Abstract
We performed whole exome sequencing to identify an unknown genetic cause of azoospermia and male infertility in a large Pakistani family. Three infertile males were subjected to semen analysis, hormone testing, testicular histology, ultrasonography, karyotyping, Y-chromosome microdeletion and CFTR testing. The clinical testing suggested a diagnosis of obstructive azoospermia (OA). To identify the cause, we performed whole exome sequencing (WES) for 2 infertile brothers and 2 fertile family members. For segregation analysis and variant confirmation, we performed Sanger sequencing. WES data analysis of the family revealed segregated variants in 3 candidate genes. We considered novel nonsense variant c.2440C > T(p.Arg814*) in X-linked gene ADGRG2 as biologically most plausible. It is predicted to truncate the protein by 204 amino acids (aa) at a key transmembrane domain. Adgrg2-knockout male mice show sperm loss due to obstructive fluid stasis, while ADGRG2 mutations cause OA in the infertile male patients. Our analysis of testicular histology reveals secondary severe reduction of spermatogenesis, consistent with human and knockout mouse phenotypes. The ADGRG2 nonsense mutation is absent in the largest population databases, ExAC and gnomAD. Analysis of the novel nonsense mutation in extended family members confirmed co-segregation of the mutation with OA in all affected males. The likely pathogenic nature of the mutation is supported by its truncation effect on the transmembrane domain and distinctive ultrasound results. The study demonstrates effectiveness of WES in discovering a genetic cause of azoospermia.
Highlights
Worldwide, approximately 15% of all couples are affected by infertility, and genetic pathology accounts for up to 50% of male factor infertility[1,2]
Testosterone levels were slightly lower in affected males and follicle-stimulating hormone (FSH), luteinizing hormone (LH) and prolactin (PRL) were consistently normal
CFTR mutations result in pathology of the genitourinary system with complete failure to develop a channel transporting sperm from testis to urethra
Summary
Approximately 15% of all couples are affected by infertility, and genetic pathology accounts for up to 50% of male factor infertility[1,2]. With the advent of genomic techniques, a number of genes responsible for non-obstructive azoospermia were identified, NR5A1 (SF1), HSF2, SYCP3, SOHLH1, and TEX1110–14. These established genetic causes still only account for a minority of azoospermic patients. Since male infertility is a highly complex and heterogenous disease, it requires an efficient and reliable method to identify the multitude of plausible causative mutations across the genome. One such approach is a whole exome sequencing (WES)[21]. We applied WES to identify the cause of OA and male infertility in a large Pakistani family of Pashtun ethnic origin
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