Aggregated chromosomes/chromatin transfer: a novel approach for mitochondrial replacement with minimal mitochondrial carryover: the implications of mouse experiments for human aggregated chromosome transfer.

IF 3.6 2区 医学 Q2 DEVELOPMENTAL BIOLOGY Molecular human reproduction Pub Date : 2023-11-29 DOI:10.1093/molehr/gaad043
R Okamoto, W Xiao, H Fukasawa, S Hirata, T Sankai, H Masuyama, J Otsuki
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Abstract

Nuclear transfer techniques, including spindle chromosome complex (SC) transfer and pronuclear transfer, have been employed to mitigate mitochondrial diseases. Nevertheless, the challenge of mitochondrial DNA (mtDNA) carryover remains unresolved. Previously, we introduced a method for aggregated chromosome (AC) transfer in human subjects, offering a potential solution. However, the subsequent rates of embryonic development have remained unexplored owing to legal limitations in Japan, and animal studies have been hindered by a lack of AC formation in other species. Building upon our success in generating ACs within mouse oocytes via utilization of the phosphodiesterase inhibitor 3-isobutyl 1-methylxanthine (IBMX), this study has established a mouse model for AC transfer. Subsequently, a comparative analysis of embryo development rates and mtDNA carryover between AC transfer and SC transfer was conducted. Additionally, the mitochondrial distribution around SC and AC structures was investigated, revealing that in oocytes at the metaphase II stage, the mitochondria exhibited a relatively concentrated arrangement around the spindle apparatus, while the distribution of mitochondria in AC-formed oocytes appeared to be independent of the AC position. The AC transfer approach produced a marked augmentation in rates of fertilization, embryo cleavage, and blastocyst formation, especially as compared to scenarios without AC transfer in IBMX-treated AC-formed oocytes. No significant disparities in fertilization and embryo development rates were observed between AC and SC transfers. However, relative real-time PCR analyses revealed that the mtDNA carryover for AC transfers was one-tenth and therefore significantly lower than that of SC transfers. This study successfully accomplished nuclear transfers with ACs in mouse oocytes, offering an insight into the potential of AC transfers as a solution to heteroplasmy-related challenges. These findings are promising in terms of future investigation with human oocytes, thus advancing AC transfer as an innovative approach in the field of human nuclear transfer methodology.

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聚集染色体/染色质转移:一种线粒体替代的新方法,具有最小的线粒体携带-小鼠实验对人类聚集染色体转移的影响。
核转移技术,包括纺锤体染色体复合体(SC)转移和原核(PN)转移,已被用于减轻线粒体疾病。然而,线粒体DNA (mtDNA)携带的挑战仍未解决。之前,我们介绍了一种人类受试者聚集染色体(AC)转移的方法,提供了一种潜在的解决方案。然而,由于日本的法律限制,胚胎发育的后续速度仍未得到探索,动物研究也因其他物种缺乏AC形成而受到阻碍。基于我们利用磷酸二酯酶抑制剂IBMX(3-异丁基- 1-甲基黄嘌呤)在小鼠卵母细胞内成功生成AC,本研究建立了AC转移的小鼠模型。随后,比较分析了AC移植和SC移植的胚胎发育率和mtDNA携带率。此外,我们对SC和AC结构周围的线粒体分布进行了研究,发现在II中期的卵母细胞中,线粒体在纺锤体周围表现出相对集中的排列,而在AC形成的卵母细胞中,线粒体的分布似乎与AC位置无关。交流电移植可显著提高受精率、胚胎分裂率和囊胚形成率,特别是与未经交流电移植的IBMX处理的交流形成的卵母细胞相比。AC和SC移植在受精率和胚胎发育率方面没有显著差异。然而,相对实时PCR分析显示,AC转移的mtDNA携带率为十分之一,因此显著低于SC转移。本研究成功地在小鼠卵母细胞中完成了AC的核移植,为AC移植作为异质相关挑战的解决方案的潜力提供了深入的见解。这些发现为今后对人类卵母细胞的研究提供了前景,从而推动了AC移植作为人类核移植方法论领域的一种创新方法。
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
Molecular human reproduction
Molecular human reproduction 生物-发育生物学
CiteScore
8.30
自引率
0.00%
发文量
37
审稿时长
6-12 weeks
期刊介绍: MHR publishes original research reports, commentaries and reviews on topics in the basic science of reproduction, including: reproductive tract physiology and pathology; gonad function and gametogenesis; fertilization; embryo development; implantation; and pregnancy and parturition. Irrespective of the study subject, research papers should have a mechanistic aspect.
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