A Novel Homozygous BMP15 Mutation Causes Ovarian Dysgenesis and Primary Amenorrhea.

IF 3.1 Q2 ENDOCRINOLOGY & METABOLISM

Journal of the Endocrine Society Pub Date : 2024-12-05 eCollection Date: 2025-01-06 DOI:10.1210/jendso/bvae221

Amitay Cohen, Raffaella Rossetti, Natan Florsheim, Abraham O Samson, Paul Renbaum, Erika Carbone, Luca Persani, Ephrat Levy-Lahad, Abdulsalam Abu-Libdeh, David Zangen

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Abstract

Context: Despite a growing number of studies, the genetic etiology in many cases of ovarian dysgenesis is incompletely understood.

Objectives: This work aimed to study the genetic etiology causing absence of spontaneous pubertal development, hypergonadotropic hypogonadism, and primary amenorrhea in 2 sisters.

Methods: Whole-exome sequencing was performed on DNA extracted from peripheral lymphocytes of 2 Palestinian sisters born to consanguineous parents. Following a BMP15 variant identification, confirming genetic segregation studies were performed in family members. Three-dimensional (3D) modeling for BMP15 dimer and BMP15-GDF-9 heterodimer were followed by functional studies in human ovarian COV434 granulosa cells cotransfected with plasmid harboring either the variant or a wild-type (WT) control, and a second plasmid harboring a luciferase-reporter-gene with a BMP-responsive element.

Results: A novel homozygous c.G959A/p.C320Y BMP15 mutation was identified in both sisters, and segregated with the disease in the family. By 3D-structure modeling, the mutations were predicted to damage a cysteine-knot motif, disrupt BMP15 dimerization, and severely impair activation of the BMP pathway. The homologous mutation C53Y occurring and identified spontaneously in sheep results in sterility in homozygotes, mimicking the human phenotype here. A 3.8-fold decrease in BMP15 signaling was observed in vitro in cells expressing the homozygous BMP15 mutant when compared to the WT control.

Conclusion: The novel homozygous missense C320Y mutation is the first homozygous human BMP15 variant causing impaired signaling ability, which correlates with the predicted 3D-structural changes leading to ovarian dysgenesis. The homologous mutation in sheep mimics the human phenotype by infertility. Beyond genetic counseling, and considering ovarian preservation, the ovine model enables further elucidation and interventions in the BMP signaling.

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一种新的纯合BMP15突变导致卵巢发育不良和原发性闭经。

背景：尽管越来越多的研究，遗传病因在许多情况下卵巢发育不良是不完全了解。目的：研究2例姐妹的青春期发育不自主、促性腺功能亢进和原发性闭经的遗传病因。方法：对2名巴勒斯坦近亲姐妹外周血淋巴细胞提取的DNA进行全外显子组测序。在BMP15变异鉴定后，在家庭成员中进行了遗传分离研究。对BMP15二聚体和BMP15- gdf -9异源二聚体进行三维（3D）建模，然后在人卵巢COV434颗粒细胞中进行功能研究，共转染含有变体或野生型（WT）对照的质粒，以及含有bmp响应元件的荧光素酶报告基因的第二个质粒。结果：一株新的纯合子c.G959A/p。在两姐妹中都发现了C320Y BMP15突变，并与家族中的疾病分离。通过3d结构建模，预测突变会破坏半胱氨酸结基序，破坏BMP15二聚化，并严重损害BMP通路的激活。同源突变C53Y在绵羊中自发发生和鉴定，导致纯合子不育，模仿人类表型。与WT对照相比，在体外表达纯合子BMP15突变体的细胞中，BMP15信号传导减少了3.8倍。结论：新型纯合错义C320Y突变是首个导致信号传导能力受损的人类BMP15纯合突变，这与预测的导致卵巢发育不良的3d结构变化有关。绵羊的同源突变通过不育模仿人类表型。除了遗传咨询，考虑到卵巢保护，羊模型可以进一步阐明和干预BMP信号。

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