Eukaryotic Translation Initiation Factor 4GI Is a Cellular Target for NS1 Protein, a Translational Activator of Influenza Virus

Aragón, Tomás; Luna, Susana de la; Novoa, Isabel; Carrasco, Luís; Ortı́n, Juan; Nieto, Amelia

doi:10.1128/mcb.20.17.6259-6268.2000

Cited by 180 publications

(144 citation statements)

References 80 publications

(71 reference statements)

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“…Some of the highly conserved residues of the ED, which are buried inside, most probably fulfil a role in stabilizing the protein structure, such as Ala132, Leu144, Ala149, Ile160, Ala177 and Leu181. Residues 81-113 have been reported to interact with a translation initiation factor eIF4F (Aragó n et al, 2000). Based on the present analysis, we postulate that the conserved residues Tyr89, Ser99, Met104, Leu105, Pro107, Gln109 and Lys110 are involved in interaction with eIF4F, while other highly conserved residues in this region, such as Met93 and Trp102, stabilize the structure, since they are not as exposed to the surface as the previous residues.…”

Section: Drug Target Sites Of Influenza Ns Proteinsmentioning

confidence: 73%

“…The major role of NS1 is to antagonize the antiviral response of the host by preventing the activation of NF-kB and induction of alpha/betainterferon (IFN-a/b) (Wang et al, 2000). However, NS1 is a multifunctional protein that is additionally involved in several processes: (i) inhibiting the pre-mRNA 39-end processing (Fortes et al, 1994) by binding to two 39-end processing factors, namely cleavage and polyadenylation specificity factor and poly(A)-binding protein II (Chen et al, 1999;Nemeroff et al, 1998); (ii) blocking the post-transcriptional processing and nuclear export of cellular mRNA (Fortes et al, 1994); (iii) stimulating the translation of matrix (M1) proteins (Enami et al, 1994;Marió n et al, 1997); (iv) inhibiting the activation of a protein kinase that phosphorylates the elf-2 translation initiation factor by binding to doublestranded (ds)RNA (Lu et al, 1995;Aragó n et al, 2000); (v) induction of the phosphatidylinositol-3-kinase (PI3K)/Akt signalling pathway in order to support virus replication (Ehrhardt et al, 2006(Ehrhardt et al, , 2007. The NS1 protein is 230-237 aa, depending on the strain, and has a molecular mass of approximately 26 kDa (reviewed by Hale et al, 2008b).…”

Section: Introductionmentioning

confidence: 99%

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Large-scale analysis of influenza A virus sequences reveals potential drug target sites of non-structural proteins

Darapaneni

Prabhaker

Kukol

2009

Journal of General Virology

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Section: Drug Target Sites Of Influenza Ns Proteinsmentioning

confidence: 73%

Section: Introductionmentioning

confidence: 99%

Large-scale analysis of influenza A virus sequences reveals potential drug target sites of non-structural proteins

Darapaneni

Prabhaker

Kukol

2009

Journal of General Virology

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“…This interaction specifically favors translation of influenza virus transcripts by allowing selective recruitment and positioning of eIF4F on the 5' end of viral mRNAs (Aragon et al, 2000).…”

Section: Modifications Of Eif4g By Other Virusesmentioning

confidence: 99%

Conducting the initiation of protein synthesis: the role of eIF4G

Prévot

Darlix

Ohlmann

2003

Biology of the Cell

197

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The eukaryotic initiation factor eIF4G is a large modular protein which serves as a docking site for initiation factors and proteins involved in RNA translation. Together with eIF4E and eIF4A, eIF4G constitutes the eIF4F complex which is a key component in promoting ribosome binding to the mRNA. Thus, the central role of eIF4G in initiation makes it a valid target for events aimed at modulating translation. Such events occur during viral infection by picornaviruses and lentiviruses and result in the hijack of the translational machinery through cleavage of eIF4G. Proteolysis of eIF4G is also mediated by caspases during the onset of apoptosis causing inhibition of protein synthesis. We will review the role of eIF4G and protein partners as well as the cellular and viral events that modulate eIF4G activity in the initiation of translation.

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“…Interestingly, EIF3B:G:I also interacts directly with certain viral mRNAs to promote the translation of viral proteins. 18 EIF4G, which interacts with EIF3, 19 contains a binding domain for the non-structural influenza protein, NS1, 20 and is recruited to the viral mRNA to initiate translation of influenza virus. This is particularly interesting as recent findings have implicated a role of the H1N1 pandemic virus of 2009 as a trigger for narcolepsy development.…”

Section: Discussionmentioning

confidence: 99%

EIF3G is associated with narcolepsy across ethnicities

Holm

Faraco

et al. 2015

Eur J Hum Genet

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Type 1 narcolepsy, an autoimmune disease affecting hypocretin (orexin) neurons, is strongly associated with HLA-DQB1*06:02. Among polymorphisms associated with the disease is single-nucleotide polymorphism rs2305795 (c.*638G4A) located within the P2RY11 gene. P2RY11 is in a region of synteny conserved in mammals and zebrafish containing PPAN, EIF3G and DNMT1 (DNA methyltransferase 1). As mutations in DNMT1 cause a rare dominant form of narcolepsy in association with deafness, cerebellar ataxia and dementia, we questioned whether the association with P2RY11 in sporadic narcolepsy could be secondary to linkage disequilibrium with DNMT1. Based on genome-wide association data from two cohorts of European and Chinese ancestry, we found that the narcolepsy association signal drops sharply between P2RY11/EIF3G and DNMT1, suggesting that the association with narcolepsy does not extend into the DNMT1 gene region. Interestingly, using transethnic mapping, we identified a novel single-nucleotide polymorphism rs3826784 (c.596-260A4G) in the EIF3G gene also associated with narcolepsy. The disease-associated allele increases EIF3G mRNA expression. EIF3G is located in the narcolepsy risk locus and EIF3G expression correlates with PPAN and P2RY11 expression. This suggests shared regulatory mechanisms that might be affected by the polymorphism and are of relevance to narcolepsy. INTRODUCTIONNarcolepsy with cataplexy (Type 1 narcolepsy) affects 1 in 3000 individuals and is caused by the loss of around 70 000 hypocretin-(hcrt, also known as orexin) producing neurons in the hypothalamus. The disease is strongly associated with HLA-DQB1*06:02 and DQA1*01:02, 1 the T-cell receptor alpha locus 2 and polymorphisms in other immune-related genes. 3 The loss of hcrt-producing cells is hypothesized to have an autoimmune basis. 4 One of the genetic associations in narcolepsy is rs2305795, a polymorphism located in the purinergic receptor P2RY11. 5,6 The disease-associated allele of rs2305795 decreases P2RY11 expression and increases the sensitivity of CD8 + T cells to cell death induced by ATP. Interestingly, we also recently found that missense mutation in exon 21 of the DNA methyltransferase 1 (DNMT1) gene causes a rare hereditary form of narcolepsy-associated deafness, cerebellar ataxia and eventually dementia (ADCA-DN). 7 As the P2RY11 and DNMT1 genes are located in close proximity (within 18 kb) on chromosome 19, we hypothesized that the two signals could be related at the pathophysiological level. In support of this hypothesis, Kornum et al. 5 observed a correlation between P2RY11 and DNMT1 expression in peripheral blood mononuclear cells (PBMCs) of both patients and healthy controls. These findings made us question whether the association with P2RY11 in spontaneous narcolepsy could be secondary to linkage disequilibrium (LD) with DNMT1. In the original study, Kornum et al. 5 fine-mapped the locus using seven single-nucleotide polymorphisms (SNPs) and reported an association between DNMT1 and narcolepsy in individuals of European anc...

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Eukaryotic Translation Initiation Factor 4GI Is a Cellular Target for NS1 Protein, a Translational Activator of Influenza Virus

Cited by 180 publications

References 80 publications

Large-scale analysis of influenza A virus sequences reveals potential drug target sites of non-structural proteins

Large-scale analysis of influenza A virus sequences reveals potential drug target sites of non-structural proteins

Conducting the initiation of protein synthesis: the role of eIF4G

EIF3G is associated with narcolepsy across ethnicities

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