Qiu-Xia Yu, Li Zhen, Zhi-Qing Xiao, Yun-Jing Wen, Dong-Zhi Li
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One gene (FRAS1) is inherited in an autosomal recessive (AR) manner and two (PBX1 and KMT2D) are autosomal dominant (AD); both AD variants were de novo. Only the FRAS1 variants were detected in more than one case. Variants in five cases were believed to be the cause of BRA, and the variants detected in PBX1 and KMT2D were likely the cause of fetal phenotype suggesting that the two genes can present with BRA. The yield of exome sequencing in our series is one third (4/12) after excluding two families with a previous family history.</p><p><strong>Conclusion: </strong>Fraser syndrome, resulting from FRAS1 variants, is the most common cause of genetic BRA identified in this specific cohort. The determination of genetic etiology will be valuable in the possible choices for pregnancy management and risk assessment of recurrence in future pregnancies.</p>","PeriodicalId":20387,"journal":{"name":"Prenatal Diagnosis","volume":" ","pages":""},"PeriodicalIF":2.7000,"publicationDate":"2024-11-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exome Sequencing in Fetuses With Bilateral Renal Agenesis Identified on Second Trimester Ultrasound: A Single Referral Center Experience.\",\"authors\":\"Qiu-Xia Yu, Li Zhen, Zhi-Qing Xiao, Yun-Jing Wen, Dong-Zhi Li\",\"doi\":\"10.1002/pd.6705\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Objective: </strong>To determine the exome sequencing results in fetuses with bilateral renal agenesis (BRA).</p><p><strong>Methods: </strong>This was a retrospective study of 14 cases with BRA diagnosed on second trimester anatomy ultrasound. All cases underwent invasive prenatal diagnosis. Genetic investigations were performed by chromosomal microarray analysis and trio exome sequencing. Clinical and laboratory data were collected and reviewed for these cases, including maternal demographics, prenatal sonographic findings, molecular sequencing results, and pregnancy outcomes.</p><p><strong>Results: </strong>Pathogenic and likely pathogenic variants in three genes (FRAS1, PBX1, and KMT2D) were detected by exome sequencing in 6 (6/14) cases. One gene (FRAS1) is inherited in an autosomal recessive (AR) manner and two (PBX1 and KMT2D) are autosomal dominant (AD); both AD variants were de novo. Only the FRAS1 variants were detected in more than one case. Variants in five cases were believed to be the cause of BRA, and the variants detected in PBX1 and KMT2D were likely the cause of fetal phenotype suggesting that the two genes can present with BRA. The yield of exome sequencing in our series is one third (4/12) after excluding two families with a previous family history.</p><p><strong>Conclusion: </strong>Fraser syndrome, resulting from FRAS1 variants, is the most common cause of genetic BRA identified in this specific cohort. 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引用次数: 0
摘要
目的:确定双侧肾缺如(BRA)胎儿的外显子组测序结果:确定双侧肾发育不全(BRA)胎儿的外显子组测序结果:这是一项回顾性研究,研究对象为14例经第二孕期解剖超声诊断为双肾缺如的胎儿。所有病例均接受了侵入性产前诊断。通过染色体微阵列分析和三组外显子测序进行了遗传学检查。收集并审查了这些病例的临床和实验室数据,包括产妇人口统计学、产前超声检查结果、分子测序结果和妊娠结局:结果:外显子组测序在 6 个病例(6/14)中检测到三个基因(FRAS1、PBX1 和 KMT2D)的致病和可能致病变异。其中一个基因(FRAS1)为常染色体隐性遗传(AR),两个基因(PBX1 和 KMT2D)为常染色体显性遗传(AD);两个 AD 变异基因均为新基因。只有 FRAS1 变异在一个以上的病例中被检测到。五例病例中的变异被认为是 BRA 的病因,而在 PBX1 和 KMT2D 中检测到的变异很可能是胎儿表型的病因,这表明这两个基因可能与 BRA 同时存在。在排除了两个有家族史的家庭后,我们的外显子组测序结果为三分之一(4/12):结论:FRAS1 变体导致的弗雷泽综合征是本特定队列中发现的遗传性 BRA 的最常见病因。遗传病因的确定将对妊娠管理的可能选择和未来妊娠复发的风险评估具有重要价值。
Exome Sequencing in Fetuses With Bilateral Renal Agenesis Identified on Second Trimester Ultrasound: A Single Referral Center Experience.
Objective: To determine the exome sequencing results in fetuses with bilateral renal agenesis (BRA).
Methods: This was a retrospective study of 14 cases with BRA diagnosed on second trimester anatomy ultrasound. All cases underwent invasive prenatal diagnosis. Genetic investigations were performed by chromosomal microarray analysis and trio exome sequencing. Clinical and laboratory data were collected and reviewed for these cases, including maternal demographics, prenatal sonographic findings, molecular sequencing results, and pregnancy outcomes.
Results: Pathogenic and likely pathogenic variants in three genes (FRAS1, PBX1, and KMT2D) were detected by exome sequencing in 6 (6/14) cases. One gene (FRAS1) is inherited in an autosomal recessive (AR) manner and two (PBX1 and KMT2D) are autosomal dominant (AD); both AD variants were de novo. Only the FRAS1 variants were detected in more than one case. Variants in five cases were believed to be the cause of BRA, and the variants detected in PBX1 and KMT2D were likely the cause of fetal phenotype suggesting that the two genes can present with BRA. The yield of exome sequencing in our series is one third (4/12) after excluding two families with a previous family history.
Conclusion: Fraser syndrome, resulting from FRAS1 variants, is the most common cause of genetic BRA identified in this specific cohort. The determination of genetic etiology will be valuable in the possible choices for pregnancy management and risk assessment of recurrence in future pregnancies.
期刊介绍:
Prenatal Diagnosis welcomes submissions in all aspects of prenatal diagnosis with a particular focus on areas in which molecular biology and genetics interface with prenatal care and therapy, encompassing: all aspects of fetal imaging, including sonography and magnetic resonance imaging; prenatal cytogenetics, including molecular studies and array CGH; prenatal screening studies; fetal cells and cell-free nucleic acids in maternal blood and other fluids; preimplantation genetic diagnosis (PGD); prenatal diagnosis of single gene disorders, including metabolic disorders; fetal therapy; fetal and placental development and pathology; development and evaluation of laboratory services for prenatal diagnosis; psychosocial, legal, ethical and economic aspects of prenatal diagnosis; prenatal genetic counseling
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