SPO11-independent DNA repair foci and their role in meiotic silencing

SPO11-independent DNA repair foci and their role in meiotic silencing

In mammalian meiotic prophase, the initial steps in repair of SPO11-induced DNA double-strand breaks (DSBs) are required to obtain stable homologous chromosome pairing and synapsis. The X and Y chromosomes pair and synapse only in the short pseudo-autosomal regions. The rest of the chromatin of the...

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Published in:PLoS genetics Vol. 9; no. 6; p. e1003538
Main Authors: Carofiglio, Fabrizia, Inagaki, Akiko, de Vries, Sandra, Wassenaar, Evelyne, Schoenmakers, Sam, Vermeulen, Christie, van Cappellen, Wiggert A, Sleddens-Linkels, Esther, Grootegoed, J Anton, Te Riele, Hein P J, de Massy, Bernard, Baarends, Willy M
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-06-2013
Public Library of Science (PLoS)
Subjects:
Animals
Biology
Chromosome Pairing - genetics
Chromosomes
DNA Breaks, Double-Stranded
DNA damage
DNA repair
DNA Repair - genetics
DNA sequencing
Endodeoxyribonucleases - genetics
Endodeoxyribonucleases - metabolism
Female
Gene silencing
Genetics
Life Sciences
Male
Meiosis
Meiosis - genetics
Mice
Nucleotide sequencing
Oogenesis - genetics
Proteins
Spermatocytes - cytology
Spermatocytes - metabolism
X Chromosome - genetics
X Chromosome Inactivation - genetics
Y Chromosome - genetics
United States
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Summary:In mammalian meiotic prophase, the initial steps in repair of SPO11-induced DNA double-strand breaks (DSBs) are required to obtain stable homologous chromosome pairing and synapsis. The X and Y chromosomes pair and synapse only in the short pseudo-autosomal regions. The rest of the chromatin of the sex chromosomes remain unsynapsed, contains persistent meiotic DSBs, and the whole so-called XY body undergoes meiotic sex chromosome inactivation (MSCI). A more general mechanism, named meiotic silencing of unsynapsed chromatin (MSUC), is activated when autosomes fail to synapse. In the absence of SPO11, many chromosomal regions remain unsynapsed, but MSUC takes place only on part of the unsynapsed chromatin. We asked if spontaneous DSBs occur in meiocytes that lack a functional SPO11 protein, and if these might be involved in targeting the MSUC response to part of the unsynapsed chromatin. We generated mice carrying a point mutation that disrupts the predicted catalytic site of SPO11 (Spo11(YF/YF)), and blocks its DSB-inducing activity. Interestingly, we observed foci of proteins involved in the processing of DNA damage, such as RAD51, DMC1, and RPA, both in Spo11(YF/YF) and Spo11 knockout meiocytes. These foci preferentially localized to the areas that undergo MSUC and form the so-called pseudo XY body. In SPO11-deficient oocytes, the number of repair foci increased during oocyte development, indicating the induction of S phase-independent, de novo DNA damage. In wild type pachytene oocytes we observed meiotic silencing in two types of pseudo XY bodies, one type containing DMC1 and RAD51 foci on unsynapsed axes, and another type containing only RAD51 foci, mainly on synapsed axes. Taken together, our results indicate that in addition to asynapsis, persistent SPO11-induced DSBs are important for the initiation of MSCI and MSUC, and that SPO11-independent DNA repair foci contribute to the MSUC response in oocytes.
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PMCID: PMC3675022
Current address: Laboratory of Chromosome Biology, Memorial Sloan Kettering Cancer Center, New York, New York, United States of America.
Conceived and designed the experiments: WMB JAG BdM HPJtR. Performed the experiments: FC AI SdV EW SS CV ESL. Analyzed the data: FC AI. Contributed reagents/materials/analysis tools: BdM HPJtR. Wrote the paper: FC AI JAG BdM WMB. Designed the ImageJ macros and plugins to perform foci quantification and synaptonemal complex measurements: WAvC.
The authors have declared that no competing interests exist.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1003538