Identifying Genome Variants in Non-Obstructive Azoospermia (NOA) or Primary Ovarian Insufficiency (POI)

Overview

Background: Infertility affects 1 in 6 people. Often, the causes of infertility are unknown. Treatments are successful in only about 50% of cases. Infertility caused by non obstructive azoospermia in males and primary ovarian insufficiency in females can have genetic causes. Researchers want to learn more about these genes. Objective: To identify genes that may cause infertility. Eligibility: Adult men and women with non-obstructive azoospermia (NOA) or primary ovarian insufficiency (POI) of unknown cause. Design: Participants will provide a saliva sample. A kit will be sent to their home. The kit will contain a collection tube and a cotton swab. They will swirl the swab inside their mouth and then seal it in the tube. They will mail the tube back to the researchers. Male participants who are having a procedure done to collect tissue from their testes may opt to have leftover tissue provided to study researchers. This tissue would otherwise have been discarded. No new procedures will be performed just for this study. Data may be collected from participants medical records.

Study Description: PRDM9 and the piRNA pathway have well established roles in meiosis and are known to cause infertility in mouse, yet have not been systematically evaluated for a role in human infertility. We will utilize a combination of genome sequencing, targeted PacBio sequencing, and in vitro assays to evaluate these compelling candidates as causative for human infertility. All participants will be asked to provide saliva or blood samples as a source of genomic DNA for sequencing. A small subset of participants who undergo surgery as part of their diagnosis and treatment plan will be asked to consent to research use of leftover testicular biopsies from these procedures. Objectives: Primary Objective: To determine the sequence of PRDM9 and noncoding piRNA clusters in a cohort of individuals with infertility. These loci are inherently unstable in the genome, and we hypothesize that sequence variants in these loci are causative for infertility. Secondary Objectives: Identify genome variants in novel or previously reported infertility candidate genes. Genome variants in hundreds of genes have been reported as candidates for infertility, and collective data from additional cohorts is needed to evaluate the gene-disease relationship of these infertility candidate genes.