Verdyck Pieter, Berckmoes Veerle, Van Laere Sven, Keymolen Kathelijn, Olsen Catharina, De Rycke Martine
Vrije Universiteit Brussel (VUB), Universitair Ziekenhuis Brussel (UZ Brussel), Centrum Medische Genetica, Laarbeeklaan 101, Brussels 1090, Belgium.
Vrije Universiteit Brussel (VUB), Universitair Ziekenhuis Brussel (UZ Brussel), Centrum Medische Genetica, Laarbeeklaan 101, Brussels 1090, Belgium.
Reprod Biomed Online. 2022 Mar;44(3):459-468. doi: 10.1016/j.rbmo.2021.10.023. Epub 2021 Nov 10.
Can (mosaic) aneuploidy be reliably detected in preimplantation embryos after multiple displacement amplification and single nucleotide polymorphism detection, independent of haplotyping and copy number detection, with a new method 'analysis of parental contribution for aneuploidy detection' or 'APCAD'?
This method is based on the maternal contribution, a parameter that reflects the proportion of DNA that is of maternal origin for a given chromosome or chromosome segment. A maternal contribution deviating from 50% for autosomes is strongly indicative of a (mosaic) chromosomal anomaly. The method was optimized using cell mixtures with varying ratios of euploid and aneuploid (47,XY,+21) lymphocytes. Next, the maternal contribution was retrospectively measured for all chromosomes from 349 Karyomapping samples.
Retrospective analysis showed a skewed maternal contribution (<36.4 or >63.6%) in 57 out of 59 autosome meiotic trisomies and all autosome monosomies (n = 57), with values close to theoretical expectation. Thirty-two out of 7436 chromosomes, for which no anomalies had been observed with Karyomapping, showed a similarly skewed maternal contribution.
APCAD was used to measure the maternal contribution, which is an intuitive parameter independent of copy number detection. This method is useful for detecting copy number neutral anomalies and can confirm diagnosis of (mosaic) aneuploidy detected based on copy number. Mosaic and complete aneuploidy can be distinguished and the parent of origin for (mosaic) chromosome anomalies can be determined. Because of these benefits, the APCAD method has the potential to improve aneuploidy detection carried out by comprehensive preimplantation genetic testing methods.
能否通过一种新方法“非整倍体检测的亲本贡献分析”(APCAD),在多重置换扩增和单核苷酸多态性检测后,独立于单倍型分型和拷贝数检测,在植入前胚胎中可靠地检测出(嵌合)非整倍体?
该方法基于母体贡献,这是一个反映给定染色体或染色体片段中母源DNA比例的参数。常染色体的母体贡献偏离50%强烈提示存在(嵌合)染色体异常。使用具有不同比例的整倍体和非整倍体(47,XY,+21)淋巴细胞的细胞混合物对该方法进行了优化。接下来,对349个核型分析样本的所有染色体进行了母体贡献的回顾性测量。
回顾性分析显示,59个常染色体减数分裂三体中的57个以及所有常染色体单体(n = 57)的母体贡献存在偏差(<36.4%或>63.6%),其值接近理论预期。在7436条染色体中,有32条通过核型分析未观察到异常,但其母体贡献也出现了类似的偏差。
APCAD用于测量母体贡献,这是一个独立于拷贝数检测的直观参数。该方法有助于检测拷贝数中性异常,并可确认基于拷贝数检测出的(嵌合)非整倍体的诊断。可以区分嵌合和完全非整倍体,并确定(嵌合)染色体异常的起源亲本。由于这些优点,APCAD方法有潜力改进通过全面的植入前基因检测方法进行的非整倍体检测。
