Dissecting eIF4E action in tumorigenesis

Hans Guido Wendel; Ricardo L.A. Silva; Abba Malina; John R. Mills; Hong Zhu; Takeshi Ueda; Rie Watanabe-Fukunaga; Rikiro Fukunaga; Julie Teruya-Feldstein; Jerry Pelletier; Scott W. Lowe

doi:10.1101/gad.1604407

Dissecting eIF4E action in tumorigenesis

Hans Guido Wendel, Ricardo L.A. Silva, Abba Malina, John R. Mills, Hong Zhu, Takeshi Ueda, Rie Watanabe-Fukunaga, Rikiro Fukunaga, Julie Teruya-Feldstein, Jerry Pelletier, Scott W. Lowe

Research output: Contribution to journal › Article › peer-review

423 Scopus citations

Abstract

Genetically engineered mouse models are powerful tools for studying cancer genes and validating targets for cancer therapy. We previously used a mouse lymphoma model to demonstrate that the translation initiation factor eIF4E is a potent oncogene in vivo. Using the same model, we now show that the oncogenic activity of eIF4E correlates with its ability to activate translation and become phosphorylated on Ser 209. Furthermore, constitutively activated MNK1, an eIF4E Ser 209 kinase, promotes tumorigenesis in a manner similar to eIF4E, and a dominant-negative MNK mutant inhibits the in vivo proliferation of tumor cells driven by mutations that deregulate translation. Phosphorylated eIF4E promotes tumorigenesis primarily by suppressing apoptosis and, accordingly, the anti-apoptotic protein Mcl-1 is one target of both phospho-eIF4E and MNK1 that contributes to tumor formation. Our results provide insight into how eIF4E contributes to tumorigenesis and pinpoint a level of translational control that may be suitable for therapeutic intervention.

Original language	English
Pages (from-to)	3232-3237
Number of pages	6
Journal	Genes and Development
Volume	21
Issue number	24
DOIs	https://doi.org/10.1101/gad.1604407
State	Published - 15 Dec 2007
Externally published	Yes

Keywords

Apoptosis
Mouse model
Signaling
Translation
Tumorigenesis

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title = "Dissecting eIF4E action in tumorigenesis",

abstract = "Genetically engineered mouse models are powerful tools for studying cancer genes and validating targets for cancer therapy. We previously used a mouse lymphoma model to demonstrate that the translation initiation factor eIF4E is a potent oncogene in vivo. Using the same model, we now show that the oncogenic activity of eIF4E correlates with its ability to activate translation and become phosphorylated on Ser 209. Furthermore, constitutively activated MNK1, an eIF4E Ser 209 kinase, promotes tumorigenesis in a manner similar to eIF4E, and a dominant-negative MNK mutant inhibits the in vivo proliferation of tumor cells driven by mutations that deregulate translation. Phosphorylated eIF4E promotes tumorigenesis primarily by suppressing apoptosis and, accordingly, the anti-apoptotic protein Mcl-1 is one target of both phospho-eIF4E and MNK1 that contributes to tumor formation. Our results provide insight into how eIF4E contributes to tumorigenesis and pinpoint a level of translational control that may be suitable for therapeutic intervention.",

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AU - Wendel, Hans Guido

AU - Silva, Ricardo L.A.

AU - Malina, Abba

AU - Mills, John R.

AU - Zhu, Hong

AU - Ueda, Takeshi

AU - Watanabe-Fukunaga, Rie

AU - Fukunaga, Rikiro

AU - Teruya-Feldstein, Julie

AU - Pelletier, Jerry

AU - Lowe, Scott W.

PY - 2007/12/15

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N2 - Genetically engineered mouse models are powerful tools for studying cancer genes and validating targets for cancer therapy. We previously used a mouse lymphoma model to demonstrate that the translation initiation factor eIF4E is a potent oncogene in vivo. Using the same model, we now show that the oncogenic activity of eIF4E correlates with its ability to activate translation and become phosphorylated on Ser 209. Furthermore, constitutively activated MNK1, an eIF4E Ser 209 kinase, promotes tumorigenesis in a manner similar to eIF4E, and a dominant-negative MNK mutant inhibits the in vivo proliferation of tumor cells driven by mutations that deregulate translation. Phosphorylated eIF4E promotes tumorigenesis primarily by suppressing apoptosis and, accordingly, the anti-apoptotic protein Mcl-1 is one target of both phospho-eIF4E and MNK1 that contributes to tumor formation. Our results provide insight into how eIF4E contributes to tumorigenesis and pinpoint a level of translational control that may be suitable for therapeutic intervention.

AB - Genetically engineered mouse models are powerful tools for studying cancer genes and validating targets for cancer therapy. We previously used a mouse lymphoma model to demonstrate that the translation initiation factor eIF4E is a potent oncogene in vivo. Using the same model, we now show that the oncogenic activity of eIF4E correlates with its ability to activate translation and become phosphorylated on Ser 209. Furthermore, constitutively activated MNK1, an eIF4E Ser 209 kinase, promotes tumorigenesis in a manner similar to eIF4E, and a dominant-negative MNK mutant inhibits the in vivo proliferation of tumor cells driven by mutations that deregulate translation. Phosphorylated eIF4E promotes tumorigenesis primarily by suppressing apoptosis and, accordingly, the anti-apoptotic protein Mcl-1 is one target of both phospho-eIF4E and MNK1 that contributes to tumor formation. Our results provide insight into how eIF4E contributes to tumorigenesis and pinpoint a level of translational control that may be suitable for therapeutic intervention.

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Dissecting eIF4E action in tumorigenesis

Abstract

Keywords

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