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AKIRIN2 controls the nuclear import of proteasomes in vertebrates

机译:Akirin2控制脊椎动物中蛋白酶群的核导入

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摘要

Protein expression and turnover are controlled through a complex interplay of transcriptional, post-transcriptional and post-translational mechanisms to enable spatial and temporal regulation of cellular processes. To systematically elucidate such gene regulatory networks, we developed a CRISPR screening assay based on time-controlled Cas9 mutagenesis, intracellular immunostaining and fluorescence-activated cell sorting that enables the identification of regulatory factors independent of their effects on cellular fitness. We pioneered this approach by systematically probing the regulation of the transcription factor MYC, a master regulator of cell growth(1-3). Our screens uncover a highly conserved protein, AKIRIN2, that is essentially required for nuclear protein degradation. We found that AKIRIN2 forms homodimers that directly bind to fully assembled 20S proteasomes to mediate their nuclear import. During mitosis, proteasomes are excluded from condensing chromatin and re-imported into newly formed daughter nuclei in a highly dynamic, AKIRIN2-dependent process. Cells undergoing mitosis in the absence of AKIRIN2 become devoid of nuclear proteasomes, rapidly causing accumulation of MYC and other nuclear proteins. Collectively, our study reveals a dedicated pathway controlling the nuclear import of proteasomes in vertebrates and establishes a scalable approach to decipher regulators in essential cellular processes.
机译:通过转录,转录后和翻译后机制的复杂相互作用来控制蛋白质表达和转换,以实现细胞过程的空间和时间调节。为了系统地阐明这种基因调节网络,我们基于时间控制的CAS9诱变,细胞内免疫染色和荧光激活细胞分选开发了一种CRISPR筛查测定,使得能够鉴定与其对细胞健身的影响无关的调节因子。通过系统地探测转录因子MYC的调节,细胞生长的母细胞调节剂(1-3),我们开创了这种方法。我们的屏幕揭示了高度保守的蛋白质Akirin2,其基本上需要核蛋白质降解。我们发现Akirin2形成直接结合的偶发二聚体,以完全组装20S蛋白蛋白,以调解它们的核进口。在有丝分裂期间,蛋白酶被排除在冷凝染色质中,并在高度动态的Akirin2依赖性过程中重新进入新形成的子核。在没有Akirin2的情况下进行有丝分裂的细胞变得缺乏核蛋白质,迅速造成Myc和其他核蛋白的积累。统称,我们的研究揭示了一种专用途径,控制脊椎动物中蛋白酶核导入,并建立一种可扩展的解码调节剂在必要的细胞过程中的方法。

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  • 来源
    《Nature》 |2021年第7885期|491-496|共6页
  • 作者

    de Almeida Melanie; Hinterndorfer Matthias; Brunner Hanna; Grishkovskaya Irina; Singh Kashish; Schleiffer Alexander; Jude Julian; Deswal Sumit; Kalis Robert; Vunjak Milica; Lendl Thomas; Imre Richard; Roitinger Elisabeth; Neumann Tobias; Kandolf Susanne; Schutzbier Michael; Mechtler Karl; Versteeg Gijs A.; Haselbach David; Zuber Johannes;

  • 作者单位

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Univ Vienna Vienna BioCtr PhD Program Doctoral Sch Vienna Austria|Med Univ Vienna Vienna BioCtr VBC Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Univ Vienna Vienna BioCtr PhD Program Doctoral Sch Vienna Austria|Med Univ Vienna Vienna BioCtr VBC Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Univ Vienna Vienna BioCtr PhD Program Doctoral Sch Vienna Austria|Med Univ Vienna Vienna BioCtr VBC Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|MRC Lab Mol Biol Cambridge England;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Twist Biosci San Francisco CA USA;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|AstraZeneca BioPharmaceut R&D Discovery Sci Genome Engn Gothenburg Sweden;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Univ Vienna Vienna BioCtr PhD Program Doctoral Sch Vienna Austria|Med Univ Vienna Vienna BioCtr VBC Vienna Austria;

    Univ Vienna Vienna BioCtr PhD Program Doctoral Sch Vienna Austria|Med Univ Vienna Vienna BioCtr VBC Vienna Austria|Univ Vienna Vienna BioCtr VBC Dept Microbiol ImmunobioL & Genet Max Perutz Labs Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Quantro Therapeut Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Univ Vienna Vienna BioCtr VBC Dept Microbiol ImmunobioL & Genet Max Perutz Labs Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria;

    Vienna BioCtr VBC Res Inst Mol Pathol IMP Vienna Austria|Med Univ Vienna Vienna BioCtr VBC Vienna Austria;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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