A Biallelic Mutation in the Homologous Recombination Repair Gene SPIDR Is Associated With Human Gonadal Dysgenesis

P. Smirin-Yosef, N. Zuckerman‐Levin, S. Tzur, Yaron Granot, L. Cohen, J. Sachsenweger, G. Borck, I. Lagovsky, M. Salmon-Divon, L. Wiesmüller, L. Basel‐Vanagaite
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引用次数: 42

Abstract

Context: Primary ovarian insufficiency (POI) is caused by ovarian follicle depletion or follicle dysfunction, characterized by amenorrhea with elevated gonadotropin levels. The disorder presents as absence of normal progression of puberty. Objective: To elucidate the cause of ovarian dysfunction in a family with POI. Design: We performed whole-exome sequencing in 2 affected individuals. To evaluate whether DNA double-strand break (DSB) repair activities are altered in biallelic mutation carriers, we applied an enhanced green fluorescent protein-based assay for the detection of specific DSB repair pathways in blood-derived cells. Setting: Diagnoses were made at the Pediatric Endocrine Clinic, Clalit Health Services, Sharon-Shomron District, Israel. Genetic counseling and sample collection were performed at the Pediatric Genetics Unit, Schneider Children’s Medical Center Israel, Petah Tikva, Israel. Patients and Intervention: Two sisters born to consanguineous parents of Israeli Muslim Arab ancestry presented with a lack of normal progression of puberty, high gonadotropin levels, and hypoplastic or absent ovaries on ultrasound. Blood samples for DNA extraction were obtained from all family members. Main Outcome Measure: Exome analysis to elucidate the cause of POI in 2 affected sisters. Results: Analysis revealed a stop-gain homozygous mutation in the SPIDR gene (KIAA0146) c.839G>A, p.W280*. This mutation altered SPIDR activity in homologous recombination, resulting in the accumulation of 53BP1-labeled DSBs postionizing radiation and &ggr;H2AX-labeled damage during unperturbed growth. Conclusions: SPIDR is important for ovarian function in humans. A biallelic mutation in this gene may be associated with ovarian dysgenesis in cases of autosomal recessive inheritance.
同源重组修复基因SPIDR的双等位基因突变与人类性腺发育不良有关
背景:原发性卵巢功能不全(POI)是由卵巢卵泡衰竭或卵泡功能障碍引起的,以闭经伴促性腺激素水平升高为特征。这种疾病表现为缺乏正常的青春期发育。目的:探讨POI家族卵巢功能障碍的原因。设计:我们对2名患者进行了全外显子组测序。为了评估DNA双链断裂(DSB)修复活性是否在双等位基因突变携带者中发生改变,我们应用了一种增强的基于绿色荧光蛋白的检测方法来检测血液来源细胞中特定的DSB修复途径。环境:在以色列Sharon-Shomron区Clalit健康服务儿科内分泌诊所进行诊断。遗传咨询和样本收集在以色列Petah Tikva的施耐德儿童医疗中心以色列儿科遗传学部进行。患者和干预:以色列穆斯林阿拉伯血统的近亲父母所生的两个姐妹在超声检查中表现为青春期缺乏正常进展,促性腺激素水平高,卵巢发育不全或缺失。采集了所有家庭成员的血样用于DNA提取。主要观察指标:通过外显子组分析阐明2例患病姐妹POI的病因。结果:分析发现SPIDR基因(KIAA0146) c.839G> a, p.W280*的停止增益纯合突变。该突变改变了同源重组中的SPIDR活性,导致53bp1标记的dsb在未受干扰的生长过程中积累了定位辐射和&ggr; h2ax标记的损伤。结论:SPIDR对人类卵巢功能有重要作用。在常染色体隐性遗传的情况下,该基因的双等位基因突变可能与卵巢发育不良有关。
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