Autologous non-invasively derived stem cells mitochondria transfer shows therapeutic advantages in human embryo quality rescue.

IF 4.3 2区 生物学 Q1 BIOLOGY Biological Research Pub Date : 2023-11-17 DOI:10.1186/s40659-023-00470-1
Zhixin Jiang, Cheng Shi, Hongjing Han, Min Fu, Honglan Zhu, Tingting Han, Jia Fei, Yining Huang, Zhiping Jin, Jianan He, Yanbin Wang, Xi Chen, Huan Shen
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Abstract

Background: The decline in the quantity and quality of mitochondria are closely associated with infertility, particularly in advanced maternal age. Transferring autologous mitochondria into the oocytes of infertile females represents an innovative and viable strategy for treating infertility, with no concerns regarding ethical considerations. As the donor cells of mitochondria, stem cells have biological advantages but research and evidence in this area are quite scarce.

Methods: To screen out suitable human autologous ooplasmic mitochondrial donor cells, we performed comprehensive assessment of mitochondrial physiology, function and metabolic capacity on a varity of autologous adipose, marrow, and urine-derived mesenchymal stromal cells (ADSC, BMSC and USC) and ovarian germline granulosa cells (GC). Further, to explore the biosafety, effect and mechanism of stem cell-derived mitochondria transfer on human early embryo development, randomized in-vitro basic studies were performed in both of the young and aged oocytes from infertile females.

Results: Compared with other types of mesenchymal stromal cells, USC demonstrated a non-fused spherical mitochondrial morphology and low oxidative stress status which resembled the oocyte stage. Moreover, USC mitochondrial content, activity and function were all higher than other cell types and less affected by age, and it also exhibited a biphasic metabolic pattern similar to the pre-implantation stage of embryonic development. After the biosafety identification of the USC mitochondrial genome, early embryos after USC mitochondrial transfer showed improvements in mitochondrial content, activity, and cytoplasmic Ca2+ levels. Further, aging embryos also showed improvements in embryonic morphological indicators, euploidy rates, and oxidative stress status.

Conclusion: Autologous non-invasively derived USC mitochondria transfer may be an effective strategy to improve embryonic development and metabolism, especially in infertile females with advanced age or repeated pregnancy failure. It provides evidence and possibility for the autologous treatment of infertile females without invasive and ethical concerns.

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自体非侵入性来源干细胞线粒体移植在人类胚胎质量修复中具有治疗优势。
背景:线粒体数量和质量的下降与不孕症密切相关,尤其是高龄产妇。将自体线粒体移植到不孕症女性的卵母细胞中是一种治疗不孕症的创新和可行的策略,无需考虑伦理问题。干细胞作为线粒体的供体细胞,具有生物学上的优势,但在这方面的研究和证据还很缺乏。方法:筛选合适的人自体卵浆线粒体供体细胞,对多种自体脂肪、骨髓和尿源间充质基质细胞(ADSC、BMSC和USC)和卵巢种系颗粒细胞(GC)进行线粒体生理、功能和代谢能力的综合评估。此外,为了探索干细胞来源的线粒体移植对人类早期胚胎发育的生物安全性、影响和机制,我们对来自不育女性的年轻和老年卵母细胞进行了随机体外基础研究。结果:与其他类型间充质间质细胞相比,USC表现出非融合的球形线粒体形态和低氧化应激状态,类似于卵母细胞阶段。此外,USC线粒体含量、活性和功能均高于其他细胞类型,受年龄的影响较小,并表现出类似于胚胎发育着床前阶段的双相代谢模式。在对USC线粒体基因组进行生物安全性鉴定后,USC线粒体移植后的早期胚胎显示出线粒体含量、活性和细胞质Ca2+水平的改善。此外,衰老胚胎还显示出胚胎形态学指标、整倍体率和氧化应激状态的改善。结论:自体无创源性USC线粒体移植可能是改善胚胎发育和代谢的有效策略,特别是在高龄或多次妊娠失败的不孕女性中。它为不孕症女性的自体治疗提供了证据和可能性,而无需担心侵入性和伦理问题。
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来源期刊
Biological Research
Biological Research 生物-生物学
CiteScore
10.10
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.
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