囊胚形成时间与整倍体胚胎中线粒体含量的差异有关。

Blastulation timing is associated with differential mitochondrial content in euploid embryos.

机构信息

Department of Obstetrics and Gynecology, University of Southern California, Los Angeles, CA, USA.

USC Fertility Center, 1127 Wilshire Blvd, #1400, Los Angeles, CA, 90017, USA.

出版信息

J Assist Reprod Genet. 2018 Apr;35(4):711-720. doi: 10.1007/s10815-018-1113-9. Epub 2018 Jan 20.

DOI:10.1007/s10815-018-1113-9

PMID:29353449

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5949106/

Abstract

PURPOSE

Preimplantation genetic screening (PGS) and assessment of mitochondrial content (MC) are current methods for selection of the best embryos for transfer. Studies suggest that time-lapse morphokinetics (TLM) may also be helpful for selecting embryos more likely to implant. In our study, we sought to examine the relationship between TLM parameters and MC to determine if they could be used adjunctively in embryo selection. We also examined the relationship between MC with ploidy and blastulation.

METHODS

Cryopreserved human embryos at the zygote stage were thawed and cultured in a time-lapse system. Blastomere and trophectoderm biopsies were performed on days 3 and 6. Biopsied cells and all whole embryos from day 6 were analyzed for MC (ratio of mitochondrial to nuclear DNA) and ploidy using next-generation sequencing.

RESULTS

In embryos, MC per cell declined between day 3 and day 6. While early cleavage parameters did not predict MC, embryos with longer blastulation timing had higher MC on day 6. Day 6 MC was lower in euploid vs. aneuploid embryos and lower in blastocysts vs. arrested embryos.

CONCLUSIONS

A lower MC at the blastocyst stage was associated with euploid status and blastocyst formation, indicating better embryo quality compared to those with a higher MC. Higher MC in aneuploid and arrested embryos may be explained by slower cell division or degradation of genomic DNA over time. Blastulation timing may be helpful for selection of higher quality embryos. Combining blastulation timing and MC along with morphologic grading and euploid status may offer a new direction in embryo selection.

摘要

目的

胚胎植入前遗传学筛查（PGS）和线粒体含量（MC）评估是目前选择最佳胚胎进行移植的方法。研究表明，时差形态动力学（TLM）也可能有助于选择更有可能着床的胚胎。在我们的研究中，我们试图研究 TLM 参数与 MC 之间的关系，以确定它们是否可以辅助胚胎选择。我们还研究了 MC 与倍性和囊胚形成的关系。

方法

将处于受精卵阶段的冷冻人类胚胎解冻，并在时差系统中进行培养。在第 3 天和第 6 天进行卵裂球和滋养外胚层活检。使用下一代测序对第 6 天的活检细胞和所有整个胚胎进行 MC（线粒体与核 DNA 的比例）和倍性分析。

结果

胚胎中每个细胞的 MC 在第 3 天至第 6 天之间下降。虽然早期卵裂参数不能预测 MC，但胚胎孵化时间较长的胚胎在第 6 天的 MC 更高。整倍体胚胎的 MC 低于非整倍体胚胎，囊胚的 MC 低于停滞胚胎。

结论

囊胚阶段的 MC 较低与整倍体状态和囊胚形成有关，表明与 MC 较高的胚胎相比，胚胎质量更好。MC 较高的非整倍体和停滞胚胎可能是由于细胞分裂较慢或基因组 DNA 随时间降解所致。孵化时间可能有助于选择更高质量的胚胎。结合孵化时间和 MC 以及形态学分级和整倍体状态，可能为胚胎选择提供新的方向。

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