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SUMOylation 修饰 Bonus,转录中介因子 1 的同源蛋白,通过募集抑制性染色质复合物沉默组织特异性基因来保护生殖细胞的身份。

SUMOylation of Bonus, the homolog of Transcription Intermediary Factor 1, safeguards germline identity by recruiting repressive chromatin complexes to silence tissue-specific genes.

机构信息

California Institute of Technology, Division of Biology and Biological Engineering, Pasadena, United States.

Institute of Gene Biology, Russian Academy of Sciences, Moscow, Russian Federation.

出版信息

Elife. 2023 Nov 24;12:RP89493. doi: 10.7554/eLife.89493.

DOI:10.7554/eLife.89493
PMID:37999956
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10672805/
Abstract

The conserved family of Transcription Intermediary Factors (TIF1) proteins consists of key transcriptional regulators that control transcription of target genes by modulating chromatin state. Unlike mammals that have four TIF1 members, only encodes one member of the family, Bonus. Bonus has been implicated in embryonic development and organogenesis and shown to regulate several signaling pathways, however, its targets and mechanism of action remained poorly understood. We found that knockdown of Bonus in early oogenesis results in severe defects in ovarian development and in ectopic expression of genes that are normally repressed in the germline, demonstrating its essential function in the ovary. Recruitment of Bonus to chromatin leads to silencing associated with accumulation of the repressive H3K9me3 mark. We show that Bonus associates with the histone methyltransferase SetDB1 and the chromatin remodeler NuRD and depletion of either component releases Bonus-induced repression. We further established that Bonus is SUMOylated at a single site at its N-terminus that is conserved among insects and this modification is indispensable for Bonus's repressive activity. SUMOylation influences Bonus's subnuclear localization, its association with chromatin and interaction with SetDB1. Finally, we showed that Bonus SUMOylation is mediated by the SUMO E3-ligase Su(var)2-10, revealing that although SUMOylation of TIF1 proteins is conserved between insects and mammals, both the mechanism and specific site of modification is different in the two taxa. Together, our work identified Bonus as a regulator of tissue-specific gene expression and revealed the importance of SUMOylation as a regulator of complex formation in the context of transcriptional repression.

摘要

转录中介因子(TIF1)家族保守蛋白由关键转录调控因子组成,通过调节染色质状态控制靶基因的转录。与具有四个 TIF1 成员的哺乳动物不同,仅编码该家族的一个成员 Bonus。Bonus 被认为参与胚胎发育和器官发生,并被证明调节几个信号通路,但其靶标和作用机制仍知之甚少。我们发现,在早期卵母细胞发生中敲低 Bonus 会导致卵巢发育严重缺陷,并导致通常在线粒体中被抑制的基因异位表达,这表明其在卵巢中具有重要功能。Bonus 向染色质的募集导致与抑制性 H3K9me3 标记积累相关的沉默。我们表明,Bonus 与组蛋白甲基转移酶 SetDB1 和染色质重塑酶 NuRD 相关联,并且消耗任一组分都会释放 Bonus 诱导的抑制。我们进一步确定 Bonus 在其 N 末端的单个保守位点与 SUMO 连接,这种修饰对于 Bonus 的抑制活性是不可或缺的。SUMOylation 影响 Bonus 的亚核定位、与染色质的关联及其与 SetDB1 的相互作用。最后,我们表明 Bonus 的 SUMOylation 是由 SUMO E3 连接酶 Su(var)2-10 介导的,这表明尽管昆虫和哺乳动物之间 TIF1 蛋白的 SUMOylation是保守的,但两种生物中修饰的机制和特定位点是不同的。总之,我们的工作确定了 Bonus 作为组织特异性基因表达的调节剂,并揭示了 SUMOylation 作为转录抑制背景下复杂形成调节剂的重要性。

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