Biallelic RXFP2 variants lead to congenital bilateral cryptorchidism and male infertility, supporting a role of RXFP2 in spermatogenesis.

IF 6 1区医学 Q1 OBSTETRICS & GYNECOLOGY

Human reproduction Pub Date : 2024-10-01 DOI:10.1093/humrep/deae195

Hannes Syryn, Julie Van de Velde, Griet De Clercq, Hannah Verdin, Annelies Dheedene, Frank Peelman, Andrew Sinclair, Katie L Ayers, Ross A D Bathgate, Martine Cools, Elfride De Baere

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引用次数: 0

Abstract

Study question: Does RXFP2 disruption impair male fertility?

Summary answer: We identified biallelic variants in RXFP2 in patients with male infertility due to spermatogenic arrest at the spermatid stage, supporting a role of RXFP2 in human spermatogenesis, specifically in germ cell maturation.

What is known already: Since RXFP2, the receptor for INSL3, plays a crucial role in testicular descent during prenatal development, biallelic variants lead to bilateral cryptorchidism, as described in four families to date. While animal models have also suggested a function in spermatogenesis, the postnatal functions of RXFP2 and its ligand INSL3, produced in large amounts by the testes from puberty throughout adulthood, are largely unknown.

Study design, size, duration: A family with two male members affected by impaired fertility due to spermatogenic maturation arrest and a history of bilateral cryptorchidism underwent clinical, endocrinological, histological, genomic, in vitro cellular, and in silico investigations.

Participants/materials, setting, methods: The endocrinological and histological findings were correlated with publicly available single-cell RNA sequencing (scRNA-seq) data. The genomic defects have been characterized using long-read sequencing and validated with in silico modeling and an in vitro cyclic AMP reporter gene assay.

Main results and the role of chance: An intragenic deletion of exon 1-5 of RXFP2 (NM_130806.5) was detected in trans with a hemizygous missense variant c.229G>A, p.(Glu77Lys). The p.(Glu77Lys) variant caused no clear change in cell surface expression or ability to bind INSL3, but displayed absence of a cAMP signal in response to INSL3, indicating a loss-of-function. Testicular biopsy in the proband showed a maturation arrest at the spermatid stage, corresponding to the highest level of RXFP2 expression in scRNA-seq data, thereby providing a potential explanation for the impaired fertility.

Limitations, reasons for caution: Although this is so far the only study of human cases that supports the role of RXFP2 in spermatogenic maturation, this is corroborated by several animal studies that have already demonstrated a postnatal function of INSL3 and RXFP2 in spermatogenesis.

Wider implications of the findings: This study corroborates RXFP2 as gene implicated in autosomal recessive congenital bilateral cryptorchidism due to biallelic variants, rather than autosomal-dominant cryptorchidism due to monoallelic RXFP2 variants. Our findings also support that RXFP2 is essential in human spermatogenesis, specifically in germ cell maturation, and that biallelic disruption can cause male infertility through spermatogenic arrest at the spermatid stage.

Study funding/competing interest(s): Funding was provided by the Bellux Society for Pediatric Endocrinology and Diabetology (BELSPEED) and supported by a Research Foundation Flanders (FWO) senior clinical investigator grant (E.D.B., 1802220N) and a Ghent University Hospital Special Research Fund grant (M.C., FIKO-IV institutional fund). The authors declare no conflict of interest.

Trial registration number: N/A.

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RXFP2 双倍拷贝变体会导致先天性双侧隐睾症和男性不育，支持 RXFP2 在精子发生中的作用。

研究问题：RXFP2 干扰是否会损害男性生育能力？我们在精原细胞阶段精子发生停滞的男性不育症患者中发现了RXFP2的双侧变体，这支持了RXFP2在人类精子发生过程中的作用，特别是在生殖细胞成熟过程中的作用：由于 RXFP2（INSL3 的受体）在产前发育过程中的睾丸下降过程中起着至关重要的作用，因此双倍拷贝变体会导致双侧隐睾症，迄今已有四个家庭出现了这种情况。虽然动物模型也显示了RXFP2在精子发生过程中的功能，但RXFP2及其配体INSL3（睾丸从青春期到整个成年期都会产生大量RXFP2）在产后的功能在很大程度上还不为人所知：研究设计、规模和持续时间：对一个有两名男性成员的家族进行了临床、内分泌学、组织学、基因组学、体外细胞学和硅学研究：内分泌学和组织学检查结果与公开的单细胞 RNA 测序（scRNA-seq）数据相关联。利用长线程测序对基因组缺陷进行了表征，并通过硅学建模和体外环磷酸腺苷报告基因检测进行了验证：RXFP2 (NM_130806.5)外显子1-5的基因内缺失与半杂合错义变异c.229G>A，p.(Glu77Lys)被检测到。p.(Glu77Lys)变异体在细胞表面表达或结合 INSL3 的能力方面没有明显变化，但在 INSL3 的作用下没有 cAMP 信号，表明其功能缺失。疑似患者的睾丸活检结果显示，精子阶段的成熟停滞，与scRNA-seq数据中RXFP2的最高表达水平相对应，从而为生育能力受损提供了可能的解释：尽管这是迄今为止唯一一项支持RXFP2在精子发生成熟过程中发挥作用的人类病例研究，但多项动物研究已经证实了INSL3和RXFP2在精子发生过程中的产后功能：这项研究证实，RXFP2是双倍拷贝变体导致的常染色体隐性先天性双侧隐睾症的相关基因，而不是单倍拷贝RXFP2变体导致的常染色体显性隐睾症的相关基因。我们的研究结果还证明，RXFP2在人类精子发生过程中，特别是在生殖细胞成熟过程中是必不可少的，而双倍拷贝干扰可通过精子阶段的生精停滞导致男性不育：研究经费由贝鲁克斯儿科内分泌学和糖尿病学会（BELSPEED）提供，并得到佛兰德斯研究基金会（FWO）高级临床研究员基金（E.D.B.，1802220N）和根特大学医院特别研究基金（M.C.，FIKO-IV机构基金）的支持。作者声明无利益冲突：不适用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Human reproduction 医学-妇产科学

CiteScore

10.90

自引率

6.60%

发文量

1369

审稿时长

1 months

期刊介绍： Human Reproduction features full-length, peer-reviewed papers reporting original research, concise clinical case reports, as well as opinions and debates on topical issues. Papers published cover the clinical science and medical aspects of reproductive physiology, pathology and endocrinology; including andrology, gonad function, gametogenesis, fertilization, embryo development, implantation, early pregnancy, genetics, genetic diagnosis, oncology, infectious disease, surgery, contraception, infertility treatment, psychology, ethics and social issues.