FGFR2 signaling underlies p63 oncogenic function in squamous cell carcinoma
Matthew R. Ramsey, Catherine Wilson, Benjamin Ory, S. Michael Rothenberg, William Faquin, Alea A. Mills, Leif W. Ellisen
Matthew R. Ramsey, Catherine Wilson, Benjamin Ory, S. Michael Rothenberg, William Faquin, Alea A. Mills, Leif W. Ellisen
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Research Article Oncology

FGFR2 signaling underlies p63 oncogenic function in squamous cell carcinoma

Abstract

Oncogenic transcription factors drive many human cancers, yet identifying and therapeutically targeting the resulting deregulated pathways has proven difficult. Squamous cell carcinoma (SCC) is a common and lethal human cancer, and relatively little progress has been made in improving outcomes for SCC due to a poor understanding of its underlying molecular pathogenesis. While SCCs typically lack somatic oncogene-activating mutations, they exhibit frequent overexpression of the p53-related transcription factor p63. We developed an in vivo murine tumor model to investigate the function and key transcriptional programs of p63 in SCC. Here, we show that established SCCs are exquisitely dependent on p63, as acute genetic ablation of p63 in advanced, invasive SCC induced rapid and dramatic apoptosis and tumor regression. In vivo genome-wide gene expression analysis identified a tumor-survival program involving p63-regulated FGFR2 signaling that was activated by ligand emanating from abundant tumor-associated stroma. Correspondingly, we demonstrate the therapeutic efficacy of extinguishing this signaling axis in endogenous SCCs using the clinical FGFR2 inhibitor AZD4547. Collectively, these results reveal an unanticipated role for p63-driven paracrine FGFR2 signaling as an addicting pathway in human cancer and suggest a new approach for the treatment of SCC.

Authors

Matthew R. Ramsey, Catherine Wilson, Benjamin Ory, S. Michael Rothenberg, William Faquin, Alea A. Mills, Leif W. Ellisen

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Figure 5

Deregulation of a paracrine FGFR2 signaling axis in autochthonous SCC.

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Deregulation of a paracrine FGFR2 signaling axis in autochthonous SCC. (...
(A) Upregulation of p63 (left) and FGFR2 (right) in SCC tumors versus cell lines. Relative mRNA expression was determined by QRT-PCR in murine SCC cell lines (n = 5) and tumors (n = 5). Bar indicates mean value. *P < 0.05 as assessed by Student’s unpaired t test. (B) IF staining of autochthonous murine SCC tumors, showing colocalization of K14, nuclear p63, and membrane-associated FGFR2. Vimentin (green) identifies stromal cells. Hoechst dye (blue) identifies nuclei. Scale bars: 25 μm. (C) Upregulation of FGFR2 ligands in SCC tumors. Relative mRNA expression of Fgf7 (left) and Fgf1 (right) in murine SCC cell lines (n = 5) and tumors (n = 5). Bars indicate mean value. *P < 0.05 as assessed by Student’s unpaired t test. (D) Stroma-specific expression of FGF7 in autochthonous SCC. Primary tumors were disaggregated, then separated by FACS into epithelial CD49fhi (α-6 integrin) and stromal (CD49flo) populations following elimination of hematopoietic (CD45+) and endothelial (CD31+) cells prior to RNA analysis. Note epithelial-specific expression of p63. Error bars indicate SEM. **P < 0.01, ***P < 0.001. (E) Spatially restricted FGF7 engagement in normal epithelia is abolished in SCC. IF staining of murine hair follicle in telogen (top) and autochthonous murine SCC tumors (bottom) for FGF7. K14 staining identifies epithelial cells. Note highly restricted expression in hair follicle (arrow) compared with tumor. HS, hair shaft; DP, dermal papilla; KP, keratin pearl; S, stromal cells. Scale bars: 25 μm.