The effect of a novel LRRC6 mutation on the flagellar ultrastructure in a primary ciliary dyskinesia patient.
2021
Purpose There are limited genes known to cause primary ciliary dyskinesia (PCD)-associated asthenozoospermia. In the present study, we aimed to expand the spectrum of mutations in PCD and to provide new information for genetic counseling diagnoses and the treatment of male infertility in PCD. Methods One sterile patient with typical situs inversus was recruited to our center, and semen sample was collected. We performed whole-exome sequencing (WES) on the patient to identify the pathogenic mutations associated with PCD and used transmission electron microscopy to investigate spermatozoal ultrastructure. In addition, western blotting and immunofluorescence staining were used to confirm the untoward impact of the variant on the expression of LRRC6, as well as on the dynein arm proteins in the patient's spermatozoa. Results We identified a homozygous nonsense variant c.749G>A (p.W250*) of LRRC6 in the PCD patient. This variant severely impaired LRRC6 expression and further led to negative effects on dynein arm protein expression in the spermatozoa of the affected individual, which eventually caused defects in sperm ultrastructure and motility. Moreover, we are the first to report a positive prognosis using intracytoplasmic sperm injection (ICSI) for LRRC6-associated male infertility. Conclusions Our findings strongly implicated the homozygous mutation of c.749G>A (p.W250*) in LRRC6 as a new genetic cause of PCD, uncovering its involvement in defective sperm flagella and poor sperm motility. Furthermore, we posit that patients with LRRC6 mutations may have good outcomes with ICSI treatment. These findings add to the literature on the genetic diagnoses and treatment of male infertility associated with PCD.
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