TY - JOUR
T1 - Reduced Human Germ Cell-Less (HGCL) Expression in Azoospermic Men with Severe Germinal Cell Impairment
AU - Kleiman, Sandra E.
AU - Yogev, Leah
AU - Gal-Yam, Einav Nili
AU - Hauser, Ron
AU - Gamzu, Ronni
AU - Botchan, Amnon
AU - Paz, Gedalia
AU - Yavetz, Haim
AU - Maymon, Batia Bar Shira
AU - Schreiber, Letizia
AU - Barzilai, Shlomit
AU - Amariglio, Ninette
AU - Rechavi, Gideon
AU - Simon, Amos J.
PY - 2003
Y1 - 2003
N2 - Germ cell-less (GCL) protein is a nuclear envelope protein highly conserved between the mammalian and Drosophila orthologues. In Drosophila, maternal GCL protein is required to establish the germ lineage during embryonic development. In mammals, it is suggested that the GCL function is mainly in spermatogenesis and that it might be related to the ability of mouse GCL to repress transcription. Using reverse transcriptase-polymerase chain reaction analyses, we investigated the role of human GCL (HGCL) in spermatogenesis by studying its expression in the testicular tissue of 67 azoospermic men with normal karyotype and no Y-chromosome microdetetion. Their testicular biopsy specimens underwent meticulous histological and cytological analysis as well as molecular analysis with various markers of spermatogenesis (RBM1, DAZ, and CDY1). The rate of X-Y and 18 chromosome bivalent formation during meiosis was additionally assessed in 22 of these biopsy specimens and correlated to HGCL expression. Expression of HGCL was affected in parallel with the severity of testicular impairment found. Defective sperm motility was associated with the absence of HGCL, Nevertheless, the absence of HGCL expression did not influence the normal process of chromosome bivalent formation in meiosis. Our results suggest that HGCL is not essential for the chromosomal events of meiosis but might be involved in later aspects of spermatogenesis.
AB - Germ cell-less (GCL) protein is a nuclear envelope protein highly conserved between the mammalian and Drosophila orthologues. In Drosophila, maternal GCL protein is required to establish the germ lineage during embryonic development. In mammals, it is suggested that the GCL function is mainly in spermatogenesis and that it might be related to the ability of mouse GCL to repress transcription. Using reverse transcriptase-polymerase chain reaction analyses, we investigated the role of human GCL (HGCL) in spermatogenesis by studying its expression in the testicular tissue of 67 azoospermic men with normal karyotype and no Y-chromosome microdetetion. Their testicular biopsy specimens underwent meticulous histological and cytological analysis as well as molecular analysis with various markers of spermatogenesis (RBM1, DAZ, and CDY1). The rate of X-Y and 18 chromosome bivalent formation during meiosis was additionally assessed in 22 of these biopsy specimens and correlated to HGCL expression. Expression of HGCL was affected in parallel with the severity of testicular impairment found. Defective sperm motility was associated with the absence of HGCL, Nevertheless, the absence of HGCL expression did not influence the normal process of chromosome bivalent formation in meiosis. Our results suggest that HGCL is not essential for the chromosomal events of meiosis but might be involved in later aspects of spermatogenesis.
KW - HGCL and chromosome bivalent formation
KW - Markers of spermatogenesis
KW - Motility impairments
KW - Spermatogenesis impairments
KW - Testicular HGCL expression
UR - http://www.scopus.com/inward/record.url?scp=0642373687&partnerID=8YFLogxK
U2 - 10.1002/j.1939-4640.2003.tb02725.x
DO - 10.1002/j.1939-4640.2003.tb02725.x
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C2 - 12954656
AN - SCOPUS:0642373687
SN - 0196-3635
VL - 24
SP - 670
EP - 675
JO - Journal of Andrology
JF - Journal of Andrology
IS - 5
ER -