Search

Your search keyword '"Shatsky, Ivan N."' showing total 28 results
Start Over Author "Shatsky, Ivan N." Database Complementary Index
28 results on '"Shatsky, Ivan N."'

1. The Roles of eIF4G2 in Leaky Scanning and Reinitiation on the Human Dual-Coding POLG mRNA.

Author

Shestakova, Ekaterina D., Tumbinsky, Roman S., Andreev, Dmitri E., Rozov, Fedor N., Shatsky, Ivan N., and Terenin, Ilya M.

Subjects
MESSENGER RNA, DNA polymerases, MITOCHONDRIAL DNA
Abstract

Upstream open reading frames (uORFs) are a frequent feature of eukaryotic mRNAs. Upstream ORFs govern main ORF translation in a variety of ways, but, in a nutshell, they either filter out scanning ribosomes or allow downstream translation initiation via leaky scanning or reinitiation. Previous reports concurred that eIF4G2, a long-known but insufficiently studied eIF4G1 homologue, can rescue the downstream translation, but disagreed on whether it is leaky scanning or reinitiation that eIF4G2 promotes. Here, we investigated a unique human mRNA that encodes two highly conserved proteins (POLGARF with unknown function and POLG, the catalytic subunit of the mitochondrial DNA polymerase) in overlapping reading frames downstream of a regulatory uORF. We show that the uORF renders the translation of both POLGARF and POLG mRNAs reliant on eIF4G2. Mechanistically, eIF4G2 enhances both leaky scanning and reinitiation, and it appears that ribosomes can acquire eIF4G2 during the early steps of reinitiation. This emphasizes the role of eIF4G2 as a multifunctional scanning guardian that replaces eIF4G1 to facilitate ribosome movement but not ribosome attachment to an mRNA. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

2. Elusive Trans-Acting Factors Which Operate with Type I (Poliovirus-like) IRES Elements.

Author

Andreev, Dmitry E., Niepmann, Michael, and Shatsky, Ivan N.

Subjects
POLIOVIRUS, CARRIER proteins, MESSENGER RNA, GLUTAMINE synthetase
Abstract

The phenomenon of internal initiation of translation was discovered in 1988 on poliovirus mRNA. The prototypic cis-acting element in the 5′ untranslated region (5′UTR) of poliovirus mRNA, which is able to direct initiation at an internal start codon without the involvement of a cap structure, has been called an IRES (Internal Ribosome Entry Site or Segment). Despite its early discovery, poliovirus and other related IRES elements of type I are poorly characterized, and it is not yet clear which host proteins (a.k.a. IRES trans-acting factors, ITAFs) are required for their full activity in vivo. Here we discuss recent and old results devoted to type I IRESes and provide evidence that Poly(rC) binding protein 2 (PCBP2), Glycyl-tRNA synthetase (GARS), and Cold Shock Domain Containing E1 (CSDE1, also known as UNR) are major regulators of type I IRES activity. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

5. Modifications of Ribosome Profiling that Provide New Data on the Translation Regulation.

Author

Andreev, Dmitry E., Smirnova, Viktoriya V., and Shatsky, Ivan N.

Subjects
GENETIC translation, DATA protection, RIBOSOMES, RIBOSOMAL proteins, TRANSCRIPTOMES, RNA sequencing, RIBONUCLEASES
Abstract

Ribosome profiling (riboseq) has opened the possibilities for the genome-wide studies of translation in all living organisms. This method is based on deep sequencing of mRNA fragments protected by the ribosomes from hydrolysis by ribonucleases, the so-called ribosomal footprints (RFPs). Ribosomal profiling together with RNA sequencing allows not only to identify with a reasonable accuracy translated reading frames in the transcriptome, but also to track changes in gene expression in response to various stimuli. Notably, ribosomal profiling in its classical version has certain limitations. The size of the selected mRNA fragments is 25-35 nts, while RFPs of other sizes are usually omitted from analysis. Also, ribosomal profiling "averages" the data from all ribosomes and does not allow to study specific ribosomal complexes associated with particular translation factors. However, recently developed modifications of ribosomal profiling provide answers to a number of questions. Thus, it has become possible to analyze not only elongating, but also scanning and reinitiating ribosomes, to study events associated with the collision of ribosomes during mRNA translation, to discover new ways of cotranslational assembly of multisubunit protein complexes during translation, and to selectively isolate ribosomal complexes associated with certain protein factors. New data obtained using these modified approaches provide a better understanding of the mechanisms of translation regulation and the functional roles of translational apparatus components. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

9. Translation of 5' leaders is pervasive in genes resistant to eIF2 repression.

Author

Andreev, Dmitry E., O'Connor, Patrick BF, Fahey, Ciara, Kenny, Elaine M., Terenin, Ilya M., Dmitriev, Sergey E., Cormican, Paul, Morris, Derek W., Shatsky, Ivan N., and Baranov, Pavel V.

Subjects
SODIUM arsenite, PROTEIN synthesis, EUKARYOTIC cells, PHOSPHORYLATION, CELLS
Abstract

The article examines the immediate effect of sodium arsenite treatment on protein synthesis. Topics discussed include the role of eukaryotic cells in the rapid reduction in protein synthesis in response to various stress conditions and the phosphorylation-mediated inactivation of the eukaryotic initiation factor 2. The presence of at least one efficiently translated upstream open reading frame in nearly all resistant transcripts and its role in functional protein product encoding are mentioned.

Published
2015
Full Text
View/download PDF

10. Transcriptome-wide studies uncover the diversity of modes of mRNA recruitment to eukaryotic ribosomes.

Author

Shatsky, Ivan N., Dmitriev, Sergey E., Andreev, Dmitri E., and Terenin, Ilya M.

Subjects
RIBOSOMES, MESSENGER RNA, GENETIC translation, EUKARYOTIC cells, GENETIC transcription, GENOMICS
Abstract

The conventional paradigm of translation initiation in eukaryotes states that the cap-binding protein complex eIF4F (consisting of eIF4E, eIF4G and eIF4A) plays a central role in the recruitment of capped mRNAs to ribosomes. However, a growing body of evidence indicates that this paradigm should be revised. This review summarizes the data which have been mostly accumulated in a post-genomic era owing to revolutionary techniques of transcriptome-wide analysis. Unexpectedly, these techniques have uncovered remarkable diversity in the recruitment of cellular mRNAs to eukaryotic ribosomes. These data enable a preliminary classification of mRNAs into several groups based on their requirement for particular components of eIF4F. They challenge the widely accepted concept which relates eIF4E-dependence to the extent of secondary structure in the 5′ untranslated regions of mRNAs. Moreover, some mRNA species presumably recruit ribosomes to their 5′ ends without the involvement of either the 5′ m7G-cap or eIF4F but instead utilize eIF4G or eIF4G-like auxiliary factors. The long-standing concept of internal ribosome entry site (IRES)-elements in cellular mRNAs is also discussed. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

13. The 5′ untranslated region of Apaf-1 mRNA directs translation under apoptosis conditions via a 5′ end-dependent scanning mechanism

Author

Andreev, Dmitri E., Dmitriev, Sergey E., Zinovkin, Roman, Terenin, Ilya M., and Shatsky, Ivan N.

Subjects
APOPTOSIS, NON-coding RNA, MESSENGER RNA, ETOPOSIDE, ENZYME activation, GENETIC translation
Abstract

Abstract: We have previously shown that translation driven by the 5′ UTR of Apaf-1 mRNA is relatively efficient in the absence of m7G-cap, but no IRES is involved. Nevertheless, it may be speculated that a “silent” IRES is activated under apoptosis conditions. Here, we show that translation of the mRNA with the Apaf-1 5′ UTR is relatively resistant to apoptosis induced by etoposide when eIF4E is sequestered by 4E-BP and eIF4G is partially cleaved. However, translation under these conditions remains governed by 5′ end-dependent scanning. We hypothesize that the observed phenomenon is based on the intrinsic low cap-dependence of the Apaf-1 5′ UTR. [Copyright &y& Elsevier]

Published
2012
Full Text
View/download PDF

18. Eukaryotic translation initiation machinery can operate in a bacterial-like mode without eIF2.

Author

Terenin, Ilya M., Dmitriev, Sergey E., Andreev, Dmitry E., and Shatsky, Ivan N.

Subjects
EUKARYOTIC cells, TRANSFER RNA, HEPATITIS C virus, RIBOSOMES, PHOSPHORYLATION, GENETIC translation
Abstract

Unlike bacteria, a specialized eukaryotic initiation factor (eIF)-2, in the form of the ternary complex eIF2–GTP–Met-tRNAi Met, is used to deliver the initiator tRNA to the ribosome in all eukaryotic cells. Here we show that the hepatitis C virus (HCV) internal ribosome entry site (IRES) can direct translation without eIF2 and its GTPase-activating protein eIF5. In addition to the general eIF2- and eIF5-dependent pathway of 80S complex assembly, the HCV IRES makes use of a bacterial-like pathway requiring as initiation factors only eIF5B (an analog of bacterial IF2) and eIF3. The switch from the conventional eukaryotic mode of translation initiation to the eIF2-independent mechanism occurs when eIF2 is inactivated by phosphorylation under stress conditions. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

19. A Cross-Kingdom Internal Ribosome Entry Site Reveals a Simplified Mode of Internal Ribosome Entry.

Author

Terenin, Ilya M., Dmitriev, Sergei E., Andreev, Dmitri E., Royall, Elizabeth, Belsham, Graham J., Roberts, Lisa O., and Shatsky, Ivan N.

Subjects
RIBOSOMES, ORGANELLES, VIRUSES, MESSENGER RNA, NUCLEIC acids, INSECT viruses
Abstract

Rhopalosiphum padi virus (RhPV) is an insect virus of the Dicistroviridae family. Recently, the 579-nucleotide-long 5′ untranslated region (UTR) of RhPV has been shown to contain an internal ribosome entry site (IRES) that functions efficiently in mammalian, plant, and insect in vitro translation systems. Here, the mechanism of action of the RhPV IRES has been characterized by reconstitution of mammalian 48S initiation complexes on the IRES from purified components combined with the toeprint assay. There is an absolute requirement for the initiation factors eIF2 and eIF3 and the scanning factor eIF1 to form 48S complexes on the IRES. In addition, eIF1A, eIF4F (or the C-terminal fragment of eIF4G), and eIF4A strongly stimulated the assembly of this complex, whereas eIF4B had no effect. Although the eIF4-dependent pathway is dominant in the RhPV IRES-directed cell-free translation, omission of either eIF4G or eIF4A or both still allowed the assembly of 48S complexes from purified components with ∼23% of maximum efficiency. Deletions of up to 100 nucleotides throughout the 5′-UTR sequence produced at most a marginal effect on the IRES activity, suggesting the absence of specific binding sites for initiation factors. Only deletion of the U-rich unstructured 380-nucleotide region proximal to the initiation codon resulted in a complete loss of the IRES activity. We suggest that the single-stranded nature of the RhPV IRES accounts for its strong but less selective potential to bind key mRNA recruiting components of the translation initiation apparatus from diverse origins. [ABSTRACT FROM AUTHOR]

Published
2005
Full Text
View/download PDF

20. Assembly of 48S Translation Initiation Complexes from Purified Components with mRNAs That Have Some Base Pairing within Their 5′ Untranslated Regions.

Author

Dmitriev, Sergei E., Terenin, Ilya M., Dunaevsky, Yan E., Merrick, William C., and Shatsky, Ivan N.

Subjects
GENETIC translation, CHEMICAL purification, PROTEINS, CELL membrane formation, NUCLEOTIDES, CELLULAR recognition
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 codependent cellular mRNAs. [ABSTRACT FROM AUTHOR]

Published
2003
Full Text
View/download PDF

21. PSF Acts through the Human Immunodeficiency Virus Type 1 mRNA Instability Elements To Regulate Virus Expression.

Author

Zolotukhin, Andrei S., Michalowski, Daniel, Bear, Jenifer, Smulevitch, Sergey V., Traish, Abdulmaged M., Peng, Rui, Patton, James, Shatsky, Ivan N., and Felber, Barbara K.

Subjects
HIV, MESSENGER RNA, GENETIC transcription, GENETIC engineering
Abstract

Human immunodeficiency virus type 1 (HIV) gag/pol and env mRNAs contain cis-acting regulatory elements (INS) that impair stability, nucleocytoplasmic transport, and translation by unknown mechanisms. This downregulation can be counteracted by the viral Rev protein, resulting in efficient export and expression of these mRNAs. Here, we show that the INS region in HIV-1 gag mRNA is a high-affinity ligand of p54nrb/PSF, a heterodimeric transcription/splicing factor. Both subunits bound INS RNA in vitro with similar affinity and specificity. Using an INS-containing subgenomic gag mRNA, we show that it specifically associated with p54nrb in vivo and that PSF inhibited its expression, acting via INS. Studying the authentic HIV-1 mRNAs produced from an infectious molecular clone, we found that PSF affected specifically the INS-containing, Rev-dependent transcripts encoding Gag-Pol and Env. Both subunits contained nuclear export and nuclear retention signals, whereas p54nrb was continuously exported from the nucleus and associated with INS-containing mRNA in the cytoplasm, suggesting its additional role at late steps of mRNA metabolism. Thus, p54nrb and PSF have properties of key factors mediating INS function and likely define a novel mRNA regulatory pathway that is hijacked by HIV-1. [ABSTRACT FROM AUTHOR]

Published
2003
Full Text
View/download PDF

22. Conversion of 48S translation preinitiation complexes into 80S initiation complexes as revealed by toeprinting

Author

Dmitriev, Sergey E., Pisarev, Andrey V., Rubtsova, Maria P., Dunaevsky, Yan E., and Shatsky, Ivan N.

Subjects
RETICULOCYTES, RIBOSOMES
Abstract

A method of analysis of translation initiation complexes by toeprinting has recently acquired a wide application to investigate molecular mechanisms of translation initiation in eukaryotes. So far, this very fruitful approach was used when researchers did not aim to discriminate between patterns of toeprints for 48S and 80S translation initiation complexes. Here, using cap-dependent and internal ribosomal entry site (IRES)-dependent mRNAs, we show that the toeprint patterns for 48S and 80S complexes are distinct whether the complexes are assembled in rabbit reticulocyte lysate or from fully purified individual components. This observation allowed us to demonstrate for the first time a delay in the conversion of the 48S complex into the 80S complex for β-globin and encephalomyocarditis virus (EMCV) RNAs, and to assess the potential of some 80S antibiotics to block polypeptide elongation. Besides, additional selection of the authentic initiation codon among three consecutive AUGs that follow the EMCV IRES was revealed at steps subsequent to the location of the initiation codon by the 40S ribosomal subunit. [Copyright &y& Elsevier]

Published
2003
Full Text
View/download PDF

23. Molecular mechanisms of translation initiation in eukaryotes.

Author

Pestova, Tatyana V., Kolupaeva, Victoria G., Lomakin, Ivan B., Pilipenko, Evgeny V., Shatsky, Ivan N., Agol, Vadim I., and Hellen, Christopher U.T.

Subjects
EUKARYOTIC cells, RNA, RIBOSOMES
Abstract

Examines the molecular mechanisms of translation initiation in eukaryotes. Description of translation initiation; Use of eukaryotic initiation factors in the assembly of initiator tRNA, 40S and 60S ribosomal subunits; Details on the binding of 43S complexes to the 5' end of capped messenger RNA.

Published
2001
Full Text
View/download PDF

25. Ribosome Pausing at Inefficient Codons at the End of the Replicase Coding Region Is Important for Hepatitis C Virus Genome Replication.

Author

Gerresheim, Gesche K., Hess, Carolin S., Shalamova, Lyudmila A., Fricke, Markus, Marz, Manja, Andreev, Dmitri E., Shatsky, Ivan N., and Niepmann, Michael

Subjects
RNA synthesis, HEPATITIS C virus, GENETIC code, VIRAL replication, VIRAL proteins, MESSENGER RNA, RIBOSOMES, GENETIC translation
Abstract

Hepatitis C virus (HCV) infects liver cells and often causes chronic infection, also leading to liver cirrhosis and cancer. In the cytoplasm, the viral structural and non-structural (NS) proteins are directly translated from the plus strand HCV RNA genome. The viral proteins NS3 to NS5B proteins constitute the replication complex that is required for RNA genome replication via a minus strand antigenome. The most C-terminal protein in the genome is the NS5B replicase, which needs to initiate antigenome RNA synthesis at the very 3′-end of the plus strand. Using ribosome profiling of cells replicating full-length infectious HCV genomes, we uncovered that ribosomes accumulate at the HCV stop codon and about 30 nucleotides upstream of it. This pausing is due to the presence of conserved rare, inefficient Wobble codons upstream of the termination site. Synonymous substitution of these inefficient codons to efficient codons has negative consequences for viral RNA replication but not for viral protein synthesis. This pausing may allow the enzymatically active replicase core to find its genuine RNA template in cis, while the protein is still held in place by being stuck with its C-terminus in the exit tunnel of the paused ribosome. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

26. Cellular Gene Expression during Hepatitis C Virus Replication as Revealed by Ribosome Profiling.

Author

Gerresheim, Gesche K., Hu, Pan, Niepmann, Michael, Bathke, Jochen, Goesmann, Alexander, Michel, Audrey M., Kiniry, Stephen J., Baranov, Pavel V., Andreev, Dmitri E., Shatsky, Ivan N., Shalamova, Lyudmila A., Rossbach, Oliver, Glebe, Dieter, Fricke, Markus, and Marz, Manja

Subjects
GENE expression, HEPATITIS C virus, LIVER cancer, RIBOSOMES, MITOCHONDRIA
Abstract

Background: Hepatitis C virus (HCV) infects human liver hepatocytes, often leading to liver cirrhosis and hepatocellular carcinoma (HCC). It is believed that chronic infection alters host gene expression and favors HCC development. In particular, HCV replication in Endoplasmic Reticulum (ER) derived membranes induces chronic ER stress. How HCV replication affects host mRNA translation and transcription at a genome wide level is not yet known. Methods: We used Riboseq (Ribosome Profiling) to analyze transcriptome and translatome changes in the Huh-7.5 hepatocarcinoma cell line replicating HCV for 6 days. Results: Established viral replication does not cause global changes in host gene expression—only around 30 genes are significantly differentially expressed. Upregulated genes are related to ER stress and HCV replication, and several regulated genes are known to be involved in HCC development. Some mRNAs (PPP1R15A/GADD34, DDIT3/CHOP, and TRIB3) may be subject to upstream open reading frame (uORF) mediated translation control. Transcriptional downregulation mainly affects mitochondrial respiratory chain complex core subunit genes. Conclusion: After establishing HCV replication, the lack of global changes in cellular gene expression indicates an adaptation to chronic infection, while the downregulation of mitochondrial respiratory chain genes indicates how a virus may further contribute to cancer cell-like metabolic reprogramming ("Warburg effect") even in the hepatocellular carcinoma cells used here. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

27. Four translation initiation pathways employed by the leaderless mRNA in eukaryotes.

Author

Akulich, Kseniya A., Andreev, Dmitry E., Terenin, Ilya M., Smirnova, Victoria V., Anisimova, Aleksandra S., Makeeva, Desislava S., Arkhipova, Valentina I., Stolboushkina, Elena A., Garber, Maria B., Prokofjeva, Maria M., Spirin, Pavel V., Prassolov, Vladimir S., Shatsky, Ivan N., and Dmitriev, Sergey E.

Abstract

mRNAs lacking 5′ untranslated regions (leaderless mRNAs) are molecular relics of an ancient translation initiation pathway. Nevertheless, they still represent a significant portion of transcriptome in some taxons, including a number of eukaryotic species. In bacteria and archaea, the leaderless mRNAs can bind non-dissociated 70 S ribosomes and initiate translation without protein initiation factors involved. Here we use the Fleeting mRNA Transfection technique (FLERT) to show that translation of a leaderless reporter mRNA is resistant to conditions when eIF2 and eIF4F, two key eukaryotic translation initiation factors, are inactivated in mammalian cells. We report an unconventional translation initiation pathway utilized by the leaderless mRNA in vitro, in addition to the previously described 80S-, eIF2-, or eIF2D-mediated modes. This mechanism is a bacterial-like eIF5B/IF2-assisted initiation that has only been reported for hepatitis C virus-like internal ribosome entry sites (IRESs). Therefore, the leaderless mRNA is able to take any of four different translation initiation pathways in eukaryotes. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

28. A Leaderless mRNA Can Bind to Mammalian 80S Ribosomes and Direct Polypeptide Synthesis in the Absence of Translation Initiation Factors.

Author

Andreev, Dmitri E., Terenin, Ilya M., Dunaevsky, Yan E., Dmitriev, Sergei E., and Shatsky, Ivan N.

Subjects
EUKARYOTIC cells, TRANSCRIPTION factors, PROTEINS, MESSENGER RNA, RIBOSOMES
Abstract

Translation initiation in eukaryotic cells is known to be a complex multistep process which involves numerous protein factors. Here we demonstrate that leaderless mRNAs with initiator Met-tRNA can bind directly to 80S mammalian ribosomes in the absence of initiation factors and that the complexes thus formed are fully competent for the subsequent steps of polypeptide synthesis. We show that the canonical 48S pathway of eukaryotic translation initiation has no obvious advantage over the 80S pathway of translation initiation on leaderless mRNAs and suggest that, in the presence of competing mRNAs containing a leader, the latter mechanism will be preferred. The direct binding of the leaderless mRNA to the 80S ribosome was precluded when such an mRNA was supplied with a 5' leader, irrespective of whether it was in a totally single-stranded conformation or was prone to base pairing. The striking similarity between the mechanisms of binding of leaderless mRNAs with mammalian 80S or bacterial 70S ribosomes gives support to the idea that the alternative mode of translation initiation used by leaderless mRNAs represents a relic from early steps in the evolution of the translation apparatus. [ABSTRACT FROM AUTHOR]

Published
2006
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results