胚胎植入前遗传学检测结构重排(PGT-SR)后单倍体二倍体(UPD)排除。
Uniparental disomy (UPD) exclusion in embryos following Preimplantation Genetic Testing for Structural Rearrangements (PGT-SR).
作者信息
Fabiani Marco, Margiotti Katia, Libotte Francesco, Alì Chiara, Zangheri Costanza, Barone Maria Antonietta, Viola Antonella, Cima Antonella, Buonomo Giovanna, Cristofano Danilo, Lippa Assunta, Pasquale Chiara, Montanino Oliva Mario, Mesoraca Alvaro, Giorlandino Claudio
机构信息
Department of Human Genetic, Altamedica, Rome, Italy.
Department of Reproductive Medicine, Altamedica, Fetal-Maternal Medical Centre, Rome, Italy.
出版信息
J Assist Reprod Genet. 2025 Jan;42(1):265-273. doi: 10.1007/s10815-024-03352-x. Epub 2024 Dec 18.
PURPOSE
Uniparental disomy (UPD) is a genetic condition which both copies of a chromosome are inherited from a single parent, potentially leading to imprinting disorders. This study aimed to assess the integration of Short Tandem Repeat (STR) analysis into Preimplantation Genetic Testing for Structural Rearrangements (PGT-SR) to assess UPD risk and its impact on selecting euploid embryos for embryo transfer in couples with chromosomal translocations involving imprinted chromosomes.
METHODS
This study evaluated three couples carrying balanced chromosomal translocations: 45,XX,der(13;14)(q10;q10), 46,XX,t(10;11)(q22;q13), and 45,XY,der(14;15)(q10;q10). STR analysis was performed on trophectoderm (TE) biopsies after Whole Genome Amplification (WGA) after PGT-SR analysis using parental blood samples to assess UPD risk in euploid embryos. Haplotyping was conducted with five to six STR markers specific to each rearranged chromosome to detect UPD in euploid embryos.
RESULTS
Of the four embryos analyzed across the three families, two couples had euploid embryos that tested negative for UPD. These embryos were successfully transferred, resulting in the birth of two healthy children. In the third family, the euploid embryo also tested negative for UPD but failed to implant after transfer, resulting in no pregnancy.
DISCUSSION
Despite its rarity, UPD involving imprinted chromosomes poses significant clinical risks, as seen in disorders such as Prader-Willi syndrome and Angelman syndrome. This study highlights the importance of integrating UPD screening into PGT-SR protocols, to detect both heterodisomic and isodisomic UPD events minimizing the risk of severe genetic disorders.
CONCLUSION
Integrating STR-based UPD screening within PGT-SR workflows is a reliable and cost-effective strategy that enhances embryo selection and mitigates the risk of imprinting disorders. This approach improves reproductive outcomes for families with chromosomal rearrangements, offering a practical advancement in assisted reproduction.
目的
单亲二体(UPD)是一种遗传状况,即染色体的两个拷贝均从单个亲本遗传而来,可能导致印记障碍。本研究旨在评估将短串联重复序列(STR)分析整合到结构重排的植入前基因检测(PGT-SR)中,以评估UPD风险及其对涉及印记染色体的染色体易位夫妇选择整倍体胚胎进行胚胎移植的影响。
方法
本研究评估了三对携带平衡染色体易位的夫妇:45,XX,der(13;14)(q10;q10)、46,XX,t(10;11)(q22;q13)和45,XY,der(14;15)(q10;q10)。在PGT-SR分析后,使用亲本血液样本对滋养外胚层(TE)活检组织进行全基因组扩增(WGA)后进行STR分析,以评估整倍体胚胎中的UPD风险。使用针对每个重排染色体的五到六个STR标记进行单倍型分析,以检测整倍体胚胎中的UPD。
结果
在这三个家庭分析的四个胚胎中,两对夫妇有整倍体胚胎,其UPD检测为阴性。这些胚胎成功移植,产下了两个健康的孩子。在第三个家庭中,整倍体胚胎的UPD检测也为阴性,但移植后未能着床,导致未怀孕。
讨论
尽管涉及印记染色体的UPD罕见,但如普拉德-威利综合征和安吉尔曼综合征等疾病所示,其会带来重大的临床风险。本研究强调了将UPD筛查整合到PGT-SR方案中的重要性,以检测异源二体和同源二体UPD事件,将严重遗传疾病的风险降至最低。
结论
在PGT-SR工作流程中整合基于STR的UPD筛查是一种可靠且具有成本效益的策略,可增强胚胎选择并降低印记障碍的风险。这种方法改善了染色体重排家庭的生殖结局,为辅助生殖提供了切实的进展。
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