Casein kinase 1α–dependent feedback loop controls autophagy in RAS-driven cancers
Jit Kong Cheong, … , Andrew Thorburn, David M. Virshup
Jit Kong Cheong, … , Andrew Thorburn, David M. Virshup
Published March 23, 2015
Citation Information: J Clin Invest. 2015;125(4):1401-1418. https://doi.org/10.1172/JCI78018.
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Research Article Oncology

Casein kinase 1α–dependent feedback loop controls autophagy in RAS-driven cancers

Abstract

Activating mutations in the RAS oncogene are common in cancer but are difficult to therapeutically target. RAS activation promotes autophagy, a highly regulated catabolic process that metabolically buffers cells in response to diverse stresses. Here we report that casein kinase 1α (CK1α), a ubiquitously expressed serine/threonine kinase, is a key negative regulator of oncogenic RAS–induced autophagy. Depletion or pharmacologic inhibition of CK1α enhanced autophagic flux in oncogenic RAS–driven human fibroblasts and multiple cancer cell lines. FOXO3A, a master longevity mediator that transcriptionally regulates diverse autophagy genes, was a critical target of CK1α, as depletion of CK1α reduced levels of phosphorylated FOXO3A and increased expression of FOXO3A-responsive genes. Oncogenic RAS increased CK1α protein abundance via activation of the PI3K/AKT/mTOR pathway. In turn, elevated levels of CK1α increased phosphorylation of nuclear FOXO3A, thereby inhibiting transactivation of genes critical for RAS-induced autophagy. In both RAS-driven cancer cells and murine xenograft models, pharmacologic CK1α inactivation synergized with lysosomotropic agents to inhibit growth and promote tumor cell death. Together, our results identify a kinase feedback loop that influences RAS-dependent autophagy and suggest that targeting CK1α-regulated autophagy offers a potential therapeutic opportunity to treat oncogenic RAS–driven cancers.

Authors

Jit Kong Cheong, Fuquan Zhang, Pei Jou Chua, Boon Huat Bay, Andrew Thorburn, David M. Virshup

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Figure 5

CK1α expression downregulates FOXO3A protein abundance and function.

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CK1α expression downregulates FOXO3A protein abundance and function. (A)...
(A) CK1α expression reduces expression of FOXO3A-responsive autophagy-related genes. HCT-116 and T24 cells were transfected with pCS2 or pCS2-6MT-CK1α (myc-CK1α) for 48 hours prior to analysis. Data are mean ± SD of triplicate experiments. (B) CK1α expression reduces LC3B protein abundance. Lysates from the experiment in A were analyzed by immunoblotting for the indicated proteins. (C) CK1α kinase activity specifically regulates FOXO3A and autophagy. The indicated proteins were expressed in HCT-116 cells for 48 hours prior to analysis. UT, untransfected. (D) CK1α activation by Pyr Pam reduces expression of FOXO3A-responsive genes. HCT-116 and T24 cells were treated for 6 hours as indicated prior to analysis. Data are mean ± SD of triplicate experiments. (E) CK1α activation by Pyr Pam increases FOXO3AS318/321 phosphorylation and decreases FOXO3A protein abundance. Representative immunoblots of endogenous phospho-FOXO3AS318/321, FOXO3A, and LC3B expression in cells from D. Fold expression change in the proteins of interest after normalization is shown below protein blots. One-way ANOVA with Dunnett’s multiple comparison test was used to analyze statistical significance in A and D; **P < 0.01; ***P < 0.001.