Blocking lactate regulation of the Grhl2/SLC31A1 axis inhibits trophoblast cuproptosis and preeclampsia development

IF 3.2 3区医学 Q2 GENETICS & HEREDITY

Journal of Assisted Reproduction and Genetics Pub Date : 2024-09-17 DOI:10.1007/s10815-024-03256-w

Xue-Yan Shen, Jing Huang, Li-Li Chen, Man-Ting Sha, Jing Gao, Hong Xin

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引用次数: 0

Abstract

Purpose

Abnormal cell death due to superficial trophoblast dysfunction caused by placental hypoxia plays a vital role in the development of preeclampsia (PE). Lactic acid stimulates gene transcription in chromatin through lactate modification of histone lysine. Nevertheless, the content and function of lactate in PE development remains largely unclear.

Methods

The contents of lactic acid and copper in 30 PE and 30 normal placentas were determined by kit colorimetry. Real-time quantitative fluorescent PCR (qRT-PCR) and Western blot were used to detect the expression of SLC31A1 in cells and tissues. Cell proliferation, apoptosis, and invasion were detected by cell counting kit 8 (CCK-8), MTS assay, colony formation assay, and Transwell assay. The transcriptional regulation between Grhl2 and SLC31A was verified by the luciferase reporter gene method and ChIP. The H3K18la modification level was detected by ChIP-PCR.

Results

Herein, we detected increased lactic acid levels in the PE placental tissue, which inhibit the proliferation and invasion of trophoblasts. Interestingly, lactic acid increases intracellular copper content by enhancing the expression of SLC31A1, a key protein of copper ion transporters. Lentivirus knockdown of SLC31A1 blocked the lactate-induced proliferation and invasion of trophoblasts by inhibiting cell cuproptosis. Mechanically, we identified that Grhl2 mediated SLC31A1 expression through transcription and participated in SLC31A1-inhibited proliferation, invasion, and cuproptosis of trophoblasts. Furthermore, the high lactate content increased Grhl2 expression by enhancing lactate modification of histone H3K18 in the Grhl2 promoter region.

Conclusions

Blocking the lactate-regulated Grhl2/SLC31A1 axis and trophoblastic cuproptosis may be a potential approach to prevent and treat PE.

Abstract Image

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阻断乳酸对Grhl2/SLC31A1轴的调控可抑制滋养细胞杯突和子痫前期的发展

目的胎盘缺氧导致表层滋养层功能障碍，从而导致细胞异常死亡，这在子痫前期（PE）的发病中起着至关重要的作用。乳酸通过乳酸修饰组蛋白赖氨酸刺激染色质中的基因转录。方法采用试剂盒比色法测定 30 个子痫前期胎盘和 30 个正常胎盘中乳酸和铜的含量。采用实时荧光定量 PCR（qRT-PCR）和 Western 印迹法检测 SLC31A1 在细胞和组织中的表达。细胞计数试剂盒8（CCK-8）、MTS试验、集落形成试验和Transwell试验检测细胞增殖、凋亡和侵袭。荧光素酶报告基因法和 ChIP 验证了 Grhl2 和 SLC31A 之间的转录调控。结果我们检测到 PE 胎盘组织中乳酸水平升高，从而抑制滋养细胞的增殖和侵袭。有趣的是，乳酸通过增强铜离子转运体的关键蛋白 SLC31A1 的表达来增加细胞内的铜含量。慢病毒敲除 SLC31A1 可抑制细胞杯突，从而阻断乳酸诱导的滋养细胞增殖和侵袭。我们发现，Grhl2通过转录介导了SLC31A1的表达，并参与了SLC31A1抑制滋养细胞增殖、侵袭和杯突症的过程。结论阻断乳酸调控的Grhl2/SLC31A1轴和滋养层杯突可能是预防和治疗PE的一种潜在方法。

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

Journal of Assisted Reproduction and Genetics 医学-妇产科学

CiteScore

5.70

自引率

9.70%

发文量

286

审稿时长

1 months

期刊介绍： The Journal of Assisted Reproduction and Genetics publishes cellular, molecular, genetic, and epigenetic discoveries advancing our understanding of the biology and underlying mechanisms from gametogenesis to offspring health. Special emphasis is placed on the practice and evolution of assisted reproduction technologies (ARTs) with reference to the diagnosis and management of diseases affecting fertility. Our goal is to educate our readership in the translation of basic and clinical discoveries made from human or relevant animal models to the safe and efficacious practice of human ARTs. The scientific rigor and ethical standards embraced by the JARG editorial team ensures a broad international base of expertise guiding the marriage of contemporary clinical research paradigms with basic science discovery. JARG publishes original papers, minireviews, case reports, and opinion pieces often combined into special topic issues that will educate clinicians and scientists with interests in the mechanisms of human development that bear on the treatment of infertility and emerging innovations in human ARTs. The guiding principles of male and female reproductive health impacting pre- and post-conceptional viability and developmental potential are emphasized within the purview of human reproductive health in current and future generations of our species. The journal is published in cooperation with the American Society for Reproductive Medicine, an organization of more than 8,000 physicians, researchers, nurses, technicians and other professionals dedicated to advancing knowledge and expertise in reproductive biology.