Chemerin sustains the growth of spongiotrophoblast and sinusoidal trophoblast giant cells through fatty acid oxidation.

IF 4.4 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2025-07-03 DOI:10.1186/s12915-025-02294-9

Jia Xuan Cai, Ai Wen Le, Xin Yue Han, Jie Chen, Xiao Hua Lei, Chen Huang, Jian V Zhang

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Abstract

Background: Placental metabolic dysfunction is associated with pregnancy complications, including preeclampsia, gestational diabetes mellitus, and fetal growth restriction. However, little is known about how the metabolic processes regulate placental development and trophoblast differentiation. The adipokine chemerin, whose serum level is elevated during pregnancy, regulates the placental lipid metabolism and may influence placental development and trophoblast differentiation.

Results: In this study, we observed the increased chemerin expression in the serum and placenta of the pregnant mice. Chemerin is highly expressed in the extraembryonic primary parietal trophoblast giant cells and the ectoplacental cone (EPC) trophoblast cells. Excessive chemerin treatment in mice results in increased placental lipid accumulation, promotes the expansion of glycogen trophoblast cell (GlyT) and syncytiotrophoblast, and restricts the growth of spongiotrophoblast (SpT) and sinusoidal trophoblast giant cell (S-TGC). Chemerin deficiency led to increased expression of placental fatty acid oxidation enzymes and disrupted the proliferation of SpT and S-TGC in the labyrinth. Furthermore, we utilized the fatty acid oxidation inhibitor etomoxir and demonstrated that blocking fatty acid oxidation hinders the proliferation of SpT and S-TGC in the labyrinth.

Conclusions: Our study demonstrated that chemerin-related lipid metabolism is crucial for EPC trophoblast differentiation during placental development, providing evidence that chemerin determines the growth of SpT and S-TGC through fatty acid oxidation. These findings also imply a possible pathological mechanism for pregnancy complications associated with chemerin.

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趋化素通过脂肪酸氧化维持海绵状滋养细胞和窦状滋养细胞巨细胞的生长。

背景：胎盘代谢障碍与妊娠并发症有关，包括先兆子痫、妊娠糖尿病和胎儿生长受限。然而，对代谢过程如何调节胎盘发育和滋养细胞分化知之甚少。妊娠期血清中脂肪因子趋化素水平升高，调节胎盘脂质代谢，影响胎盘发育和滋养细胞分化。结果：在本研究中，我们观察到妊娠小鼠血清和胎盘中趋化素的表达增加。趋化素在胚胎外原代壁滋养层巨细胞和胎盘外锥（EPC）滋养层细胞中高度表达。小鼠过度趋化素处理导致胎盘脂质积累增加，促进糖原滋养细胞（GlyT）和合胞滋养细胞的扩张，限制海绵状滋养细胞（SpT）和窦状滋养细胞巨细胞（S-TGC）的生长。趋化素缺乏导致胎盘脂肪酸氧化酶表达增加，打乱了迷宫中SpT和S-TGC的增殖。此外，我们利用脂肪酸氧化抑制剂依托莫西（etomoxir），证实阻断脂肪酸氧化可抑制迷宫中SpT和S-TGC的增殖。结论：我们的研究表明，趋化素相关的脂质代谢对胎盘发育过程中EPC滋养细胞的分化至关重要，证明趋化素通过脂肪酸氧化决定SpT和S-TGC的生长。这些发现也暗示了与chemerin相关的妊娠并发症的可能病理机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Biology 生物-生物学

CiteScore

7.80

自引率

1.90%

发文量

260

审稿时长

3 months

期刊介绍： BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.