A microRNA-dependent program controls p53-independent survival and chemosensitivity in human and murine squamous cell carcinoma
Benjamin Ory, … , S. Michael Rothenberg, Leif W. Ellisen
Benjamin Ory, … , S. Michael Rothenberg, Leif W. Ellisen
Published January 10, 2011
Citation Information: J Clin Invest. 2011;121(2):809-820. https://doi.org/10.1172/JCI43897.
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A microRNA-dependent program controls p53-independent survival and chemosensitivity in human and murine squamous cell carcinoma

Abstract

The p53 tumor suppressor, a central mediator of chemosensitivity in normal cells, is functionally inactivated in many human cancers. Therefore, a central challenge in human cancer therapy is the identification of pathways that control tumor cell survival and chemosensitivity in the absence of functional p53. The p53-related transcription factors p63 and p73 exhibit distinct functions — p73 mediates chemosensitivity while p63 promotes proliferation and cell survival — and are both overexpressed in squamous cell carcinomas (SCCs). However, how p63 and p73 interact functionally and govern the balance between prosurvival and proapoptotic programs in SCC remains elusive. Here, we identify a microRNA-dependent mechanism of p63/p73 crosstalk that regulates p53-independent survival of both human and murine SCC. We first discovered that a subset of p63-regulated microRNAs target p73 for inhibition. One of these, miR-193a-5p, expression of which was repressed by p63, was activated by proapoptotic p73 isoforms in both normal cells and tumor cells in vivo. Chemotherapy caused p63/p73-dependent induction of this microRNA, thereby limiting chemosensitivity due to microRNA-mediated feedback inhibition of p73. Importantly, inhibiting miR-193a interrupted this feedback and thereby suppressed tumor cell viability and induced dramatic chemosensitivity both in vitro and in vivo. Thus, we have identified a direct, microRNA-dependent regulatory circuit mediating inducible chemoresistance, whose inhibition may provide a new therapeutic opportunity in p53-deficient tumors.

Authors

Benjamin Ory, Matthew R. Ramsey, Catherine Wilson, Douangsone D. Vadysirisack, Nicole Forster, James W. Rocco, S. Michael Rothenberg, Leif W. Ellisen

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Figure 1

p63-regulated miRs target p73.

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p63-regulated miRs target p73. (A) Knockdown of endogenous p63 RNA (top)...
(A) Knockdown of endogenous p63 RNA (top) and protein (bottom) by p63-directed or control (Ct) lentiviral shRNA in JHU-029 human SCC cells at 48 hours, in duplicate experiments (Exp). β-Tubulin (β-Tub) loading control. (B) Array analysis showing the fold change and direction of change for all miRs regulated at 1.5-fold or more in p63-ablated versus control samples shown in A. Circles show miRs predicted to target p73. (C) Validation of p63 repression of miRs targeting p73 by real-time quantitative RT-PCR (QRT-PCR) at 72 hours after lentiviral p63-directed or control shRNA expression in JHU-029 cells. (D) The p63-regulated miRs repress gene expression via the p73 3′ UTR. Cotransfection of the indicated miR mimics or control (scrambled) miR, together with the UTR-reporter or control reporter; results show relative luciferase units (RLU) normalized to the control miR. Note that repression correlates with the number of predicted seed-binding sequences (Sites) for each miR. (E) A miR-dependent mechanism for regulation of the p73 3′ UTR by p63. Lentiviral shRNA knockdown of Drosha followed by cotransfection of the UTR or control reporter, together with either a p63 shRNA or ΔNp63α cDNA or their respective controls in JHU-029 cells. RLU values expressed as p63 knockdown/control or ΔNp63α overexpression/control (OV/Ct). Above, immunoblot shows efficient Drosha knockdown. All error bars show SEM for triplicate measurements from representative experiments.