Crystal Structure of the Eukaryotic 40S Ribosomal Subunit in Complex with Initiation Factor 1

Abstract Background. Conceptually mRNA processing and ribosomal regulation should interact as both affect mRNA translation and protein production. We studied protein expression and functional relationships between proteins in AML using a custom made reverse phase protein array (RPPA), probed with 231 strictly validated antibodies. We found a relationship between expression of Ribosomal Protein S6 (HUGO name R6SP, a.k.a. S6RP) and Eukaryotic Translation Initiation Factor 4EBinding Protein 1, (HUGO name EIF4EBP1). R6SP, a 40S ribosomal subunit component, activated by phosphorylation, regulates cell growth via selective mRNA translation. EIF4EBP1 interacts with eIF4E to recruit the 40S ribosomal subunit, thereby affecting ribosomal assembly. When phosphorylated, in response to cellular signaling, it releases eIF4E allowing transcription. Methods. Our RPPA has protein from leukemia enriched cells from 511 newly diagnosed AML patients and was probed with 231 strictly validated antibodies, including antibodies against total RPS6 and forms phosphorylated on S235-236 and S240-244, and against total EIF4EBP1 and forms phosphorylated on T37 & 46, T70 and S65. Expression was compared to normal bone marrow derived CD34+ cells. Interaction networks with the other 224 proteins were generated from the RPPA data using glasso and supplemented by the literature of known interactions. Results. A heatmap of expression of the 3 R6SP and 4 PA2 forms was generated and hierarchical k-and means clustering performed (Fig A). Using the Prototype Clustering method an optimal division into four clusters (Fig B) was determined. This includes an All-Off state (18%), a state characterized by weak activation of RPS6 alone (RP-Only, 36%) activation of only EIF4EBP1 (EIF4EBP1-Only, 26%) and a group where both were on simultaneously (Both-On). The RPS6 interactome (Fig B) showed the expected positive correlation with mTOR, and P70 (Hugo RPS6KB1) and a previously unknown, but very strong, negative correlation with transcription factor ZNF296. The EIF4EBP1 interactome showed the expected strong positive correlation with many signal transduction pathways (MAP2K1, MAPK14) and proliferation related proteins (pRB, EIF2AK, EIF2S1, FOXO3) and negative correlation with several transcription factors (GATA3, SPI1, CREB). Cluster membership was unassociated with most clinical features including cytogenetics, FLT3 , RAS and NPM1 mutation, excluding gender (more F in All-Off, more M in Both-On, p=0.01). EIF4EBP1 and Both-On had higher WBC (p=0.0001) and % marrow (p=0.0001) and blood blasts (0.0007) and lower platelet counts (p=0.025). Response rates did not differ, although fewer All-Off were primary refractory. Relapse was more common in EIF4EBP1-Only and Both-On clusters. Overall survival (OS) and remission duration (RemDur) (Fig C) of the EIF4EBP1-Only and Both-On clusters was inferior to that of the All-Off and RP-Only clusters (OS median 41 & 45 vs. 52 &63,p=0.06, RemDur 39 & 27 weeks vs. 63 & 53, p=0.008) but this was restricted to Intermediate cytogenetics cases (Fig C IntCyto OS 49 & 55 weeks vs. 107& 79 p=0.01, RemDur 37 & 35 weeks vs. 89 & 53 , p = 0.005) that were FLT3 mutation ((Fig C FLT3-WT OS p=0.006, RemDur p0.007) and NPM1 mutation negative (Fig C NPM1-WT, OS p=0.006, RemDur p=0.001). Conclusions. Activation of EIF4EBP1, with or without RPS6 activation is prognostically adverse in AML, particularly in intermediate cytogenetic cases with wildtype FLT3 and NPM1. This is associated with increased proliferation. Therapy directed against EIF4EBP1 activity, e.g. that block it's phosphorylation, may have utility in the ~46% of cases of AML that demonstrate high levels of EIF4EBP1 phosphorylation, especially in FLT3/NPM1 wildtype cases. Many agents that inhibit signal transduction pathways are in clinical development, analyzing them for the ability to inhibition the activation of EIF4EBP1 might identify clinically useful molecules. Figure 1 Figure 1. Disclosures No relevant conflicts of interest to declare.

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Regulation of protein synthesis in rabbit reticulocyte lysates by the heme-regulated protein kinase: Inhibition of interaction of Met-tRNAfMet binding factor with another initiation factor in formation of Met-tRNAfMet{middle dot}40S ribosomal subunit complexes

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.75.2.745 ◽

1978 ◽

Vol 75 (2) ◽

pp. 745-749 ◽

Cited By ~ 53

Author(s):

R. S. Ranu ◽

I. M. London ◽

A. Das ◽

A. Dasgupta ◽

A. Majumdar ◽

...

Keyword(s):

Protein Synthesis ◽

Protein Kinase ◽

Ribosomal Subunit ◽

Initiation Factor ◽

Kinase Inhibition ◽

Protein Kinase Inhibition ◽

40S Ribosomal Subunit ◽

Binding Factor ◽

Reticulocyte Lysates

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Assembly of 48S Translation Initiation Complexesfrom Purified Components with mRNAs That Have Some Base Pairingwithin Their 5′ UntranslatedRegions

Molecular and Cellular Biology ◽

10.1128/mcb.23.24.8925-8933.2003 ◽

2003 ◽

Vol 23 (24) ◽

pp. 8925-8933 ◽

Cited By ~ 61

Author(s):

Sergei E. Dmitriev ◽

Ilya M. Terenin ◽

Yan E. Dunaevsky ◽

William C. Merrick ◽

Ivan N. Shatsky

Keyword(s):

Translation Initiation ◽

Mammalian Cells ◽

Ribosomal Subunit ◽

Initiation Factor ◽

Beta Globin ◽

Globin Mrna ◽

Initiation Factors ◽

40S Ribosomal Subunit ◽

Cellular Mrnas ◽

Actin Mrna

ABSTRACT The reconstitution of translation initiation complexes from purified components is a reliable approach to determine the complete set of essential canonical initiation factors and auxiliary proteins required for the 40S ribosomal subunit to locate the initiation codon on individual mRNAs. Until now, it has been successful mostly for formation of 48S translation initiation complexes with viral IRES elements. Among cap-dependent mRNAs, only globin mRNAs and transcripts with artificial 5′ leaders were amenable to this assembly. Here, with modified conditions for the reconstitution, 48S complexes have been successfully assembled with the 5′ UTR of beta-actin mRNA (84 nucleotides) and the tripartite leader of adenovirus RNAs (232 nucleotides), though the latter has been able to use only the scanning rather then the shunting model of translation initiation with canonical initiation factors. We show that initiation factor 4B is essential for mRNAs that have even a rather moderate base pairing within their 5′ UTRs (with the cumulative stability of the secondary structure within the entire 5′ UTR < −13 kcal/mol) and not essential for beta-globin mRNA. A recombinant eIF4B poorly substitutes for the native factor. The 5′ UTRs with base-paired G residues reveal a very sharp dependence on the eIF4B concentration to form the 48S complex. The data suggest that even small variations in concentration or activity of eIF4B in mammalian cells may differentially affect the translation of different classes of cap-dependent cellular mRNAs.

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CBP80/20-dependent translation initiation factor (CTIF) inhibits HIV-1 Gag synthesis by targeting the function of the viral protein Rev

10.1101/710137 ◽

2019 ◽

Cited By ~ 1

Author(s):

Francisco García-de-Gracia ◽

Daniela Toro-Ascuy ◽

Sebastián Riquelme-Barrios ◽

Camila Pereira-Montecinos ◽

Bárbara Rojas-Araya ◽

...

Keyword(s):

Translation Initiation ◽

Viral Protein ◽

Nuclear Export ◽

Ribosomal Subunit ◽

Translation Initiation Factor ◽

Initiation Factor ◽

Viral Transcript ◽

40S Ribosomal Subunit ◽

Cellular Mrnas ◽

Hiv 1

ABSTRACTTranslation initiation of the human immunodeficiency virus type-1 (HIV-1) unspliced mRNA has been shown to occur through cap-dependent and IRES-driven mechanisms. Previous studies suggested that the nuclear cap-binding complex (CBC) rather than eIF4E drives cap-dependent translation of the unspliced mRNA and we have recently reported that the CBC subunit CBP80 supports the function of the viral protein Rev during nuclear export and translation of this viral transcript. Ribosome recruitment during CBC-dependent translation of cellular mRNAs relies on the activity CBP80/20 translation initiation factor (CTIF), which bridges CBP80 and the 40S ribosomal subunit through interactions with eIF3g. Here, we report that CTIF restricts HIV-1 replication by interfering with Gag synthesis from the unspliced mRNA. Our results indicate that CTIF associates with Rev through its N-terminal domain and is recruited onto the unspliced mRNA ribonucleoprotein complex in order to block translation. We also demonstrate that CTIF induces the cytoplasmic accumulation of Rev impeding the association of the viral protein with CBP80. We finally show that CTIF restricts HIV-2 but not MLV Gag synthesis indicating an inhibitory mechanism conserved in Rev-expressing human lentiviruses.

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Complex of 40S Ribosomal Subunit with Initiation Factor eIF-3

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100053504 ◽

1982 ◽

Vol 40 ◽

pp. 162-163

Author(s):

M. Boublik ◽

W. Hellmann ◽

F. Jenkins ◽

T. Staehelin ◽

H. Trachsel

Keyword(s):

Polypeptide Chain ◽

Ribosomal Subunit ◽

High Resolution Electron Microscopy ◽

Initiation Factor ◽

40S Ribosomal Subunit ◽

Resolution Electron ◽

Intracellular Organelles ◽

Protein Synthesis Initiation ◽

Function Relationship ◽

Relationship Of

Ribosomes are intracellular organelles present in all organisms as an integral part of their protein-synthesizing system. Biochemical evidence suggests that ribosomes are engaged in all phases of protein synthesis - initiation, elongation, and termination of a polypeptide chain. However, the mechanism of ribosomal involvement in any of these steps has yet to be established. At present, the most direct approach to the studies of structure-function relationship of ribosomes is by high resolution electron microscopy.

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Position of eukaryotic initiation factor eIF1 on the 40S ribosomal subunit determined by directed hydroxyl radical probing

Genes & Development ◽

10.1101/gad.1141803 ◽

2003 ◽

Vol 17 (22) ◽

pp. 2786-2797 ◽

Cited By ~ 101

Author(s):

I. B. Lomakin

Keyword(s):

Hydroxyl Radical ◽

Ribosomal Subunit ◽

Initiation Factor ◽

Eukaryotic Initiation Factor ◽

40S Ribosomal Subunit

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Effects of starvation, diabetes and acute insulin treatment on the regulation of polypeptide-chain initiation in rat skeletal muscle

Biochemical Journal ◽

10.1042/bj2230687 ◽

1984 ◽

Vol 223 (3) ◽

pp. 687-696 ◽

Cited By ~ 63

Author(s):

C S Harmon ◽

C G Proud ◽

V M Pain

Keyword(s):

Skeletal Muscle ◽

Protein Synthesis ◽

Polypeptide Chain ◽

Ribosomal Subunit ◽

Diabetic Rats ◽

Initiation Factor ◽

Chain Initiation ◽

Low Concentrations ◽

40S Ribosomal Subunit

The rate of protein synthesis in skeletal muscle is greatly decreased in response to diabetes and starvation. Analysis of polyribosome profiles indicates that polypeptide-chain initiation is impaired under these conditions. To identify the step in initiation that is affected, we assayed the incorporation of [35S]methionyl-tRNAfMet into [35S]methionyl-tRNAfMet . 40S-ribosomal-subunit initiation complexes in cell-free extracts based on postmitochondrial supernatants prepared from gastrocnemius muscle. Extracts from either starved or diabetic rats were 30-40% less active in forming these complexes compared with those derived from fed or insulin-maintained controls respectively. This change could be reversed by treatment of either starved or diabetic rats with insulin in vivo 30 min before death. Formation of 40S initiation complexes by extracts from either fed or starved rats could be stimulated by the addition of exogenous purified initiation factor eIF-2, but extracts from starved or diabetic rats were more sensitive than controls to stimulation by low concentrations of the factor. These results provide evidence for the acute regulation by insulin of protein synthesis in skeletal muscle at the level of polypeptide-chain initiation, and suggest that in this tissue, as in certain other eukaryotic systems, control of initiation appears to be mediated by changes in the activity of initiation factor eIF-2.

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