TY - JOUR
T1 - A comprehensive gene mutation screen in men with asthenozoospermia
AU - Visser, Liesbeth
AU - Westerveld, G. Henrike
AU - Xie, Fang
AU - van Daalen, Saskia K. M.
AU - van der Veen, Fulco
AU - Lombardi, M. Paola
AU - Repping, Sjoerd
PY - 2011
Y1 - 2011
N2 - Objective: To find novel genetic causes of asthenozoospermia by comprehensively screening known candidate genes derived from mouse models. Design: Case-control study. Setting: A fertility center based in an academic hospital. Patient(s): Thirty men with isolated asthenozoospermia. Intervention(s): Screening nine candidate genes for mutations: ADCY10, AKAP4, CATSPER1, CATSPER2, CATSPER3, CATSPER4, GAPDHS, PLA2G6, and SLC9A10. To account for a possible effect of heterozygous mutations, assessing imprinting of all candidate genes by studying the expression pattern of heterozygous SNPs in testis biopsies of five unrelated men. Main Outcome Measure(s): Mutations found in patients only. Result(s): We identified 10 heterozygous asthenozoospermia-specific mutations inADYC10 (n = 2), AKAP4 (n = 1), CATSPER1 (n = 1), CATSPER2 (n = 1), CATSPER3 (n = 1), CATSPER4 (n = 3), and PLA2G6 (n = 1). These mutations were distributed over six patients. In silico analysis showed that 8 of the 10 mutations either had a negative BLOSUM score, were located in conserved residues, and/or were located in a functional domain. Expression analysis demonstrated that CATSPER1 and CATSPER4 are imprinted. Conclusion(s): Given their putative effect on protein structure, their location in conserved sequences or functional domains, and their absence in controls, the identified mutations may be a cause of asthenozoospermia in humans. (Fertil Steril (R) 2011;95:1020-24. (C) 2011 by American Society for Reproductive Medicine.)
AB - Objective: To find novel genetic causes of asthenozoospermia by comprehensively screening known candidate genes derived from mouse models. Design: Case-control study. Setting: A fertility center based in an academic hospital. Patient(s): Thirty men with isolated asthenozoospermia. Intervention(s): Screening nine candidate genes for mutations: ADCY10, AKAP4, CATSPER1, CATSPER2, CATSPER3, CATSPER4, GAPDHS, PLA2G6, and SLC9A10. To account for a possible effect of heterozygous mutations, assessing imprinting of all candidate genes by studying the expression pattern of heterozygous SNPs in testis biopsies of five unrelated men. Main Outcome Measure(s): Mutations found in patients only. Result(s): We identified 10 heterozygous asthenozoospermia-specific mutations inADYC10 (n = 2), AKAP4 (n = 1), CATSPER1 (n = 1), CATSPER2 (n = 1), CATSPER3 (n = 1), CATSPER4 (n = 3), and PLA2G6 (n = 1). These mutations were distributed over six patients. In silico analysis showed that 8 of the 10 mutations either had a negative BLOSUM score, were located in conserved residues, and/or were located in a functional domain. Expression analysis demonstrated that CATSPER1 and CATSPER4 are imprinted. Conclusion(s): Given their putative effect on protein structure, their location in conserved sequences or functional domains, and their absence in controls, the identified mutations may be a cause of asthenozoospermia in humans. (Fertil Steril (R) 2011;95:1020-24. (C) 2011 by American Society for Reproductive Medicine.)
U2 - https://doi.org/10.1016/j.fertnstert.2010.11.067
DO - https://doi.org/10.1016/j.fertnstert.2010.11.067
M3 - Article
C2 - 21255775
SN - 0015-0282
VL - 95
SP - 1020-U213
JO - Fertility and Sterility
JF - Fertility and Sterility
IS - 3
ER -