Initiation of Protein Synthesis in Eukaryotic Cells

Pain, Virginia M.

doi:10.1111/j.1432-1033.1996.00747.x

Cited by 676 publications

(483 citation statements)

References 360 publications

(195 reference statements)

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“…Dysregulation of this process (for example by over-expression of eIF4E or eIF4G (LazarisKaratzas et al, 1990;De Benedetti and Rhoads, 1990;Fukuchi-Shimogori et al, 1997) or by mutation of the phosphorylation site in eIF2a (DonzeÂ et al, 1995) can lead to aberrant growth and oncogenic transformation. Much e ort has been devoted to understanding the means by which reversible phosphorylation of factors such as eIF2, eIF4E and the 4E-BPs controls protein synthesis (reviewed in Pain, 1996). However, rather little attention has been paid to the role of acute changes in the levels of individual initiation factors in translational control, in spite of the fact that the signi®cance of the relative amounts of key factors has been a subject for keen debate (Hershey, 1994;Rau et al, 1996).…”

Section: Discussionmentioning

confidence: 99%

“…The initiation of protein synthesis is regulated by complex interactions between a large number of protein initiation factors and RNA molecules (Pain, 1996;Merrick and Hershey, 1996). Disruption of this process can lead to transformation of cells to an oncogenic phenotype, probably as a result of aberrant expression of proteins involved in the control of cell growth or cell death .…”

Section: Introductionmentioning

confidence: 99%

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Degradation of eukaryotic polypeptide chain initiation factor (eIF) 4G in response to induction of apoptosis in human lymphoma cell lines

1998

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We have investigated the e ect of inducing apoptosis in BJAB and Jurkat cells on the cellular content of several polypeptide chain initiation factors. Serum deprivation results in inhibition of protein synthesis and induction of apoptosis in BJAB cells; at early times, there is selective degradation of polypeptide initiation factor eIF4G but no major losses of other key initiation factors. The disappearance of full length eIF4G is accompanied by the appearance of smaller forms of the protein, including a major product of approximately 76 kDa. Apoptosis induced by cycloheximide results in similar e ects. Both total cytoplasmic eIF4G and eIF4G associated with eIF4E are degraded with a half-life of 2 ± 4 h under these conditions. Treatment of serum-starved or cycloheximide-treated cells with Z-VAD.FMK or Z-DEVD.FMK, which inhibit caspases required for apoptosis, protects eIF4G from degradation and blocks the appearance of the ca. 76 kDa product. Exposure of BJAB cells to rapamycin rapidly inhibits protein synthesis but does not lead to acute degradation of eIF4G. In both BJAB and Jurkat cells induction of apoptosis with anti-Fas antibody or etoposide also results in the selective loss of eIF4G, which is inhibitable by Z-VAD.FMK. These data suggest that eIF4G is selectively targeted for cleavage as cells undergo apoptosis and is a substrate for proteases activated during this process.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Degradation of eukaryotic polypeptide chain initiation factor (eIF) 4G in response to induction of apoptosis in human lymphoma cell lines

1998

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“…This assembly is regulated by the translation initiation factors (Pain, 1996;Sonenberg and Gingras, 1998). Translation initiation factors have long been viewed as rate-limiting in protein synthesis because they are less abundant than ribosomal components themselves and because ribosomal elongation is rarely rate-limiting (Duncan and Hershey, 1983Hershey, , 1985.…”

Section: Elements Of Growth Controlmentioning

confidence: 99%

The role of c-myc in cellular growth control

1999

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“…Here, we discuss basic and some proposed alternative mechanisms that may contribute to the selection of translational start sites in prokaryotes and eukaryotes with an emphasis on the influence of RNA-RNA and RNA-protein interactions. As this area of research is vast and general aspects of translation initiation have recently been reviewed (Jackson, 1996;Pain, 1996;Voorma, 1996), we shall not be comprehensive, but focus our attention on recent developments and some controversial topics. In particular, we discuss the functional role of mRNA 'consensus sequences', the significance of proposed translational enhancer elements, and possible contributions of trans-acting factors.…”

Section: Introductionmentioning

confidence: 99%

Functional importance of RNA interactions in selection of translation initiation codons

Sprengart

Porter

1997

Molecular Microbiology

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SummaryRNA base pairing between the initiation codon and anticodon loop of initiator tRNA is essential but not sufficient for the selection of the 'correct' mRNA translational start site by ribosomes. In prokaryotes, additional RNA interactions between small ribosomal subunit RNA and mRNA sequences just upstream of the start codon can efficiently direct the ribosome to the initiation site. Although there is presently no proof for a similar important ribosomal RNA interaction in eukaryotes, the 5Ј non-coding regions of their mRNAs and 'consensus sequences' surrounding initiation codons have been shown to be strong determinants for initiation-site selection, but the exact mechanisms are not yet understood. Intramolecular base pairing in mRNA and participation of translation initiation factors can strongly influence the formation of mRNA-small ribosomal subunit-initiator tRNA complexes and modulate translational activities in both prokaryotes and eukaryotes. Only recently has it been appreciated that alternative mechanisms may also contribute to the selection of initiation codons in all organisms. Although direct proof is currently lacking, there is accumulating evidence that additional cis-acting mRNA elements and trans-acting proteins may form specific 'bridging' interactions with ribosomes during translation initiation.

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Initiation of Protein Synthesis in Eukaryotic Cells

Cited by 676 publications

References 360 publications

Degradation of eukaryotic polypeptide chain initiation factor (eIF) 4G in response to induction of apoptosis in human lymphoma cell lines

Degradation of eukaryotic polypeptide chain initiation factor (eIF) 4G in response to induction of apoptosis in human lymphoma cell lines

The role of c-myc in cellular growth control

Functional importance of RNA interactions in selection of translation initiation codons

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