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Unique repression domains of Pumilio utilize deadenylation and decapping factors to accelerate destruction of target mRNAs

  1. Author:
    Arvola, Rene M.
    Chang, Chung-Te
    Buytendorp, Joseph P.
    Levdansky,Yevgen
    Valkov,Eugene
    Freddolino, Peter L.
    Goldstrohm, Aaron C.

  2. Author Address

    Univ Minnesota, Dept Biochem Mol Biol & Biophys, Minneapolis, MN 55455 USA.Univ Michigan, Dept Biol Chem, Ann Arbor, MI 48109 USA.Max Planck Inst Dev Biol, Dept Biochem, Max Planck Ring 5, D-72076 Tubingen, Germany.Univ Michigan, Dept Computat Med & Bioinformat, Ann Arbor, MI 48109 USA.Ohio State Univ, 211 Biol Sci Bldg,484 W 12th Ave, Columbus, OH 43210 USA.NCI, Messenger RNA Regulat & Decay Sect, RNA Biol Lab, Ctr Canc Res, Frederick, MD 21701 USA.Natl Yang Ming Univ, Inst Biochem & Mol Biol, Taipei, Taiwan.
    1. Year: 2020
    2. Date: Feb 28
  2. Journal: NUCLEIC ACIDS RESEARCH
  3. OXFORD UNIV PRESS,
    1. 48
    2. Pages: 1843-1871
  5. Type of Article: Article
  6. ISSN: 0305-1048
  1. Abstract:

    Pumilio is an RNA-binding protein that represses a network of mRNAs to control embryogenesis, stem cell fate, fertility and neurological functions in Drosophila. We sought to identify the mechanism of Pumilio-mediated repression and find that it accelerates degradation of target mRNAs, mediated by three N-terminal Repression Domains (RDs), which are unique to Pumilio orthologs. We show that the repressive activities of the Pumilio RDs depend on specific subunits of the Ccr4-Not (CNOT) deadenylase complex. Depletion of Pop2, Not1, Not2, or Not3 subunits alleviates Pumilio RD-mediated repression of protein expression and mRNA decay, whereas depletion of other CNOT components had little or no effect. Moreover, the catalytic activity of Pop2 deadenylase is important for Pumilio RD activity. Further, we show that the Pumilio RDs directly bind to the CNOT complex. We also report that the decapping enzyme, Dcp2, participates in repression by the Nterminus of Pumilio. These results support a model wherein Pumilio utilizes CNOT deadenylase and decapping complexes to accelerate destruction of target mRNAs. Because the N-terminal RDs are conserved in mammalian Pumilio orthologs, the results of this work broadly enhance our understanding of Pumilio function and roles in diseases including cancer, neurodegeneration and epilepsy.

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  1. Keywords:

External Sources

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  2. DOI: 10.1093/nar/gkz1187
  3. PMID: 31863588
  4. PMCID: PMC7038932
  5. View record in Web of ScienceĀ®
  6. WOS: 000525957000023

Library Notes

  1. Fiscal Year: FY2019-2020
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