p53和TAp63参与小鼠精母细胞中依赖重组的粗线期停滞。

p53 and TAp63 participate in the recombination-dependent pachytene arrest in mouse spermatocytes.

作者信息

Marcet-Ortega Marina, Pacheco Sarai, Martínez-Marchal Ana, Castillo Helena, Flores Elsa, Jasin Maria, Keeney Scott, Roig Ignasi

机构信息

Genome Integrity and Instability Group, Institut de Biotecnologia i Biomedicina, Universitat Autònoma de Barcelona, Cerdanyola del Vallès, Barcelona, Spain.

Department of Cell Biology, Physiology and Immunology, Cytology and Histology Unit, Universitat Autònoma de Barcelona, Cerdanyola del Vallès, Barcelona, Spain.

出版信息

PLoS Genet. 2017 Jun 15;13(6):e1006845. doi: 10.1371/journal.pgen.1006845. eCollection 2017 Jun.

DOI:10.1371/journal.pgen.1006845

PMID:28617799

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5491309/

Abstract

To protect germ cells from genomic instability, surveillance mechanisms ensure meiosis occurs properly. In mammals, spermatocytes that display recombination defects experience a so-called recombination-dependent arrest at the pachytene stage, which relies on the MRE11 complex-ATM-CHK2 pathway responding to unrepaired DNA double-strand breaks (DSBs). Here, we asked if p53 family members-targets of ATM and CHK2-participate in this arrest. We bred double-mutant mice combining a mutation of a member of the p53 family (p53, TAp63, or p73) with a Trip13 mutation. Trip13 deficiency triggers a recombination-dependent response that arrests spermatocytes in pachynema before they have incorporated the testis-specific histone variant H1t into their chromatin. We find that deficiency for either p53 or TAp63, but not p73, allowed spermatocytes to progress further into meiotic prophase despite the presence of numerous unrepaired DSBs. Even so, the double mutant spermatocytes apoptosed at late pachynema because of sex body deficiency; thus p53 and TAp63 are dispensable for arrest caused by sex body defects. These data affirm that recombination-dependent and sex body-deficient arrests occur via genetically separable mechanisms.

摘要

为保护生殖细胞免受基因组不稳定的影响，监测机制确保减数分裂正常发生。在哺乳动物中，显示出重组缺陷的精母细胞在粗线期会经历所谓的依赖重组的停滞，这依赖于MRE11复合体-ATM-CHK2途径对未修复的DNA双链断裂（DSB）作出反应。在此，我们探究了p53家族成员（ATM和CHK2的靶点）是否参与这种停滞。我们培育了双突变小鼠，将p53家族成员（p53、TAp63或p73）的突变与Trip13突变相结合。Trip13缺陷会引发一种依赖重组的反应，使精母细胞在粗线期停滞，此时它们尚未将睾丸特异性组蛋白变体H1t整合到染色质中。我们发现，p53或TAp63的缺陷，但不是p73的缺陷，能使精母细胞尽管存在大量未修复的DSB仍进一步进入减数分裂前期。即便如此，双突变精母细胞由于性体缺陷在粗线期末期发生凋亡；因此，p53和TAp63对于性体缺陷导致的停滞是可有可无的。这些数据证实，依赖重组的停滞和性体缺陷导致的停滞是通过基因上可分离的机制发生的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/165d/5491309/0ea95d988cab/pgen.1006845.g001.jpg

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p53和TAp63参与小鼠精母细胞中依赖重组的粗线期停滞。

p53 and TAp63 participate in the recombination-dependent pachytene arrest in mouse spermatocytes.

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