Two Different RNA Binding Activities for the AU-Rich Element and the Poly(A) Sequence of the Mouse Neuronal Protein mHuC

Abe, Ryoichi; Sakashita, Eiji; Yamamoto, Kōichi; Sakamoto, Hiroshi

doi:10.1093/nar/24.24.4895

Cited by 97 publications

(102 citation statements)

References 61 publications

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“…Previous studies showed that RRM1 and RRM2 are sufficient for binding to the ARE (35,36), whereas RRM3 is capable of binding to poly(A) in a filter binding assay (37). By deletion mutant analysis, it has been shown that RRM3 of HuR is necessary for stabilization (21) and that the hinge region contains the nucleocytoplasmic shuttling signal (38).…”

Section: Discussionmentioning

confidence: 99%

Xenopus Cold-inducible RNA-binding Protein 2 Interacts with ElrA, the Xenopus Homolog of HuR, and Inhibits Deadenylation of Specific mRNAs

Aoki

Matsumoto

Tsujimoto

2003

Journal of Biological Chemistry

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Xenopus cold-inducible RNA-binding protein 2 (xCIRP2) is a major cytoplasmic RNA-binding protein in oocytes. In this study, we identify another RNA-binding protein ElrA, the Xenopus homolog of HuR, as an interacting protein of xCIRP2 by yeast two-hybrid screening. As ElrA stabilizes the RNA body in the in vitro mRNA stability system, we examine the role of xCIRP2 in the stabilization of mRNA and find that xCIRP2 inhibits deadenylation of AU-rich element-containing mRNA. These results suggest that xCIRP2 and ElrA may be involved in the regulation of mRNA stability at different steps. By immunoprecipitation with anti-xCIRP2 antibody, we find that xCIRP2 interacts with several mRNAs including mRNA encoding the centrosomal kinase Nek2B in oocytes. xCIRP2 also inhibits deadenylation of the mRNA substrate containing the 3 -untranslated region of Nek2B mRNA in the in vitro system. Our results suggest that xCIRP2 associates with specific mRNAs and can regulate the length of poly(A) tail in Xenopus oocytes.

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Section: Discussionmentioning

confidence: 99%

Xenopus Cold-inducible RNA-binding Protein 2 Interacts with ElrA, the Xenopus Homolog of HuR, and Inhibits Deadenylation of Specific mRNAs

Aoki

Matsumoto

Tsujimoto

2003

Journal of Biological Chemistry

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“…In vitro selection had previously been carried out for HuB and HuC (19,26,56). Three rounds of binding selection with HuB, using an RNA carrying a randomized region of 25 nucleotides, had yielded predominantly RNAs that contained U 3-5 -tracts (19) and binding selection using a 3ЈUTR library had selected RNAs that contained the sequence Pu(U/A)U 3 AU 3 (U/A)Pu (where Pu indicates a purine) (56).…”

Section: Figmentioning

confidence: 99%

“…Three rounds of binding selection with HuB, using an RNA carrying a randomized region of 25 nucleotides, had yielded predominantly RNAs that contained U 3-5 -tracts (19) and binding selection using a 3ЈUTR library had selected RNAs that contained the sequence Pu(U/A)U 3 AU 3 (U/A)Pu (where Pu indicates a purine) (56). A similar iterative selection of HuC-binding RNAs indicated that HuC binds to RNAs carrying the sequence Pu(U) 2-5 (Pu) 1-2 (U) [2][3][4][5] Pu (26).…”

Section: Figmentioning

confidence: 99%

Characterization of the Interaction between Neuronal RNA-binding Protein HuD and AU-rich RNA

Park-Lee

Kim

Laird-Offringa

2003

Journal of Biological Chemistry

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Hu proteins have been shown to bind to AU-rich elements (AREs) in the 3 -untranslated region of unstable mRNAs. They can thereby inhibit the decay of labile transcripts by antagonizing destabilizing proteins that target these AU-rich sequences. Here we examine the sequence preferences of HuD to elucidate its possible role in counteracting mRNA decay. Using repeats of the prototype destabilizing sequence UU(AUUU) n AUU, we show that all three HuD RNA-binding domains participate in binding to AU-tracts that can be as short as 13 residues, depending on the position of the remaining As. Removal of the A residues, resulting in a poly(U)-tract, increased the affinity of HuD for RNA, suggesting that the presence of As in destabilizing elements might favor the recruitment of other proteins and/or prevent HuD from binding too tightly to AREs. In vitro selection experiments with randomized RNAs confirmed the preference of HuD for poly(U). RNA binding analysis of the related protein HuB showed a similar preference for poly(U). In contrast, tristetraprolin, an mRNA destabilizing protein, strongly prefers AU-rich RNA. Many labile mRNAs contain U-tracts in or near their AREs. Individual AREs may thus differentially affect mRNA halflife by recruiting a unique complement of stabilizing and destabilizing factors.

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“…3). Previous in vitro studies on Hu proteins have shown that RBDs 1 and 3 are required for binding to AREs and the poly(A) tail, respectively (Abe et al 1996b;Chung et al 1996;Ma et al 1997). Therefore, the binding of HuD to some speci®c ARE-containing mRNAs and also possibly the export of the mRNAs to the cytoplasm by shuttling may be involved in the induction of neurite outgrowth.…”

Section: The Novel Nes Of Hud and The Nucleocytoplasmic Shuttling Of mentioning

confidence: 99%

Cytoplasmic localization is required for the mammalian ELAV‐like protein HuD to induce neuronal differentiation

et al. 1999

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Two Different RNA Binding Activities for the AU-Rich Element and the Poly(A) Sequence of the Mouse Neuronal Protein mHuC

Cited by 97 publications

References 61 publications

Xenopus Cold-inducible RNA-binding Protein 2 Interacts with ElrA, the Xenopus Homolog of HuR, and Inhibits Deadenylation of Specific mRNAs

Xenopus Cold-inducible RNA-binding Protein 2 Interacts with ElrA, the Xenopus Homolog of HuR, and Inhibits Deadenylation of Specific mRNAs

Characterization of the Interaction between Neuronal RNA-binding Protein HuD and AU-rich RNA

Cytoplasmic localization is required for the mammalian ELAV‐like protein HuD to induce neuronal differentiation

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