Coding Variants of the Genitourinary Development Gene Carry High Risk for Prostate Cancer.

PURPOSE

Considerable genetic heterogeneity is currently thought to underlie hereditary prostate cancer (HPC). Most families meeting criteria for HPC cannot be attributed to currently known pathogenic variants.

METHODS

To discover pathogenic variants predisposing to prostate cancer, we conducted a familial case-control association study using both genome-wide single-allele and identity-by-descent analytic approaches. Sequence of high-risk haplotype carriers was used for variant detection. Candidate pathogenic variants were tested for association with prostate cancer across independent biobanks for replication of observations.

RESULTS

Pathogenic variants within were associated with familial prostate cancer and observations replicated within four of four independent biobanks. E152K carried 2.5-fold risk and reached genome-wide significance under meta-analysis, collectively encompassing a half million patients. Q47R was also associated with prostate cancer with genome-wide significance among Finns, for which identity-by-descent analyses confirmed a founder effect. shares an unexpected commonality with the previously established prostate cancer risk genes and : they are each required for embryonic prostate development. With this recognition, we further evaluated two additional genes known to cause Mendelian genitourinary developmental defects, and . These too were nominally associated with prostate cancer under meta-analyses.

CONCLUSION

and additional genes that are required for early genitourinary development are also involved in the later development of prostate cancer.