Chen Mei-Jou, Wei Shin-Yi, Yang Wei-Shiung, Wu Tsai-Tzu, Li Huei-Ying, Ho Hong-Nerng, Yang Yu-Shih, Chen Pei-Lung
Department of Obstetrics and Gynecology, National Taiwan University Hospital, Taipei 100, Taiwan.
Department of Internal Medicine, National Taiwan University Hospital, Taipei 100, Taiwan Graduate Institute of Clinical Medicine, College of Medicine, National Taiwan University, Taipei 100, Taiwan Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 100, Taiwan.
Hum Reprod. 2015 Jul;30(7):1732-42. doi: 10.1093/humrep/dev095. Epub 2015 Apr 29.
Can the use of whole-exome sequencing (WES) together with single nucleotide polymorphism (SNP) array help to identify novel causative genes of isolated Mayer-Rokitansky-Küster-Hauser (MRKH) syndrome?
OR4M2 (olfactory receptor, family 4, subfamily M, member 2) and PDE11A (phosphodiesterase 11A) gene loss-of-function variants as well as deletions at 15q11.2, 19q13.31, 1p36.21, and 1q44 were identified as possible commonly altered regions in patients with type 1 MRKH.
The isolated form of Müllerian aplasia is the most common subtype of MRKH syndrome, which invariably leads to difficulties producing offspring in affected women. However, there is little information currently available to allow for genetic testing and counseling to be performed for those affected by this syndrome.
STUDY DESIGN, SIZE AND DURATION: This was a case-series genetic study. A total of seven consecutive unrelated women with type 1 MRKH were enrolled. The enrollment and experimental procedures were performed over a 2-year period.
PARTICIPANTS/MATERIALS, SETTING, METHODS: Whole exome-targeted next-generation sequencing and SNP array (Affymetrix Genome-Wide Human SNP Array 6.0) were performed on the first five unrelated women with type 1 MRKH syndrome. The data were combined, and the '3-hit principal' was applied on a genome-wide scale to search for the common causative genes. Quantitative PCR (qPCR) and Sanger sequencing were used to validate the identified genomic copy number losses and variants. Replication tests using direct Sanger sequencing and qPCR were performed on the remaining two women with type 1 MRKH syndrome to support the credibility of the potential candidate genes and deletions.
A total of 3443 damaging variants based on WES were shown to intersect with 1336 copy number variations (deletions) derived from the SNP array. Four highly recurrent deletions at 15q11.2 (80%), 19q13.31 (40%), 1p36.21 (40%) and 1q44 (40%) were identified in the first five women with type 1 MRKH syndrome and were considered to be novel candidate aberrations. A previously reported 1q21.1 deletion was also recurrent in two of the first five women with type 1 MRKH syndrome. The 1q44 and 19q13.31 deletions were present in at least one of the two additional patients. Damaging variants were detected in HNRNPCL1 (heterogeneous nuclear ribonucleoprotein C-like 1), OR2T2 (olfactory receptor, family 2, subfamily T, member 2), OR4M2, ZNF816 (zinc finger protein 816), and PDE11A in several of the initial five patients. Among these, the damaging variants of OR4M2 (located at 15q11.2) and PDE11A were found in at least one of the two additional patients with type 1 MRKH.
LIMITATIONS, REASONS FOR CAUTION: In this study, we only searched for the deletions or damaging variants causing loss-of-function of genes in at least three of the initial five patients (3-hit criteria). Therefore, the study was designed to only detect common causative genes. Genomic duplications and/or rare individual mutations that may have also contributed to MRKH syndrome were not investigated.
This study demonstrated the feasibility of the use of combined data from both WES and SNP arrays for the identification of possible common causative genetic aberrations in patients with type 1 MRKH syndrome on a genome-wide scale. Further validation of our found causative genes is required before applying on genetic testing and counseling.
STUDY FUNDING/COMPETING INTERESTS: The study was supported by grants from the National Science Council of Taiwan (NSC98-2314-B002-105-MY3 and NSC 100-2314-B002-027-MY3). The funding sources had no involvement in the design or analysis of the study. The authors have no competing interests to declare.
Not applicable.
全外显子组测序(WES)与单核苷酸多态性(SNP)阵列联合使用能否有助于识别孤立性 Mayer-Rokitansky-Küster-Hauser(MRKH)综合征的新致病基因?
OR4M2(嗅觉受体家族4亚家族M成员2)和PDE11A(磷酸二酯酶11A)基因功能丧失变异以及15q11.2、19q13.31、1p36.21和1q44处的缺失被确定为1型MRKH患者可能的常见改变区域。
苗勒氏管发育不全的孤立形式是MRKH综合征最常见的亚型,这必然会给受影响的女性生育带来困难。然而,目前几乎没有信息可用于对受该综合征影响的患者进行基因检测和咨询。
研究设计、规模和持续时间:这是一项病例系列基因研究。共纳入了7名连续的、无亲缘关系的1型MRKH女性患者。招募和实验程序在2年期间内进行。
参与者/材料、环境、方法:对首批5名无亲缘关系的1型MRKH综合征女性患者进行了全外显子组靶向新一代测序和SNP阵列(Affymetrix全基因组人类SNP阵列6.0)检测。将数据合并,并在全基因组范围内应用“三击原则”来寻找常见致病基因。使用定量PCR(qPCR)和桑格测序来验证所识别的基因组拷贝数缺失和变异。对其余2名1型MRKH综合征女性患者进行直接桑格测序和qPCR的重复检测,以支持潜在候选基因和缺失的可信度。
基于WES共显示3443个有害变异与来自SNP阵列的1336个拷贝数变异(缺失)相交。在首批5名1型MRKH综合征女性患者中,发现了15q11.2(80%)、19q13.31(40%)、1p36.21(40%)和1q44(40%)处的4个高度反复出现的缺失,并被认为是新的候选畸变。先前报道的1q21.1缺失在首批5名1型MRKH综合征女性患者中的2名中也反复出现。1q44和19q13.31缺失在另外2名患者中的至少1名中存在。在最初的5名患者中的几名中,在HNRNPCL1(异质性核糖核蛋白C样1)、OR2T2(嗅觉受体家族2亚家族T成员2)、OR4M2、ZNF816(锌指蛋白816)和PDE11A中检测到有害变异。其中,OR4M2(位于15q11.2)和PDE11A的有害变异在另外2名1型MRKH患者中的至少1名中被发现。
局限性、谨慎原因:在本研究中,我们仅在最初的5名患者中的至少3名中搜索导致基因功能丧失的缺失或有害变异(三击标准)。因此,该研究仅旨在检测常见致病基因。可能也导致MRKH综合征的基因组重复和/或罕见个体突变未被研究。
本研究证明了使用WES和SNP阵列的联合数据在全基因组范围内识别1型MRKH综合征患者可能的常见致病基因畸变的可行性。在应用于基因检测和咨询之前,需要对我们发现的致病基因进行进一步验证。
研究资金/利益冲突:该研究得到了台湾国家科学委员会的资助(NSC98 - 2314 - B002 - 105 - MY3和NSC 100 - 2314 - B002 - 027 - MY3)。资助来源未参与研究的设计或分析。作者声明无利益冲突。
不适用。
