The press-assisted fusion scheme significantly mitigates the quantity of HVJ-E required in mitochondrial replacement techniques.

IF 3.7 3区 生物学 Q1 DEVELOPMENTAL BIOLOGY
Reproduction Pub Date : 2024-01-01 DOI:10.1530/REP-23-0238
Meng Ma, Shutian Jiang, Wei Jin, Wenzhi Li, Chen Chen, Kaibo Lin, Xiaoyu Liao, Danjun Li, Yanping Kuang, Qifeng Lyu
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Abstract

In brief: The impact of HVJ-E employed in mitochondrial replacement techniques (MRTs) on embryonic development remains uncertain. This study has exhibited the influence of HVJ-E utilized in MRTs on embryonic development and has devised a novel HVJ-E-induced fusion approach to curtail the amount of HVJ-E employed in MRTs. Abstract: Mitochondrial replacement techniques (MRTs) provide a viable option for women carrying pathogenic mitochondrial DNA (mtDNA) variants to conceive disease-free offspring with a genetic connection. In comparison to electrofusion, HVJ-E-induced fusion has been identified as the most promising approach for clinical translation of MRTs due to its absence of electrical interference. However, despite confirmation of the absence of RNA activity in HVJ-E, a reduction in blastocyst quality has been observed in various MRTs studies utilizing the HVJ-E-induced fusion scheme. Recent investigations have revealed a dose-dependent elevation of reactive oxygen species (ROS) levels in various cancer cells incubated with HVJ-E. However, the impact of HVJ-E as a sole determinant on embryonic development in MRTs remains unverified. This investigation establishes that the augmented concentration of HVJ-E utilized in the conventional HVJ-E fusion protocol is an autonomous variable that influences embryonic development in MRTs. This effect may be attributed to amplified DNA damage resulting from heightened levels of ROS in reconstructed embryos. To mitigate the presence of HVJ-E in reconstructed zygotes while maintaining optimal fusion efficiency in MRTs, a novel HVJ-E-induced fusion approach was devised, namely, press-assisted fusion. This technique offers potential advantages in reducing detrimental factors that impede embryo development in MRTs.

按压辅助融合方案大大减少了线粒体置换技术所需的 HVJ-E 数量。
简而言之:线粒体置换技术(MRT)中使用的HVJ-E对胚胎发育的影响仍不确定。本研究展示了线粒体置换技术中使用的 HVJ-E 对胚胎发育的影响,并设计了一种新型的 HVJ-E 诱导融合方法,以减少线粒体置换技术中使用的 HVJ-E 数量。摘要:线粒体置换技术(MRTs)为携带致病线粒体DNA(mtDNA)变异体的妇女提供了一种可行的选择,使她们能怀上无病且有遗传联系的后代。与电融合相比,HVJ-E 诱导的融合因其无电干扰而被认为是最有希望将 MRTs 转化为临床应用的方法。然而,尽管已证实 HVJ-E 中不存在 RNA 活性,但在使用 HVJ-E 诱导融合方案的各种 MRTs 研究中,仍观察到囊胚质量下降。最近的研究表明,在与 HVJ-E 培养的各种癌细胞中,活性氧(ROS)水平的升高是剂量依赖性的。然而,HVJ-E 作为唯一决定因素对 MRT 胚胎发育的影响仍未得到证实。这项研究证实,传统 HVJ-E 融合方案中使用的高浓度 HVJ-E 是影响 MRT 胚胎发育的一个自主变量。这种影响可能是由于重建胚胎中的 ROS 水平升高导致 DNA 损伤扩大。为了减轻重构胚胎中 HVJ-E 的存在,同时保持 MRT 的最佳融合效率,我们设计了一种新的 HVJ-E 诱导融合方法,即按压辅助融合。这种技术在减少阻碍 MRT 胚胎发育的不利因素方面具有潜在优势。
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
Reproduction
Reproduction 生物-发育生物学
CiteScore
7.40
自引率
2.60%
发文量
199
审稿时长
4-8 weeks
期刊介绍: Reproduction is the official journal of the Society of Reproduction and Fertility (SRF). It was formed in 2001 when the Society merged its two journals, the Journal of Reproduction and Fertility and Reviews of Reproduction. Reproduction publishes original research articles and topical reviews on the subject of reproductive and developmental biology, and reproductive medicine. The journal will consider publication of high-quality meta-analyses; these should be submitted to the research papers category. The journal considers studies in humans and all animal species, and will publish clinical studies if they advance our understanding of the underlying causes and/or mechanisms of disease. Scientific excellence and broad interest to our readership are the most important criteria during the peer review process. The journal publishes articles that make a clear advance in the field, whether of mechanistic, descriptive or technical focus. Articles that substantiate new or controversial reports are welcomed if they are noteworthy and advance the field. Topics include, but are not limited to, reproductive immunology, reproductive toxicology, stem cells, environmental effects on reproductive potential and health (eg obesity), extracellular vesicles, fertility preservation and epigenetic effects on reproductive and developmental processes.
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