BACKGROUND: Recurrent AZFb deletions on the human Y chromosome are associated with an absence of ejaculated spermatozoa consequent to a meiotic maturation arrest that prevents the progression of germ cells to haploid stages. The extreme rarity of partial deletions has hampered the identification of the AZFb genes required for normal meiotic stages. The critical interval, refined by two overlapping deletions associated with full spermatogenesis (AZFc and b1/b3), measures over 4 Mb and contains 13 coding genes: CDY2, XKRY, HSFY1, HSFY2, CYORF15A, CYORF15B, KDM5D, EIF1AY, RPS4Y2 and four copies of RBMY. METHODS AND RESULTS: We screened 1186 men from infertile couples for Y chromosome deletions, and identified three unrelated oligozoospermic men and one azoospermic man who carry an identical 768 kb deletion resulting in loss of the entire P4 palindrome, including both HSFY genes, the only coding genes within the deletion interval. This 768 kb deletion was not found in 1179 control men. The deletion breakpoints share only 4 bp of nucleotide identity, revealing that the deletions are not recurrent, but are descendants of a founding deletion. Confirming this, we find that all four men carry a Y chromosome of the same highly defined haplogroup (R1b1b1a1b) (incidence 30% in Southern France), although further haplotype analyses showed that they were not closely related. CONCLUSIONS: Although the HSFY deletion is restricted to our infertile group, it has been transmitted naturally over many generations, indicating that HSFY genes make only a slight contribution to male fertility. Importantly, our study formally excludes HSFY genes as the AZFb factor required for progression through meiosis.
BACKGROUND: Recurrent AZFb deletions on the human Y chromosome are associated with an absence of ejaculated spermatozoa consequent to a meiotic maturation arrest that prevents the progression of germ cells to haploid stages. The extreme rarity of partial deletions has hampered the identification of the AZFb genes required for normal meiotic stages. The critical interval, refined by two overlapping deletions associated with full spermatogenesis (AZFc and b1/b3), measures over 4 Mb and contains 13 coding genes: CDY2, XKRY, HSFY1, HSFY2, CYORF15A, CYORF15B, KDM5D, EIF1AY, RPS4Y2 and four copies of RBMY. METHODS AND RESULTS: We screened 1186 men from infertile couples for Y chromosome deletions, and identified three unrelated oligozoospermic men and one azoospermic man who carry an identical 768 kb deletion resulting in loss of the entire P4 palindrome, including both HSFY genes, the only coding genes within the deletion interval. This 768 kb deletion was not found in 1179 control men. The deletion breakpoints share only 4 bp of nucleotide identity, revealing that the deletions are not recurrent, but are descendants of a founding deletion. Confirming this, we find that all four men carry a Y chromosome of the same highly defined haplogroup (R1b1b1a1b) (incidence 30% in Southern France), although further haplotype analyses showed that they were not closely related. CONCLUSIONS: Although the HSFY deletion is restricted to our infertile group, it has been transmitted naturally over many generations, indicating that HSFY genes make only a slight contribution to male fertility. Importantly, our study formally excludes HSFY genes as the AZFb factor required for progression through meiosis.
Authors: P Asero; A E Calogero; R A Condorelli; L Mongioi'; E Vicari; F Lanzafame; R Crisci; S La Vignera Journal: J Endocrinol Invest Date: 2014-01-24 Impact factor: 4.256
Authors: Peter J Stahl; Anna N Mielnik; Christopher E Barbieri; Peter N Schlegel; Darius A Paduch Journal: Asian J Androl Date: 2012-07-23 Impact factor: 3.285
Authors: Benjamin M Skinner; Kim Lachani; Carole A Sargent; Fengtang Yang; Peter Ellis; Toby Hunt; Beiyuan Fu; Sandra Louzada; Carol Churcher; Chris Tyler-Smith; Nabeel A Affara Journal: BMC Genomics Date: 2015-06-09 Impact factor: 3.969
Authors: Shannel R Adams; So Maezawa; Kris G Alavattam; Hironori Abe; Akihiko Sakashita; Megan Shroder; Tyler J Broering; Julie Sroga Rios; Michael A Thomas; Xinhua Lin; Carolyn M Price; Artem Barski; Paul R Andreassen; Satoshi H Namekawa Journal: PLoS Genet Date: 2018-02-20 Impact factor: 5.917