1. Placental extracellular vesicles promote cardiomyocyte maturation and fetal heart development.
- Author
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Jeyarajah, Mariyan J., Patterson, Violet S., Jaju Bhattad, Gargi, Zhao, Lin, Whitehead, Shawn N., and Renaud, Stephen J.
- Subjects
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FETAL heart , *TRANSCRIPTION factors , *CONGENITAL heart disease , *HEART development , *EXTRACELLULAR vesicles , *TROPHOBLAST - Abstract
Congenital heart defects are leading causes of neonatal mortality and are often associated with placental abnormalities, but mechanisms linking placenta and heart development are poorly understood. Herein, we investigated a potential signaling network connecting the placenta and nascent heart in mice. We found that fetal hearts exposed to media conditioned by placental tissue or differentiated wild-type trophoblast stem (TS) cells, but not undifferentiated TS cells, showed increased heart rate and epicardial cell outgrowth. This effect was not observed when hearts were exposed to media from TS cells lacking OVO-Like 2, a transcription factor required for trophoblast differentiation and placental development. Trophoblasts released abundant extracellular vesicles into media, and these vesicles were sufficient to mediate cardio-promoting effects. Our findings provide a potential mechanism whereby the placenta communicates with the fetal heart to promote cardiac morphogenesis, and offers insight into the link between poor placentation and a higher incidence of heart defects. Poor development of the placenta is linked with heart problems. This study reveals that extracellular vesicles from placental trophoblasts promote heart development in mice, shedding light on how placental health affects cardiac formation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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