Transcript stabilization by the RNA-binding protein HuR is regulated by cellular retinoic acid-binding protein 2. Vreeland, AC; Yu, S; Levi, L; de Barros Rossetto, D; Noy, N Molecular and cellular biology
34
2135-46
2014
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The RNA-binding protein HuR binds at 3' untranslated regions (UTRs) of target transcripts, thereby protecting them against degradation. We show that HuR directly interacts with cellular retinoic acid-binding protein 2 (CRABP2), a protein known to transport RA from the cytosol to the nuclear retinoic acid receptor (RAR). Association with CRABP2 dramatically increases the affinity of HuR toward target mRNAs and enhances the stability of such transcripts, including that of Apaf-1, the major protein in the apoptosome. We show further that its cooperation with HuR contributes to the ability of CRABP2 to suppress carcinoma cell proliferation. The data show that CRABP2 displays antioncogenic activities both by cooperating with RAR and by stabilizing antiproliferative HuR target transcripts. The observation that CRABP2 controls mRNA stabilization by HuR reveals that in parallel to participating in transcriptional regulation, the protein is closely involved in posttranscriptional regulation of gene expression. | 24687854
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Aldosterone and vasopressin affect {alpha}- and {gamma}-ENaC mRNA translation. Perlewitz, A; Nafz, B; Skalweit, A; Fähling, M; Persson, PB; Thiele, BJ Nucleic acids research
38
5746-60
2010
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Vasopressin and aldosterone play key roles in the fine adjustment of sodium and water re-absorption in the nephron. The molecular target of this regulation is the epithelial sodium channel (ENaC) consisting of α-, β- and γ-subunits. We investigated mRNA-specific post-transcriptional mechanisms in hormone-dependent expression of ENaC subunits in mouse kidney cortical collecting duct cells. Transcription experiments and polysome gradient analysis demonstrate that both hormones act on transcription and translation. RNA-binding proteins (RBPs) and mRNA sequence motifs involved in translational control of γ-ENaC synthesis were studied. γ-ENaC-mRNA 3'-UTR contains an AU-rich element (ARE), which was shown by RNA affinity chromatography to interact with AU-rich element binding proteins (ARE-BP) like HuR, AUF1 and TTP. Some RBPs co-localized with γ-ENaC mRNA in polysomes in a hormone-dependent manner. Reporter gene co-expression experiments with luciferase γ-ENaC 3'-UTR constructs and ARE-BP expression plasmids demonstrate the importance of RNA-protein interaction for the up-regulation of γ-ENaC synthesis. We document that aldosterone and the V(2) receptor agonist dDAVP act on synthesis of α- and γ-ENaC subunits mediated by RBPs as effectors of translation but not by mRNA stabilization. Immunoprecipitation and UV-crosslinking analysis of γ-ENaC-mRNA/HuR complexes document the significance of γ-ENaC-mRNA-3'-UTR/HuR interaction for hormonal control of ENaC synthesis. Full Text Article | 20453031
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Autoimmune-associated PTPN22 R620W variation reduces phosphorylation of lymphoid phosphatase on an inhibitory tyrosine residue. Fiorillo E, Orru V, Stanford SM, Liu Y, Salek M, Rapini N, Schenone AD, Saccucci P, Delogu LG, Angelini F, Manca Bitti ML, Schmedt C, Chan AC, Acuto O, Bottini N J Biol Chem
2010
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A missense C1858T single nucleotide polymorphism in the PTPN22 gene recently emerged as a major risk factor for human autoimmunity. PTPN22 encodes the lymphoid tyrosine phosphatase LYP, which forms a complex with the kinase Csk and is a critical negative regulator of signaling through the T cell receptor. The C1858T SNP results in the LYP-R620W variation within the LYP-Csk interaction motif. LYP-W620 exhibits a greatly reduced interaction with Csk and is a gain-of-function inhibitor of signaling. Here we show that LYP constitutively interacts with its substrate Lck in a Csk-dependent manner. TCR-induced phosphorylation of LYP by Lck on an inhibitory tyrosine residue releases tonic inhibition of signaling by LYP. The R620W variation disrupts the interaction between Lck and LYP, leading to reduced phosphorylation of LYP, which ultimately contributes to gain-of-function inhibition of T cell signaling. | 20538612
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Protein kinase C? mediates MCP-1 mRNA stabilization in vascular smooth muscle cells. Bin Liu,Latika Dhawan,Burns C Blaxall,Mark B Taubman Molecular and cellular biochemistry
344
2010
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Monocyte chemoattractant protein-1 (MCP-1) is an inflammatory chemokine that promotes atherosclerosis and is a mediator of the response to arterial injury. We previously demonstrated that platelet-derived growth factor (PDGF) and angiotensin II (Ang) induce the accumulation of MCP-1 mRNA in vascular smooth muscle cells mainly by increasing mRNA stability. In the present study, we have examined the signaling pathways involved in this stabilization of MCP-1 mRNA. The effect of PDGF (BB isoform) and Ang on MCP-1 mRNA stability was mediated by the PDGF ? and angiotensin II receptor AT1R, respectively, and did not involve transactivation between the two receptors. The effect of PDGF-BB was blocked by inhibitors of protein kinase C (PKC), but not by inhibitors of phosphoinositol 3-kinase (PI3K), Src, or NADPH oxidase (NADPHox). In contrast, the effect of Ang was blocked by inhibitors of Src, and PKC, but not by inhibitors of PI3 K, or NADPHox. The effect of PDGF BB on MCP-1 mRNA stability was blocked by siRNA directed against PKC? and protein kinase D (PKD), whereas the effect of Ang was blocked only by siRNA directed against PKC?. These results suggest that the enhancement of MCP-1 mRNA stability by PDGF-BB and Ang are mediated by distinct proximal signaling pathways that converge on activation of PKC?. This study identifies a novel role for PKC? in mediating mRNA stability in smooth muscle cells. | 20607592
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