The role of asynapsis in human spermatocyte failure

Summary The basic molecular mechanisms by which chromosomal rearrangements in heterozygous state produce spermatogenic disturbances are poorly understood. Testicular biopsies from five patients – one carrier of a Robertsonian translocation rob t(13;14), two carriers of two different Y‐autosome trans...

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Bibliographic Details
Published in:International journal of andrology 2012-08, Vol.35 (4), p.541-549
Main Authors: Sciurano, R. B., Rahn, M. I., Rey-Valzacchi, G., Coco, R., Solari, A. J.
Format: Article
Language:English
Subjects:
Adult
asynapsis
Azoospermia - genetics
Biological and medical sciences
Birth control
BRCA1 Protein - genetics
Chromatin
chromosomal abnormalities
Fundamental and applied biological sciences. Psychology
Gynecology. Andrology. Obstetrics
Histones - genetics
human
Humans
infertility
Male
Male genital diseases
Mammalian male genital system
Medical sciences
meiosis
Meiosis - genetics
Oligospermia - genetics
Pachytene Stage - genetics
Rad51 Recombinase - genetics
Semen Analysis
Spermatogenesis - genetics
Spermatozoa - abnormalities
Sterility. Assisted procreation
Translocation, Genetic
Vertebrates: reproduction
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Summary:Summary The basic molecular mechanisms by which chromosomal rearrangements in heterozygous state produce spermatogenic disturbances are poorly understood. Testicular biopsies from five patients – one carrier of a Robertsonian translocation rob t(13;14), two carriers of two different Y‐autosome translocations, a t(Y;6) and a t(Y;11), one carrier of a reciprocal translocation t(3;13) and one carrier of a heterochromatin duplication in chromosome 9 – were processed for histopathological analysis, electron microscopy and fluorescent immunolocalization of meiotic proteins. In all the patients, the asynaptic regions during pachytene are labelled by BRCA1 and retained RAD51 foci. The variant histone γ‐H2AX is located on the chromatin domains of the asynaptic regions and the XY body. In contrast, these meiotic proteins are absent in those chromosomal segments that are non‐homologously synapsed. The present observations on five new cases and a review of recent studies show that the common features shared by all these cases are the abnormal location of some meiotic proteins and the presence of transcriptionally silenced chromatin domains on asynaptic regions. The frequent association of these silenced regions with the XY body and the rescue of spermatocyte viability through non‐homologous synapsis are also shared by all these carriers. A passive, random mechanism of clustering of asynaptic regions with the XY body is suggested.
ISSN:0105-6263
1365-2605
DOI:10.1111/j.1365-2605.2011.01221.x