mRNA translation is a therapeutic vulnerability necessary for bladder epithelial transformation
Sujata Jana, Rucha Deo, Rowan P. Hough, Yuzhen Liu, Jessie L. Horn, Jonathan L. Wright, Hung-Ming Lam, Kevin R. Webster, Gary G. Chiang, Nahum Sonenberg, Andrew C. Hsieh
Sujata Jana, Rucha Deo, Rowan P. Hough, Yuzhen Liu, Jessie L. Horn, Jonathan L. Wright, Hung-Ming Lam, Kevin R. Webster, Gary G. Chiang, Nahum Sonenberg, Andrew C. Hsieh
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Research Article Oncology

mRNA translation is a therapeutic vulnerability necessary for bladder epithelial transformation

Abstract

Using genetically engineered mouse models, this work demonstrates that protein synthesis is essential for efficient urothelial cancer formation and growth but dispensable for bladder homeostasis. Through a candidate gene analysis for translation regulators implicated in this dependency, we discovered that phosphorylation of the translation initiation factor eIF4E at serine 209 is increased in both murine and human bladder cancer, and this phosphorylation corresponds with an increase in de novo protein synthesis. Employing an eIF4E serine 209 to alanine knock-in mutant mouse model, we show that this single posttranslational modification is critical for bladder cancer initiation and progression, despite having no impact on normal bladder tissue maintenance. Using murine and human models of advanced bladder cancer, we demonstrate that only tumors with high levels of eIF4E phosphorylation are therapeutically vulnerable to eFT508, the first clinical-grade inhibitor of MNK1 and MNK2, the upstream kinases of eIF4E. Our results show that phospho-eIF4E plays an important role in bladder cancer pathogenesis, and targeting its upstream kinases could be an effective therapeutic option for bladder cancer patients with high levels of eIF4E phosphorylation.

Authors

Sujata Jana, Rucha Deo, Rowan P. Hough, Yuzhen Liu, Jessie L. Horn, Jonathan L. Wright, Hung-Ming Lam, Kevin R. Webster, Gary G. Chiang, Nahum Sonenberg, Andrew C. Hsieh

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Figure 3

High eIF4E phosphorylation correlates with responsiveness to pharmacologic MNK1/2 inhibition in murine and human bladder cancer.

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High eIF4E phosphorylation correlates with responsiveness to pharmacolog...
(A) Cell viability assay in eIF4E+/+ and eIF4ES209A/S209A bladder cancer organoids derived from BBN-treated mice (n = 3 biological replicates, P = 0.003, t test). (B) Phospho-eIF4E S209 staining across 9 bladder cancer PDX models with quantification. Scale bars: 500 μm. (C) Representative phospho-eIF4E Western blots across 3 bladder cancer organoid models treated with eFT508 (72 hours). (D) Cell viability assay of the CoCaB1, CoCaB14.1, and TM01029 PDX derived organoids treated with 0.01, 0.2, or 10 μM eFT508 for 72 hours. *P < 0.05 (CoCaB1 versus TM01029 at 0.2 μM, P = 0.03; CoCaB1 versus CoCaB14.1 at 10 μM, P = 0.03; CoCaB1 versus TM01029 at 10 μM, P = 0.04). Dunnett’s multiple-comparison test. Scale bar: 100 μm. Data are presented as mean ± SEM.