• PMID: 21389080
• Gene Name: H19
• Condition: Obstructive azoospermia
• Association: Associated
• Population size: 60
• Population details: 60 (18 azoospermia, 10 onstructive azoospermia, 5 NOA, 3 unknown pathology, 17 men undergoing vasectomy reversal, 9 fertile men)
• Sex: Male
• Infertility type: Male infertility
• Associated genes: H19
• Other associated phenotypes: Obstructive azoospermia

Aberrant DNA methylation at imprinted genes in testicular sperm retrieved from men with obstructive azoospermia and undergoing vasectomy reversal

Minor A, Chow V, Ma S.

Male factor infertility has been associated with abnormal DNA methylation at imprinted genes. Little information is available on the status of imprinting in the sperm of men with azoospermia, including the association between aberrant imprinting and obstructive azoospermia (OA) or non-OA (NOA). Analysis of DNA methylation at imprinted genes in the sperm of men undergoing vasectomy reversal would aid determination of whether aberrant imprinting is associated with obstruction. Testicular sperm was retrieved from testicular biopsies obtained from men with azoospermia (N=18), including OA (N=10), NOA (N=5), and unknown pathology (N=3), and from men undergoing vasectomy reversal (N=17). Sperm was also obtained from proven fertile men (N=9). DNA methylation was investigated at multiple CpG sites within the differentially methylated regions (DMRs) of three imprinted genes, H19, IG-GTL2 and MEST, using bisulphite sequencing. Unique clones representative of single cells were analyzed. We found a significant decrease in DNA methylation at the H19 DMR in testicular sperm of azoospermic men compared with proven fertile men. The decrease was also significant between OA and proven fertile men, and between men undergoing vasectomy reversal and proven fertile men, suggesting that aberrant DNA methylation may be associated with obstruction. Changes in DNA methylation at IG-GTL2 and MEST DMRs among groups were not significant. Our data suggest that imprinting abnormalities may be associated with obstruction and may occur in response to changes in testicular environment and not only spermatogenesis failure, as previously reported. Methylation at the H19 DMR was particularly prone to modification in testicular sperm. FAU - Minor, Agata AU - Minor A AD - Department of Obstetrics and Gynaecology, BC Women's Hospital and Health Centre, University of British Columbia, Room D414B, D6-4500 Oak Street, Vancouver, British Columbia, Canada V6H 3N1. FAU - Chow, Victor AU - Chow V