A recessive ACTL7A founder variant leads to male infertility due to acrosome detachment in Pakistani Pashtuns.

Male infertility affects more than 20 million men worldwide and is a major public health concern. Male infertility has a strong genetic basis, particularly for those unexplained cases. Here, through genetic analysis of three Pakistani families having eight infertile men with normal parameters in routine semen analysis, we identified a novel ACTL7A variant (c.149_150del, p.E50Afs*6), recessively co-segregating with infertility in these three families. This variant leads to the loss of ACTL7A proteins in spermatozoa from patients. Transmission EM analyses revealed acrosome detachment from nuclei in 98.9% spermatozoa of patients. Interestingly, this ACTL7A variant was frequently detected in our sequenced Pakistani Pashtuns with a minor allele frequency of ~0.021 and all the carriers shared a common haplotype of about 240 kb flanking ACTL7A, indicating that it is likely originated from a single founder. Our findings reveal that a founder ACTL7A pathogenic variant confers a high genetic susceptibility for male infertility with normal routine semen parameters but acrosomal ultrastructural defects in Pakistani Pashtun descendants, and highlight that variants not rare should also be considered when trying to identify disease-causing variants in ethnic groups with the tradition of intra-ethnic marriages.

Novel loss-of-function variants in DNAH17 cause multiple morphological abnormalities of the sperm flagella in humans and mice.

Multiple morphological abnormalities of the flagella (MMAF) is a genetically heterogeneous disorder leading to male infertility. Recent studies have revealed that DNAH17 variants are associated with MMAF, yet there is no functional evidence in support of their pathnogenicity. Here, we recruited two consanguineous families of Pakistani and Chinese origins, respectively, diagnosed with MMAF. Whole-exome sequencing identified novel homozygous DNAH17 variants, which led to loss of DNAH17 proteins, in the patients. Transmission electron microscope analyses revealed completely disorganized axonemal structure as the predominant anomaly and increased frequencies of missings of microtubule doublet(s) 4-7 in sperm flagella of patients. Similar to those found in patients, Dnah17-/- mice also displayed MMAF phenotype along with completely disorganized axonemal structures. Clusters of disorganized microtubules and outer dense fibers were observed in developing spermatids, indicating impaired sperm flagellar assembly. Besides, we also noticed many elongating spermatids with a deformed nuclear shape and abnormal step 16 spermatids that failed to spermiate, which subsequently underwent apoptosis in Dnah17-null mice. These findings present direct evidence establishing that DNAH17 is a MMAF-related gene in humans and mice, extend the clinical interpretations of DNAH17 variants, and highlight an essential and complex role of DNAH17 in spermatogenesis.

Whole Exome Sequencing Revealed a Novel Nonsense Variant in the GNRHR Gene Causing Normosmic Hypogonadotropic Hypogonadism in a Pakistani Family.

BACKGROUND: Congenital hypogonadotropic hypogonadism (CHH) is a heterogeneous disorder characterized by delayed or loss of puberty and infertility due to functional deficiency in the hypothalamic gonadotropin-releasing hormone (GnRH). CHH can be classified into 2 subtypes on the basis of olfaction: Kallmann syndrome and normosmic CHH (nCHH). The spectrum of genetic variants causing CHH is continually expanding. Here, we recruited a consanguineous Pakistani family having 2 male and 2 female infertile patients diagnosed with idiopathic nCHH. AIMS: The aim of this study was to investigate the genetic cause of nCHH in the family. METHODS: Clinical and physical analyses were performed for the patients. Genetic analysis was carried out using whole exome and Sanger sequencing. RESULTS: Clinical and physical investigations confirmed low levels of gonadotropins and failure of secondary sexual development in the patients. Genetic analysis identified a novel nonsense mutation (chr4: g.68619942G>A, c.112C>T, p.Arg38*) in the gonadotropin-releasing hormone receptor gene (GNRHR) recessively co-segregating with nCHH in this family. All the patients are homozygous and their parents are heterozygous carriers, while normal siblings are heterozygous carriers or wild-type for this mutation, indicating that the identified mutation is pathogenic for nCHH in the family. CONCLUSION: We report the first homozygous nonsense mutation in the GNRHR gene (chr4: g. 68619942G>A, c.112C>T, p. Arg38*) that is associated with familial nCHH. Hence, our study displayed a good correlation of the genotype and phenotype of nCHH patients.