FXYD1被确定为复发性流产中的一个枢纽基因,并通过调节钠钾ATP酶活性参与蜕膜化过程。
FXYD1 was identified as a hub gene in recurrent miscarriage and involved in decidualization via regulating Na/K-ATPase activity.
作者信息
Gan Jie, Yang Long, Yang Shu-Han, Gu Wen-Wen, Gu Yan, Shi Yan, Shi Jia-Xin, Xu Hao-Ran, Xin Ya-Wei, Zhang Xuan, Wang Jian
机构信息
Shanghai-MOST Key Laboratory of Health and Disease Genomics, NHC Key Lab of ReproductionRegulation,Shanghai Institute for Biomedical and Pharmaceutical Technologies,Medical School, Fudan University, Shanghai, 200237, China.
The Second Hospital of Tianjin Medical University, Tianjin, 300221, China.
出版信息
J Assist Reprod Genet. 2025 Feb;42(2):665-678. doi: 10.1007/s10815-024-03363-8. Epub 2024 Dec 27.
PURPOSE
Recurrent miscarriage (RM) is a distressing and complicated adverse pregnancy outcome. It is commonly recognized that insufficient decidualization could result in RM, but the molecular mechanisms of decidual impairment are still not fully understood. Thus, this study aimed to identify novel key genes potentially involved in RM and explore their roles played in endometrial decidualization.
METHODS
Initially, a combinative analysis of decidual and mid-secretory endometrial transcriptomes was performed to discover hub genes involved in the etiology of RM. And the expression levels of hub genes were evaluated in both primary decidual stromal cells (DSCs) and decidual tissues. Subsequently, the immortalized human endometrial cell line, T-HESCs, was used to investigate whether FXYD1 overexpression affects decidualization by regulating Na/K-ATPase activity.
RESULTS
FXYD domain containing ion transport regulator 1 (FXYD1) was identified as a hub gene in the pathogenesis of RM through various bioinformatic methods. Abnormally increased FXYD1 expression was observed in DSCs and decidual tissues from RM patients compared to that of the normal group. Furthermore, in vitro decidualization was obviously inhibited by the overexpression of FXYD1. Additionally, Na/K-ATPase activity was significantly elevated during decidualization, whereas overexpression of FXYD1 reduced Na/K-ATPase activity. Bufalin, a Na/K-ATPase inhibitor, showed an effectively inhibitory effect on decidualization.
CONCLUSIONS
Collectively, FXYD1 was discovered as a hub gene associated with RM, and its expression levels in RM patients were significantly upregulated. Increased FXYD1 expression might lead to decidualization defects by reducing Na/K-ATPase activity, of which presented a novel prospective treatment target for RM.
目的
复发性流产(RM)是一种令人苦恼且复杂的不良妊娠结局。人们普遍认为蜕膜化不足会导致复发性流产,但蜕膜损伤的分子机制仍未完全阐明。因此,本研究旨在鉴定可能参与复发性流产的新关键基因,并探讨它们在子宫内膜蜕膜化中所起的作用。
方法
首先,对蜕膜和分泌中期子宫内膜转录组进行联合分析,以发现参与复发性流产病因的枢纽基因。并在原代蜕膜基质细胞(DSCs)和蜕膜组织中评估枢纽基因的表达水平。随后,使用永生化人子宫内膜细胞系T-HESCs来研究FXYD1过表达是否通过调节钠钾ATP酶活性影响蜕膜化。
结果
通过各种生物信息学方法,含FXYD结构域的离子转运调节因子1(FXYD1)被鉴定为复发性流产发病机制中的枢纽基因。与正常组相比,在复发性流产患者的DSCs和蜕膜组织中观察到FXYD1表达异常增加。此外,FXYD1过表达明显抑制了体外蜕膜化。另外,在蜕膜化过程中钠钾ATP酶活性显著升高,而FXYD1过表达降低了钠钾ATP酶活性。蟾毒灵,一种钠钾ATP酶抑制剂,对蜕膜化显示出有效的抑制作用。
结论
总的来说,FXYD1被发现是与复发性流产相关的枢纽基因,其在复发性流产患者中的表达水平显著上调。FXYD1表达增加可能通过降低钠钾ATP酶活性导致蜕膜化缺陷,这为复发性流产提供了一个新的潜在治疗靶点。
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