Casein kinase 1α–dependent feedback loop controls autophagy in RAS-driven cancers
Jit Kong Cheong, Fuquan Zhang, Pei Jou Chua, Boon Huat Bay, Andrew Thorburn, David M. Virshup
Jit Kong Cheong, Fuquan Zhang, Pei Jou Chua, Boon Huat Bay, Andrew Thorburn, David M. Virshup
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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.