Human CCR4-NOT globally regulates gene expression and is a novel silencer of retrotransposon activation.

CCR4-NOT regulates multiple steps in gene regulation and has been well studied in budding yeast, but much less is known about the human complex. Auxin-induced degradation was used to rapidly deplete the scaffold subunit CNOT1, and CNOT4, to characterize the functions of human CCR4-NOT in gene regulation. Depleting CNOT1 increased RNA levels and caused a widespread decrease in RNA decay. In contrast, CNOT4 depletion only modestly changed steady-state RNA levels and, surprisingly, led to a global acceleration in mRNA decay. Further, depleting either subunit resulted in a global increase in RNA synthesis. In contrast to most of the genome, the transcription of KRAB-Zinc-Finger-protein (KZNFs) genes, especially those on chromosome 19, was repressed. KZNFs are transcriptional repressors of retrotransposable elements (rTEs), and consistent with the decreased KZNFs expression, rTEs, mainly Long Interspersed Nuclear Elements (LINEs), were activated. These data establish CCR4-NOT as a global regulator of gene expression and a novel silencer of rTEs.

Citation

Shardul Kulkarni, Alexis Morrissey, Aswathy Sebastian, Belinda Giardine, Courtney Smith, Oluwasegun T Akinniyi, Cheryl A Keller, Alexei Arnaoutov, Istvan Albert, Shaun Mahony, Joseph C Reese. Human CCR4-NOT globally regulates gene expression and is a novel silencer of retrotransposon activation. bioRxiv : the preprint server for biology. 2024 Nov 25

PMID: 39314347

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