Unitat de Biologia Cellular i Genètica Mèdica, Facultat de Medicina, Departament de Biologia Cellular, Fisiologia i Immunologia, Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain.
Hum Reprod. 2010 Jul;25(7):1824-35. doi: 10.1093/humrep/deq118. Epub 2010 May 19.
Comparative genomic hybridization (CGH) is a valuable alternative to fluorescence in situ hybridization (FISH) for preimplantation genetic screening (PGS) because it allows full karyotype analysis. However, this approach requires the cryopreservation of biopsied embryos until results are available. The aim of this study is to reduce the hybridization period of CGH, in order to make this short-CGH technique suitable for PGS of Day-3 embryos, avoiding the cryopreservation step.
Thirty-two fibroblasts from six aneuploid cell lines (Coriell) and 48 blastomeres from 10 Day-4 embryos, discarded after PGS by FISH with 9 probes (9-chr-FISH), were analysed by short-CGH. A reanalysis by the standard 72 h-CGH and FISH using telomeric probes was performed when no concordant results between short-CGH and FISH diagnosis were observed. The short-CGH was subsequently applied in a clinical case of advanced maternal age.
In 100% of the fibroblasts analysed, the characteristic aneuploidies of each cell line were detected by short-CGH. The results of the 48 blastomeres screened by short-CGH were supported by both 72 h-CGH results and FISH reanalysis. The chromosomes most frequently involved in aneuploidy were 22 and 16, but aneuploidies for the other chromosomes, excepting 1, 10 and 13, were also detected. Forty-one of the 94 aneuploid events observed (43.6%) corresponded to chromosomes which are not analysed by 9-chr-FISH.
We have performed a preliminary validation of the short-CGH technique, including one clinical case, suggesting this approach may be applied to Day-3 aneuploidy analysis, thereby avoiding embryo cryopreservation and perhaps helping to improve implantation rate after PGS.
比较基因组杂交(CGH)是荧光原位杂交(FISH)在胚胎植入前遗传学筛查(PGS)中的一种有价值的替代方法,因为它允许进行全染色体分析。然而,这种方法需要对活检胚胎进行冷冻保存,直到结果出来。本研究的目的是缩短 CGH 的杂交时间,以使这种短 CGH 技术适用于第 3 天胚胎的 PGS,避免冷冻保存步骤。
对 6 个非整倍体细胞系(Coriell)的 32 个成纤维细胞和 10 个第 4 天胚胎的 48 个卵裂球(经 FISH 用 9 个探针[9-chr-FISH]进行 PGS 后丢弃)进行短 CGH 分析。当短 CGH 与 FISH 诊断结果不一致时,使用端粒探针进行标准的 72 小时 CGH 和 FISH 重新分析。随后将短 CGH 应用于一个高龄产妇的临床病例中。
在分析的 100%成纤维细胞中,短 CGH 检测到每个细胞系的特征性非整倍性。短 CGH 筛选的 48 个卵裂球的结果得到了 72 小时 CGH 结果和 FISH 重新分析的支持。最常涉及非整倍性的染色体是 22 和 16,但也检测到其他染色体的非整倍性,除了 1、10 和 13。观察到的 94 个非整倍体事件中有 41 个(43.6%)与 9-chr-FISH 不分析的染色体相对应。
我们对短 CGH 技术进行了初步验证,包括一个临床病例,表明该方法可应用于第 3 天的非整倍体分析,从而避免胚胎冷冻保存,并可能有助于提高 PGS 后的植入率。
