AI Article Synopsis
- The villous trophoblast undergoes a fusion process during pregnancy, transforming cytotrophoblastic cells into syncytiotrophoblasts, which are vital for placenta functions.
- Connexin43 (Cx43) plays a crucial role in facilitating gap junctional intercellular communication (GJIC) between these cells, influencing their differentiation.
- Disruption of GJIC with a gap junction uncoupler, heptanol, leads to poor cell fusion and reduced expression of trophoblast-specific genes, although this effect is reversible once the uncoupler is removed.
Article Abstract
During pregnancy, the villous trophoblast develops from the fusion of cytotrophoblastic cells (CT) into a syncytiotrophoblast (ST), supporting the main physiological functions of the human placenta. Connexin43 (Cx43) is demonstrated in situ and in vitro in the villous trophoblast between CT and between CT and ST. Moreover, the presence of a gap junctional intercellular communication (GJIC) during in vitro trophoblast differentiation was previously demonstrated. Because the exchange of molecules through gap junctions is considered to play a major role in the control of cell and tissue differentiation, we studied the effects of a gap junctional uncoupler, heptanol, on morphological and functional trophoblast differentiation and on GJIC measured by the fluorescence recovery after photobleaching method. We found that when the GJIC was interrupted, CT still aggregated but fused poorly. This morphological effect was associated with a significant decrease of trophoblastic-specific gene expression (beta human chorionic gonadotropin and human chorionic somatomammotropin). This blocking action was reversible as demonstrated by recovery of GJIC and trophoblast differentiation process after heptanol removal. Moreover, the inhibition of the trophoblast differentiation did not affect Cx43 transcript expression and Cx43 protein expression. These data suggest that the molecular exchanges through gap junctions preceding cellular fusion are essential for trophoblast differentiation generating the multifunctional syncytiotrophoblast.
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| http://dx.doi.org/10.1095/biolreprod.103.016360 | DOI Listing |
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