. METHODS: Expression of RDR/ASCT2 in term and first trimester villous placenta was assessed along with a number of molecular markers using immunofluorescent staining. In a complementary approach, Western blotting was used to investigate RDR/ASCT2 expression in a panel of choriocarcinoma cell lines before and after stimulation of fusion. RESULTS: Villous placental RDR/ASCT2 expression was found to be restricted to the cytotrophoblast compartment, being largely absent in the syncytiotrophoblast. Local variations in RDR/ASCT2 expression were not associated with the proliferative status of cytotrophoblast cells. RDR/ASCT2 expression was also shown to be down-regulated in BeWo choriocarcinoma cells after stimulation of syncytial fusion. CONCLUSION: This first report of the localisation and distribution of RDR/ASCT2 in human placental villi suggests that the fusion of placental trophoblast cells is not regulated by local or temporal variations of RDR/ASCT2 expression in villous cytotrophoblast cells.
Authors: Caroline E Dunk; Alexandra Gellhaus; Sascha Drewlo; Dora Baczyk; Andy J G Pötgens; Elke Winterhager; John C P Kingdom; Steven J Lye Journal: Biol Reprod Date: 2012-04-19 Impact factor: 4.285
Authors: Cécile Esnault; Stéphane Priet; David Ribet; Cécile Vernochet; Thomas Bruls; Christian Lavialle; Jean Weissenbach; Thierry Heidmann Journal: Proc Natl Acad Sci U S A Date: 2008-11-06 Impact factor: 11.205
Authors: David Díaz-Carballo; Ali Haydar Acikelli; Jacqueline Klein; Holger Jastrow; Philipp Dammann; Thomas Wyganowski; Cihan Guemues; Sebastian Gustmann; Walter Bardenheuer; Sascha Malak; Nora Sophia Tefett; Veria Khosrawipour; Urs Giger-Pabst; Andrea Tannapfel; Dirk Strumberg Journal: J Exp Clin Cancer Res Date: 2015-08-12