Autor: |
Inohaya, Asako, Chigusa, Yoshitsugu, Takakura, Masahito, Io, Shingo, Kim, Min-A, Matsuzaka, Yu, Yasuda, Eriko, Ueda, Yusuke, Kawamura, Yosuke, Takamatsu, Shiro, Mogami, Haruta, Takashima, Yasuhiro, Mandai, Masaki, Kondoh, Eiji |
Zdroj: |
Biology of Reproduction; February 2024, Vol. 110 Issue: 2 p300-309, 10p |
Abstrakt: |
The intervillous space of human placenta is filled with maternal blood, and villous trophoblasts are constantly exposed to the shear stress generated by maternal blood pressure and flow throughout the entire gestation period. However, the effects of shear stress on villous trophoblasts and their biological significance remain unknown. Here, using our recently established naïve human pluripotent stem cells-derived cytotrophoblast stem cells (nCTs) and a device that can apply arbitrary shear stress to cells, we investigated the impact of shear stress on early-stage trophoblasts. After 72 h of exposure to 10 dyn/cm2shear stress, nCTs became fused and multinuclear, and mRNA expression of the syncytiotrophoblast (ST) markers, such as glial cell missing 1, endogenous retrovirus group W member 1 envelope, chorionic gonadotropin subunit beta 3, syndecan 1, pregnancy specific beta-1-glycoprotein 3, placental growth factor, and solute carrier family 2 member 1 were significantly upregulated compared to static conditions. Immunohistochemistry showed that shear stress increased fusion index, human chorionic gonadotropin secretion, and human placental lactogen secretion. Increased microvilli formation on the surface of nCTs under flow conditions was detected using scanning electron microscopy. Intracellular cyclic adenosine monophosphate significantly increased under flow conditions. Moreover, transcriptome analysis of nCTs subjected to shear stress revealed that shear stress upregulated ST-specific genes and downregulated CT-specific genes. Collectively, these findings indicate that shear stress promotes the differentiation of nCTs into ST.Fluid shear stress acts on naïve human pluripotent stem cell-derived cytotrophoblasts, causing cell fusion, increased hormone secretion and microvilli formation, and upregulated syncytiotrophoblast specific genes, thereby promoting syncytialization.Graphical Abstract |
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