An element within the 5′ untranslated region of human <i>Hsp70</i> mRNA which acts as a general enhancer of mRNA translation

Vivinus, Sandra; Baulande, Sylvain; Zanten, Marije van; Campbell, Fiona; Topley, Peter; Ellis, Jonathan H.; Dessen, Philippe; Coste, Hervé

doi:10.1046/j.1432-1327.2001.02064.x

Cited by 59 publications

(46 citation statements)

References 37 publications

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“…No large section of the 5Ј-UTR can be excised without a dramatic deleterious effect on the expression of the second cistron. This conclusion nicely correlates with data of Vivinus et al (9), who have recently shown the importance of the integrity of Hsp70 5Ј-UTR for its enhancing effect on translation of reporter genes in monocistronic constructions.…”

Section: Discussionsupporting

confidence: 91%

“…The attempts to experimentally identify a specific structure within the relatively short 5Ј-UTR of BiP mRNA (210 nt) have been unsuccessful (7). Even more surprising is that the 5Ј-UTR of mammalian Hsp70 mRNA has been reported to be devoid of IRES properties (8,9), despite the fact that its length, GC-content, and relaxed cap-dependence (10,11) are similar to the 5Ј-UTR of BiP mRNA, and the corresponding mRNAs encode proteins with related functions (chaperones). The high GϩC content of the 5Ј-UTR of mammalian Hsp70 mRNA seems more compatible with operation via an IRES than by means of the classical scanning mechanism.…”

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confidence: 99%

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Distinctive Properties of the 5′-Untranslated Region of Human Hsp70 mRNA

Rubtsova

Sizova

Dmitriev

et al. 2003

Journal of Biological Chemistry

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A relaxed cap-dependence of translation of the mRNA-encoding mammalian heat shock protein Hsp70 may suggest that its 5 -untranslated region (UTR) possesses an internal ribosome entry site (IRES). In this study, this possibility has been tested in transfected cells using plasmids that express dicistronic mRNAs. Using a reporter gene construct, Renilla luciferase/Photinus pyralis luciferase, we show that the 216-nt long 5 -UTR of Hsp70 mRNA acts as an IRES that directs ribosomes to the downstream start codon by a cap-independent mechanism. The relative activity of this IRES (100-fold over the empty vector) is similar to that of the classical picornaviral IRESs. Additional controls indicate that this high expression of the downstream reporter is not due to readthrough from the upstream cistron, nor is it due to translation of cryptic monocistronic transcripts. The effect of small deletions within the 5 -UTR of Hsp70 mRNA on the IRES activity varies in dependence on their position within the 5 -UTR sequence. With the exception of deletion of nt 33-50, it is small for the 5 -terminal half of the 5 -UTR and rather strong for the 3 -terminal section. However, neither of these small deletions abolishes the IRES activity completely. Excision of larger sections (>50 nt) by truncation of the 5 -UTR from the 5 -end or by internal deleting results in a dramatic impairment of the IRES function. Taken together, these data suggest that the IRES activity of the 5 -UTR of Hsp70 mRNA requires integrity of almost the entire sequence of the 5 -UTR. The data are discussed in terms of a model that allows a three-dimensional rather than linear mode of selection of the initiation region surrounding the start codon of Hsp70 mRNA.

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Section: Discussionsupporting

confidence: 91%

mentioning

confidence: 99%

Distinctive Properties of the 5′-Untranslated Region of Human Hsp70 mRNA

Rubtsova

Sizova

Dmitriev

et al. 2003

Journal of Biological Chemistry

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“…We propose that the 5Ј UTR of the emp2 transcript harbors an element(s) important for its efficient translation. It has been demonstrated in both Drosophila and human that a lengthy and intact 5Ј UTR is required for the preferential translation of hsp70 transcripts under stress conditions (Lindquist and Petersen, 1990;Hess and Duncan, 1996;Vivinus et al, 2001). If the 5Ј UTR of emp2 has a function similar to that of hsp70, this may provide a mechanism to regulate the accumulation of EMP2 in response to heat stress, assuming that emp2 is transcribed constitutively (data not shown).…”

Section: Mu Transposon Insertion Correlates With the Use Of Alternatimentioning

confidence: 94%

empty pericarp2 Encodes a Negative Regulator of the Heat Shock Response and Is Required for Maize Embryogenesis

Meeley

Scanlon

2002

Plant Cell

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The heat shock response (HSR) is an evolutionarily conserved molecular/biochemical reaction to thermal stress that is essential to the survival of eukaryotic organisms. Recessive Mutator transposon mutations at the maize empty pericarp2 ( emp2 ) locus led to dramatically increased expression of heat shock genes, retarded embryo development, and early-stage abortion of embryogenesis. The developmental timing of emp2 mutant embryo lethality was correlated with the initial competence of maize kernels to invoke the HSR. Cloning and sequence analyses revealed that the emp2 gene encoded a predicted protein with high similarity to HEAT SHOCK BINDING PROTEIN1, which was first described in animals as a negative regulator of the HSR. emp2 is a loss-of-function mutation of an HSR-negative regulator in plants. Despite the recessive emp2 phenotype, steady state levels of emp2 transcripts were abundant in mutant kernels, and the predicted coding region was unaffected. These expression data suggest that emp2 transcription is feedback regulated, whereas S1 nuclease mapping suggests that emp2 mutant transcripts are 5 Ј truncated and nontranslatable. In support of this model, immunoblot assays revealed that EMP2 protein did not accumulate in mutant kernels. These data support a model whereby an unattenuated HSR results in the early abortion of emp2 mutant embryos. Furthermore, the developmental retardation of emp2 mutant kernels before the HSR suggests an additional role for EMP2 during embryo development distinct from the HSR.

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“…There are examples of a posttranscriptional regulatory role for the 5ЈUTR. The 5ЈUTR of human heat shock protein 70 mRNA contains an element that increases the translation efficiency at 42°C compared with at 37°C (37). Relatively little is known about the role(s) of selective expression of mRNAs differing only in the 5ЈUTR.…”

Section: Cd3mentioning

confidence: 99%

Extrathymic TCR Gene Rearrangement in Human Small Intestine: Identification of New Splice Forms of Recombination Activating Gene-1 mRNA with Selective Tissue Expression

Bas

Hammarström

2003

The Journal of Immunology

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Two new 5′-untranslated region (5′UTR) exons were identified in the human gene for the lymphocyte-specific endonuclease recombination activating gene-1 (RAG1) required for the somatic recombination yielding functional Ag receptors. These 5′UTR exons were used in three different splice forms by jejunal lymphocytes of the T cell lineage. RAG1 mRNA containing the previously described 5′UTR exon was not expressed in these cells. Conversely, one of the new 5′UTR exons was not expressed in thymus. The new RAG1 mRNA splice forms were all expressed in immature T cells (CD2+CD7+CD3−). This cell population also expressed high levels of mRNA for the pre-T α-chain. In situ hybridization demonstrated jejunal cells expressing the new splice forms of RAG1 mRNA, both intraepithelially and in lamina propria. Pre-T α-chain mRNA-expressing cells were detected at the same sites. These results strongly suggest ongoing TCR gene rearrangement in human small intestinal mucosa, yielding T cells specially adapted for this environment. This seems to be achieved by two parallel processes, extrathymic T cell development and peripheral Ag-driven TCR editing.

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An element within the 5′ untranslated region of human Hsp70 mRNA which acts as a general enhancer of mRNA translation

Cited by 59 publications

References 37 publications

Distinctive Properties of the 5′-Untranslated Region of Human Hsp70 mRNA

Distinctive Properties of the 5′-Untranslated Region of Human Hsp70 mRNA

empty pericarp2 Encodes a Negative Regulator of the Heat Shock Response and Is Required for Maize Embryogenesis

Extrathymic TCR Gene Rearrangement in Human Small Intestine: Identification of New Splice Forms of Recombination Activating Gene-1 mRNA with Selective Tissue Expression

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