Maternal SENP7 programs meiosis architecture and embryo survival in mouse
Autor: | Cheng–Liang Xiong, Xiao–Ming Liu, Faheem Ahmed Khan, Chun Jie Huang, Xiao‑Fei Jiao, Tai–Lang Yin, Jing Yang, Li Jun Huo, Di Wu |
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Rok vydání: | 2017 |
Předmět: |
0301 basic medicine
Zygote DNA repair Heterochromatin DNA damage Biology Epigenesis Genetic Histones Mice 03 medical and health sciences Meiosis Pregnancy Tubulin Endopeptidases Animals Cyclin B2 Epigenetics Cyclin B1 Molecular Biology Mitosis Cells Cultured Genetics Embryo Cell Biology Cell biology Spindle checkpoint Blastocyst 030104 developmental biology Chromobox Protein Homolog 5 Oocytes M Phase Cell Cycle Checkpoints Female Maternal Inheritance |
Zdroj: | Biochimica et Biophysica Acta (BBA) - Molecular Cell Research. 1864:1195-1206 |
ISSN: | 0167-4889 |
DOI: | 10.1016/j.bbamcr.2017.03.005 |
Popis: | Understanding the mechanisms underlying abnormal egg production and pregnancy loss is significant for human fertility. SENP7, a SUMO poly-chain editing enzyme, has been regarded as a mitotic regulator of heterochromatin integrity and DNA repair. Herein, we report the roles of SENP7 in mammalian reproductive scenario. Mouse oocytes deficient in SENP7 experienced meiotic arrest at prophase I and metaphase I stages, causing a substantial decrease of mature eggs. Hyperaceylation and hypomethylation of histone H3 and up-regulation of Cdc14B/C accompanied by down-regulation of CyclinB1 and CyclinB2 were further recognized as contributors to defective M-phase entry and spindle assembly in oocytes. The spindle assembly checkpoint activated by defective spindle morphogenesis, which was also caused by mislocalization and ubiquitylation-mediated proteasomal degradation of γ-tubulin, blocked oocytes at meiosis I stage. SENP7-depleted embryos exhibited severely defective maternal-zygotic transition and progressive degeneration, resulting in nearly no blastocyst production. The disrupted epigenetic landscape on histone H3 restricted Rad51C loading onto DNA lesions due to elevated HP1α euchromatic deposition, and reduced DNA 5hmC challenged the permissive status for zygotic DNA repair, which induce embryo death. Our study pinpoints SENP7 as a novel determinant in epigenetic programming and major pathways that govern oocyte and embryo development programs in mammals. |
Databáze: | OpenAIRE |
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