BACKGROUND: Complete deletions of the AZFc region in distal Yq are the most frequent molecular genetic cause of severe male infertility. They are caused by intrachromosomal homologous recombination between amplicons--large, nearly identical repeats--and are found in 5-10% of cases of azoospermia and severe oligozoospermia. Homologous recombination may also generate different partial deletions of AZFc, but their contribution to spermatogenic impairment has not been confirmed. METHODS: In this study we analysed the prevalence and characteristics of different partial AZFc deletions and their association with spermatogenic failure. We studied 337 infertile men with different spermatogenic impairment and 263 normozoospermic fertile men using AZFc specific sequence tagged site markers and DAZ specific single nucleotide variants. RESULTS: We identified 18 cases of partial AZFc deletions in the infertile group (5.3%) and one case in the control group (0.4%). Seventeen deletions had the "gr/gr" pattern, one the "b2/b3" pattern, and one represented a novel deletion with breakpoints in b3 and b4 amplicons. Partial AZFc deletions were associated with different spermatogenic phenotypes ranging from complete azoospermia to only moderate oligozoospermia. CONCLUSIONS: Together with published data, our analysis of DAZ gene copy suggested that the contribution of the different deletions to male infertility varies: only partial AZFc deletions removing DAZ1/DAZ2 seem to be associated with spermatogenic impairment, whereas those removing DAZ3/DAZ4 may have no or little effect on fertility. These data show that, beside complete AZFc deletions, specific partial deletions represent a risk factor for male infertility, even if with different effect on spermatogenesis.
BACKGROUND: Complete deletions of the AZFc region in distal Yq are the most frequent molecular genetic cause of severe male infertility. They are caused by intrachromosomal homologous recombination between amplicons--large, nearly identical repeats--and are found in 5-10% of cases of azoospermia and severe oligozoospermia. Homologous recombination may also generate different partial deletions of AZFc, but their contribution to spermatogenic impairment has not been confirmed. METHODS: In this study we analysed the prevalence and characteristics of different partial AZFc deletions and their association with spermatogenic failure. We studied 337 infertile men with different spermatogenic impairment and 263 normozoospermic fertile men using AZFc specific sequence tagged site markers and DAZ specific single nucleotide variants. RESULTS: We identified 18 cases of partial AZFc deletions in the infertile group (5.3%) and one case in the control group (0.4%). Seventeen deletions had the "gr/gr" pattern, one the "b2/b3" pattern, and one represented a novel deletion with breakpoints in b3 and b4 amplicons. Partial AZFc deletions were associated with different spermatogenic phenotypes ranging from complete azoospermia to only moderate oligozoospermia. CONCLUSIONS: Together with published data, our analysis of DAZ gene copy suggested that the contribution of the different deletions to male infertility varies: only partial AZFc deletions removing DAZ1/DAZ2 seem to be associated with spermatogenic impairment, whereas those removing DAZ3/DAZ4 may have no or little effect on fertility. These data show that, beside complete AZFc deletions, specific partial deletions represent a risk factor for male infertility, even if with different effect on spermatogenesis.
Authors: Sjoerd Repping; Helen Skaletsky; Laura Brown; Saskia K M van Daalen; Cindy M Korver; Tatyana Pyntikova; Tomoko Kuroda-Kawaguchi; Jan W A de Vries; Robert D Oates; Sherman Silber; Fulco van der Veen; David C Page; Steve Rozen Journal: Nat Genet Date: 2003-10-05 Impact factor: 38.330
Authors: Helen Skaletsky; Tomoko Kuroda-Kawaguchi; Patrick J Minx; Holland S Cordum; LaDeana Hillier; Laura G Brown; Sjoerd Repping; Tatyana Pyntikova; Johar Ali; Tamberlyn Bieri; Asif Chinwalla; Andrew Delehaunty; Kim Delehaunty; Hui Du; Ginger Fewell; Lucinda Fulton; Robert Fulton; Tina Graves; Shun-Fang Hou; Philip Latrielle; Shawn Leonard; Elaine Mardis; Rachel Maupin; John McPherson; Tracie Miner; William Nash; Christine Nguyen; Philip Ozersky; Kymberlie Pepin; Susan Rock; Tracy Rohlfing; Kelsi Scott; Brian Schultz; Cindy Strong; Aye Tin-Wollam; Shiaw-Pyng Yang; Robert H Waterston; Richard K Wilson; Steve Rozen; David C Page Journal: Nature Date: 2003-06-19 Impact factor: 49.962
Authors: Jan W A de Vries; Sjoerd Repping; Saskia K M van Daalen; Cindy M Korver; Nico J Leschot; Fulco van der Veen Journal: Fertil Steril Date: 2002-12 Impact factor: 7.329
Authors: Sjoerd Repping; Helen Skaletsky; Julian Lange; Sherman Silber; Fulco Van Der Veen; Robert D Oates; David C Page; Steve Rozen Journal: Am J Hum Genet Date: 2002-09-20 Impact factor: 11.025
Authors: S Fernandes; K Huellen; J Goncalves; H Dukal; J Zeisler; E Rajpert De Meyts; N E Skakkebaek; B Habermann; W Krause; M Sousa; A Barros; P H Vogt Journal: Mol Hum Reprod Date: 2002-03 Impact factor: 4.025
Authors: Barbara Arredi; Alberto Ferlin; Elena Speltra; Chiara Bedin; Daniela Zuccarello; Francesco Ganz; Eleonora Marchina; Liborio Stuppia; Csilla Krausz; Carlo Foresta Journal: J Med Genet Date: 2006-12-08 Impact factor: 6.318
Authors: C Krausz; C Giachini; Y Xue; M K O'Bryan; J Gromoll; E Rajpert-de Meyts; R Oliva; I Aknin-Seifer; E Erdei; N Jorgensen; M Simoni; J L Ballescà; R Levy; G Balercia; P Piomboni; E Nieschlag; G Forti; R McLachlan; C Tyler-Smith Journal: J Med Genet Date: 2008-09-09 Impact factor: 6.318