Department of Obstetrics and Gynecology, Montefiore Medical Center/Albert Einstein College of Medicine, Bronx, New York.
Department of Genetics, Albert Einstein College of Medicine, Bronx, New York.
Fertil Steril. 2021 Jun;115(6):1533-1540. doi: 10.1016/j.fertnstert.2020.11.007. Epub 2021 Feb 12.
To establish a workflow for isolating single trophectoderm (TE) and inner cell mass (ICM) cells and to simultaneously evaluate these cells for copy number variation (CNV) as well as methylome development.
Experimental.
Academic medical center.
PATIENT(S): Donated genetically abnormal blastocysts.
INTERVENTION(S): Single cells were isolated, followed by bisulfite conversion and sequencing to identify CNV and methylome profiles.
MAIN OUTCOME MEASURE(S): CNV and methylation profiling.
RESULT(S): Two embryos were dissociated, isolating 46 single cells, with 17 ICM and 12 TE cells selected for further downstream analysis. Chromosome ploidies and embryo sex were concordant with the results from conventional aneuploidy testing. In 3 of the 29 cells, additional aneuploidies were discovered, indicating possible mosaicism undetected by routine preimplantation genetic testing for aneuploidy. CpG methylation frequency was higher in ICM cells compared with TE cells (44.3% vs. 32.4%), respectively, while non-CpG methylation frequency was similar among both cell types. CpG methylation levels accurately distinguished ICM from TE cells epigenetically.
CONCLUSION(S): We describe an effective workflow for isolating and sequencing single ICM and TE cells from human blastocysts. The use of methylation profiling can help distinguish these two cell populations better then morphologic identification alone. TE cells had significantly lower levels of DNA methylation, which may be explained in part by the fact that these cells have begun the process of differentiation and are transcriptionally more active than ICM. This approach may be used to explore the genetic complexities within human embryos, specifically among the two primary cell types seen at this stage of development.
建立一种分离单个滋养外胚层(TE)和内细胞团(ICM)细胞的工作流程,并同时评估这些细胞的拷贝数变异(CNV)和甲基组发育。
实验性。
学术医疗中心。
捐赠的遗传异常胚泡。
分离单个细胞,然后进行亚硫酸氢盐转化和测序,以鉴定 CNV 和甲基组谱。
CNV 和甲基化谱分析。
两个胚胎被分离,分离出 46 个单个细胞,其中 17 个 ICM 和 12 个 TE 细胞被选择用于进一步的下游分析。染色体倍性和胚胎性别与常规非整倍体检测的结果一致。在 29 个细胞中的 3 个中,发现了额外的非整倍体,表明可能存在常规胚胎植入前非整倍体检测无法检测到的嵌合体。ICM 细胞中的 CpG 甲基化频率高于 TE 细胞(分别为 44.3%和 32.4%),而非 CpG 甲基化频率在两种细胞类型之间相似。CpG 甲基化水平可以准确地区分 ICM 和 TE 细胞的表观遗传特征。
我们描述了一种从人类胚泡中分离和测序单个 ICM 和 TE 细胞的有效工作流程。使用甲基化谱分析可以帮助更好地区分这两种细胞群体,而不仅仅是形态学鉴定。TE 细胞的 DNA 甲基化水平显著降低,这部分可以解释为这些细胞已经开始分化过程,并且比 ICM 具有更高的转录活性。这种方法可用于探索人类胚胎中的遗传复杂性,特别是在这个发育阶段看到的两个主要细胞类型中。
