Single-cell DNA sequencing reveals a high incidence of chromosomal abnormalities in human blastocysts
Effrosyni A. Chavli, … , Geert J.P.L. Kops, Esther B. Baart
Effrosyni A. Chavli, … , Geert J.P.L. Kops, Esther B. Baart
Published January 4, 2024
Citation Information: J Clin Invest. 2024;134(6):e174483. https://doi.org/10.1172/JCI174483.
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Research Article Genetics Reproductive biology

Single-cell DNA sequencing reveals a high incidence of chromosomal abnormalities in human blastocysts

Abstract

Aneuploidy, a deviation from the normal chromosome copy number, is common in human embryos and is considered a primary cause of implantation failure and early pregnancy loss. Meiotic errors lead to uniformly abnormal karyotypes, while mitotic errors lead to chromosomal mosaicism: the presence of cells with at least 2 different karyotypes within an embryo. Knowledge about mosaicism in blastocysts mainly derives from bulk DNA sequencing (DNA-Seq) of multicellular trophectoderm (TE) and/or inner cell mass (ICM) samples. However, this can only detect an average net gain or loss of DNA above a detection threshold of 20%–30%. To accurately assess mosaicism, we separated the TE and ICM of 55 good-quality surplus blastocysts and successfully applied single-cell whole-genome sequencing (scKaryo-Seq) on 1,057 cells. Mosaicism involving numerical and structural chromosome abnormalities was detected in 82% of the embryos, in which most abnormalities affected less than 20% of the cells. Structural abnormalities, potentially caused by replication stress and DNA damage, were observed in 69% of the embryos. In conclusion, our findings indicated that mosaicism was prevalent in good-quality blastocysts, whereas these blastocysts would likely be identified as normal with current bulk DNA-Seq techniques used for preimplantation genetic testing for aneuploidy.

Authors

Effrosyni A. Chavli, Sjoerd J. Klaasen, Diane Van Opstal, Joop S.E. Laven, Geert J.P.L. Kops, Esther B. Baart

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Figure 1

Chromosomal mosaicism is common in human blastocysts.

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Chromosomal mosaicism is common in human blastocysts. (A) Schematic depi...
(A) Schematic depicting the embryo biopsy and disaggregation procedure for scKaryo-Seq. (B) Examples of scKaryo-Seq results as genome-wide copy number plots of 3 embryos, which had either normal cells (embryo 55, n = 10 cells), normal and abnormal cells (embryo 4, n = 27 cells), or only abnormal cells (embryo 29, n = 20 cells). Embryo 4 and embryo 29 are both mosaic, as mitotic errors are involved. Every row represents a single cell and every column is a different chromosome. The colors portray copy number states. All abnormalities are presented regardless of the quality control result. Colors on the left depict TE (black) or ICM cells (gray). The embryo numbers refer to Supplemental Table 3. For these embryos, embryoscope videos are available showing normal morphological development (Supplemental Videos 1–3). (C) Pie chart of the percentage of embryos that had only normal cells (normal, n = 6 of 55), normal and abnormal cells (diploid-aneuploid mosaic, n = 32 of 55), cytogenetically different abnormal cells (aneuploid mosaic, n = 13 of 55), and cytogenetically identical abnormal cells (uniformly abnormal, n = 4 of 55). (D) Percentage of normal cells per mosaic embryo. Diploid-aneuploid and aneuploid mosaic embryos are depicted in pink and purple, respectively (data indicate the mean ± SEM.) (E) Correlation between the percentage of chromosomally normal cells and the total number of disaggregated cells per embryo (n = 27, linear regression). (F) Correlation between the percentage of chromosomally normal cells and the blastocyst expansion rate per embryo (n = 27, linear regression). (G) Pie chart of the percentage of mosaic embryos affected by 1, 2, 3, or more than 3 events (mitotic error). Common abnormalities within daughter cells are considered to be the result of 1 event.