Background: Male infertility is a major health concern in couples of childbearing ages. Nonobstructive azoospermia (NOA) is an extreme form of male infertility that affects ∼1% of adult men, and the etiology remains unknown in most cases. Sertoli cell-only syndrome (SCOS) is the most severe type of NOA. Aims: To explore novel human candidate variants that cause SCOS. Methods: (1) Whole exome sequencing (WES) of 20 men with SCOS, (2) Sanger sequencing of the HELQ gene in an additional 163 men with SCOS, (3) in vitro functional assays, and (4) in vivo studies. Results: WES of 20 patients with SCOS led to the identification of two heterozygous missense mutations (M1 and M2) in two unrelated Chinese patients with infertility. Using subsequent Sanger sequencing covering all the coding regions of the HELQ gene for 163 additional SCOS cases, we identified four additional heterozygous mutations (M3-M6) in unrelated patients. In vitro functional analyses revealed that two of these mutations (M5, c.2538T > G and M6, c.2945G > T) might affect the function of the HELQ protein. Two heterozygous mutant mouse models with mutations similar to those of two patients (M5 and M6) did not show any considerable spermatogenic defects. Conclusion: Assuming that the mouse models accurately reflect the impact of the mutations, heterozygous HELQ variants alone did not lead to the development of the SCOS phenotype in mice. However, we cannot rule out the risk variants in Chinese or other human populations, and a larger dataset is needed to confirm the association between HELQ mutations with SCOS.
Keywords: HELQ; SCOS; WES; nonobstructive azoospermia.