Dimethyl sulfoxide-induced DNA demethylation during vitrification of early cleavage-stage embryos and possible countermeasures.

IF 2.7 3区医学 Q2 GENETICS & HEREDITY Journal of Assisted Reproduction and Genetics Pub Date : 2025-04-01 Epub Date: 2025-02-05 DOI:10.1007/s10815-025-03415-7

M Shida, J Ito, Y Inoue, S Hara, K Shirasuna, H Iwata

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Abstract

Purpose: Dimethyl sulfoxide (DMSO) alters DNA methylation in vitrified-warmed embryos and potentially affects subsequent development. This study aimed to examine possible countermeasures against DMSO-induced demethylation.

Methods: In vitro-produced bovine embryos (8-cell stage) were vitrified using a combination of DMSO and ethylene glycol (EG) or propylene glycol (PG) + EG. After warming, the lipid content and expression levels of 5-methylcytosine (5mC), 5-hydroxymethylcytosine (5hmC), DNMTs, and TETs were examined. In addition, RNA-sequencing was performed on blastocysts derived from the vitrified embryos. Furthermore, the effect of supplementation with a vitrification medium containing DMSO and N-acetyl-L-cysteine (NAC, 5 mM) on the levels of 5mC in embryos was examined.

Results: Vitrification decreased the levels of 5mC and increased the levels of 5hmC in 8-cell stage embryos. Low levels of 5mC persisted until the blastocyst stage in the DMSO group but increased in the PG group. The expression level of TET3A was higher in the DMSO group than in the fresh group, but not in the PG group. Both cryoprotectants reduced the lipid levels in post-warmed 8-cell stage embryos. The addition of NAC ameliorated DMSO-induced demethylation at both the 8-cell and blastocyst stages. RNA-seq analysis revealed that PG-specific pathways included ribosomes and mitochondria and that both DMSO and PG affected cGMP-PGK, MAPK, Wnt, and insulin secretion-related signaling. The K-medoids method predicted that DMSO affected cell adhesion molecules and that MAPK signaling was affected the most.

Conclusions: PG and NAC may antagonize DMSO-induced demethylation; however, PG exerts adverse effects on embryos.

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早期分裂期胚胎玻璃化过程中二甲基亚砜诱发的 DNA 去甲基化及可能的对策。

目的：二甲基亚砜（DMSO）改变玻璃化加热胚胎的DNA甲基化，并可能影响随后的发育。本研究旨在探讨dmso诱导的去甲基化的可能对策。方法：用DMSO和乙二醇（EG）或丙二醇(PG) + EG的混合物玻璃化体外生产的牛胚胎（8细胞期）。加热后检测5-甲基胞嘧啶（5mC）、5-羟甲基胞嘧啶（5hmC）、DNMTs和TETs的脂质含量和表达水平。此外，还对玻璃化胚胎产生的囊胚进行了rna测序。此外，还研究了添加含有DMSO和n -乙酰- l-半胱氨酸（NAC, 5 mM）的玻璃化培养基对胚胎中5mC水平的影响。结果：玻璃化使8细胞期胚胎5mC水平降低，5hmC水平升高。DMSO组低水平的5mC持续到囊胚期，而PG组升高。TET3A在DMSO组的表达水平高于新鲜组，而PG组没有。两种冷冻保护剂均可降低8细胞期胚胎的脂质水平。NAC的加入改善了dmso诱导的8细胞和囊胚阶段的去甲基化。RNA-seq分析显示，PG特异性通路包括核糖体和线粒体，DMSO和PG均影响cGMP-PGK、MAPK、Wnt和胰岛素分泌相关信号。K-medoids方法预测DMSO影响细胞粘附分子，MAPK信号受影响最大。结论：PG和NAC可拮抗dmso诱导的去甲基化；然而，PG对胚胎有不良影响。

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.