eIF-4E expression and its role in malignancies and metastases.
TLDR
A deeper understanding of the role of eIF-4E in regulating the translation of the diverse gene products involved in all aspects of malignancy will improve the capacity to exploit eIF -4E as a therapeutic target and as a marker for human cancer progression.Abstract:
The contribution of the mRNA cap-binding protein, eIF-4E, to malignant transformation and progression has been illuminated over the past decade. eIF-4E overexpression has been demonstrated in human tumors of the breast, head and neck, colon, prostate, bladder, cervix and lung, and has been related to disease progression. Overexpression of eIF-4E in experimental models dramatically alters cellular morphology, enhances proliferation and induces cellular transformation, tumorigenesis and metastasis. Conversely, blocking eIF-4E function by expression of antisense RNA, or overexpression of the inhibitory eIF-4E binding proteins (4E-BPs), suppresses cellular transformation, tumor growth, tumor invasiveness and metastasis. Although eIF-4E regulates the recruitment of mRNA to ribosomes, and thereby globally regulates cap-dependent protein synthesis, eIF-4E contributes to malignancy by selectively enabling the translation of a limited pool of mRNAs--those that generally encode key proteins involved in cellular growth, angiogenesis, survival and malignancy (e.g. cyclin D1, c-myc, vascular endothelial growth factor, matrix metalloprotease 9). A deeper understanding of the role of eIF-4E in regulating the translation of the diverse gene products involved in all aspects of malignancy will improve the capacity to exploit eIF-4E as a therapeutic target and as a marker for human cancer progression.read more
Citations
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Journal ArticleDOI
A unifying model for mTORC1-mediated regulation of mRNA translation
Carson C. Thoreen,Lynne Chantranupong,Lynne Chantranupong,Heather R. Keys,Heather R. Keys,Timothy C. Wang,Nathanael S. Gray,David M. Sabatini,David M. Sabatini +8 more
TL;DR: mTORC1 as mentioned in this paper is shown to regulate a translational program that requires the rapamycin-resistant 4E-BP family of translational repressors and consists almost entirely of mRNAs containing 5′ terminal oligopyrimidine or related motifs.
A unifying model for mTORC1-mediated regulation of mRNA translation
Carson C. Thoreen,Lynne Chantranupong,Lynne Chantranupong,Heather R. Keys,Heather R. Keys,Timothy C. Wang,Nathanael S. Gray,David M. Sabatini,David M. Sabatini +8 more
TL;DR: High-resolution transcriptome-scale ribosome profiling is used to monitor translation in mouse cells acutely treated with the mTOR inhibitor Torin 1 and reveals a surprisingly simple model of the mRNA features and mechanisms that confer mTORC1-dependent translation control.
Journal ArticleDOI
Activation of Akt and eIF4E survival pathways by rapamycin-mediated mammalian target of rapamycin inhibition.
TL;DR: This study provides a mechanistic basis for enhancing mTOR-targeted cancer therapy by combining an mTOR inhibitor with a PI3K or Akt inhibitor and shows that rapamycin combined with LY294002 exhibited enhanced inhibitory effects on the growth and colony formation of cancer cells.
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Translational control in cancer.
TL;DR: Clinical efforts are underway to target specific components of the translation apparatus or unique mRNA translation elements for cancer therapeutics to define a new understanding of the role of mRNA translation and protein synthesis in human cancer.
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MYC as a regulator of ribosome biogenesis and protein synthesis
TL;DR: It is discussed how the modulation of ribosome biogenesis by MYC may be essential to its physiological functions as well as its pathological role in tumorigenesis.
References
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TL;DR: This work has been supported by the Department of the Army and the National Institutes of Health, and the author acknowledges the support and encouragement of the National Cancer Institute.
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eIF4 Initiation Factors: Effectors of mRNA Recruitment to Ribosomes and Regulators of Translation
TL;DR: The recent determination of the structure of eIF4E at atomic resolution has provided insight about how translation is initiated and regulated and suggests that eif4F is also implicated in malignancy and apoptosis.
Journal ArticleDOI
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TL;DR: In vitro and in vivo studies of isogenic PTEN+/+ and PTEN−/− mouse cells as well as human cancer cells with defined PTEN status showed that the growth of PTEN null cells was blocked preferentially by pharmacologic FRAP/mTOR inhibition, indicating that FRAP-mTOR functions downstream of Akt in tumorigenesis.