Cellular internal ribosome entry segments: structures, trans-acting factors and regulation of gene expression

Stoneley, Mark; Willis, Anne E.

doi:10.1038/sj.onc.1207551

Cited by 326 publications

(340 citation statements)

References 58 publications

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“…In addition to the more commonly occurring cap-dependent translation initiation in eucaryotes it has also become increasingly evident that translation initiation can occur through alternative mechanisms that do not involve the cap structure. Cap-independent translation is mediated by internal ribosome entry sites (IRES) (Jackson, 2000;Schneider, 2001;Stoneley and Willis, 2004). These are usually comprised of structured regions in the 5 0 untranslated region (UTR) and were initially identified in viruses (Pelletier and Sonenberg, 1988) but have since been reported in eucaryotic mRNAs and are believed to constitute a major form of regulation of protein synthesis in mammalian cells (Johannes and Sarnow, 1998).…”

Section: Introductionmentioning

confidence: 99%

Expression of p53 and p53/47 are controlled by alternative mechanisms of messenger RNA translation initiation

et al. 2006

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P53 controls the growth and survival of cells by acting in response to a multitude of cellular stresses. It is, however, not yet fully understood how different p53 activation pathways result in either cell cycle arrest or apoptosis. We and others have described an N-terminally truncated p53 protein (p53/47) originating from a second translation initiation site in the p53 messenger RNA (mRNA), which can interact with p53 and impose altered stability and transactivation properties to p53 complexes. Here we show that cap-dependent and cap-independent mechanisms of initiation govern the translation of the p53 mRNA. Changes in synthesis of full-length p53 or p53/47 are regulated through distinct cell stress-induced pathways acting through separate regions of the p53 mRNA. We also show that some cytotoxic drugs require the presence of full-length p53 to induce apoptosis, whereas for others p53/47 is sufficient. This indicates that by harbouring alternative translation initiation sites, the p53 mRNA gives rise to different levels of the p53 isoforms which help to orchestrate the cell biological outcome of p53 activation in response to different types of cell stress. This sheds new light into the way p53 can integrate and differentiate a large multiplicity of changes in the cellular environment.

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Section: Introductionmentioning

confidence: 99%

Expression of p53 and p53/47 are controlled by alternative mechanisms of messenger RNA translation initiation

et al. 2006

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“…In other words, with the help of RRMs 3 and 4, PTB can bring pyrimidine tracts to close proximity that may be fairly far apart within the primary sequence of the RNA. This capacity might also explain many of the other functions of PTB, like its role in IRES-mediated translation initiation [43,44,46,47]. The structure of the complex also explains how several pyrimidine-rich pentaloops could create a PTB binding site in an IRES [50] or the 3'UTR of certain viral RNAs [95,96], since all four RRMs bind only three to five pyrimidines each.…”

Section: How Can the Ptb Structures Explain Its Multiple Functionsmentioning

confidence: 99%

“…IRESs help recruiting the translation machinery to initiate translation. This recruitment often requires cellular factors binding the IRES (initiation of translation accessory factors, ITAFs) for efficient translation initiation [43,44,46,47]. PTB is one of the most frequently encountered ITAFs and was found to be implicated in IRES-mediated translation of several Figure 1.…”

Section: The Many Functions Of Polypyrimidine Tract Binding Proteinmentioning

confidence: 99%

“…The second most studied function of PTB is its role in internal ribosomal entry site (IRES)-mediated translation initiation of both cellular and viral mRNAs. IRESs are large RNA structures present in the 5'-untranslated regions (UTR) of some cellular mRNAs [43,44] and of many viral mRNAs [45] (Fig. 2).…”

Section: The Many Functions Of Polypyrimidine Tract Binding Proteinmentioning

confidence: 99%

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Structure-function relationships of the polypyrimidine tract binding protein

Auweter

Allain

2007

Cell. Mol. Life Sci.

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Abstract. The polypyrimidine tract binding protein (PTB) is a 58-kDa RNA binding protein involved in multiple aspects of mRNA metabolism including splicing regulation, polyadenylation, 3'end formation, internal ribosomal entry site-mediated translation, RNA localization and stability. PTB contains four RNA recognition motifs (RRMs) separated by three linkers. In this review we summarize structural information on PTB in solution that has been gathered during the past 7 years using NMR spectroscopy and small-angle X-ray scattering. The structures of all RRMs of PTB in their free state and in complex with short pyrimidine tracts, as well as a structural model of PTB RRM2 in complex with a peptide, revealed unusual structural features that provided new insights into the mechanisms of action of PTB in the different processes of RNA metabolism and in particular splicing regulation.

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“…For instance, ERK1/2 activation affects multiple translation initiation components including S6K, p90 RSK, MNK and 4E-BP1, among others (Roux and Blenis, 2004). Also, in addition to eIF4E-mediated cap-dependent initiation, there are internal ribosome entry sites present in several mRNAs important in RCC such as MYC, VEGF and Cyclin D1 (Stoneley and Willis, 2004;Shi et al, 2005), which may allow translation initiation in a cap-independent manner.…”

mentioning

confidence: 99%

Synergistic growth inhibition by Iressa and Rapamycin is modulated by VHL mutations in renal cell carcinoma

et al. 2005

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Epidermal growth factor receptor (EGFR) and tumour growth factor alpha (TGFa) are frequently overexpressed in renal cell carcinoma (RCC) yet responses to single-agent EGFR inhibitors are uncommon. Although von Hippel -Lindau (VHL) mutations are predominant, RCC also develops in individuals with tuberous sclerosis (TSC). Tuberous sclerosis mutations activate mammalian target of rapamycin (mTOR) and biochemically resemble VHL alterations. We found that RCC cell lines expressed EGFR mRNA in the near-absence of other ErbB family members. Combined EGFR and mTOR inhibition synergistically impaired growth in a VHLdependent manner. Iressa blocked ERK1/2 phosphorylation specifically in wt-VHL cells, whereas rapamycin inhibited phospho-RPS6 and 4E-BP1 irrespective of VHL. In contrast, phospho-AKT was resistant to these agents and MYC translation initiation (polysome binding) was similarly unaffected unless AKT was inhibited. Primary RCCs vs cell lines contained similar amounts of phospho-ERK1/2, much higher levels of ErbB-3, less phospho-AKT, and no evidence of phospho-RPS6, suggesting that mTOR activity was reduced. A subset of tumours and cell lines expressed elevated eIF4E in the absence of upstream activation. Despite similar amounts of EGFR mRNA, cell lines (vs tumours) overexpressed EGFR protein. In the paired cell lines, PRC3 and WT8, EGFR protein was elevated posttranscriptionally in the VHL mutant and EGF-stimulated phosphorylation was prolonged. We propose that combined EGFR and mTOR inhibitors may be useful in the subset of RCCs with wt-VHL. However, apparent differences between primary tumours and cell lines require further investigation.

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Cellular internal ribosome entry segments: structures, trans-acting factors and regulation of gene expression

Cited by 326 publications

References 58 publications

Expression of p53 and p53/47 are controlled by alternative mechanisms of messenger RNA translation initiation

Expression of p53 and p53/47 are controlled by alternative mechanisms of messenger RNA translation initiation

Structure-function relationships of the polypyrimidine tract binding protein

Synergistic growth inhibition by Iressa and Rapamycin is modulated by VHL mutations in renal cell carcinoma

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