Multifocal Epithelial Tumors and Field Cancerization from Loss of Mesenchymal CSL Signaling

Hu, Bing; Castillo, Einar; Harewood, Louise; Ostano, Paola; Reymond, Alexandre; Dummer, Reinhard; Raffoul, Wassim; Hoetzenecker, Wolfram; Hofbauer, Günther F.L.; Dotto, G. Paolo

doi:10.1016/j.cell.2012.03.048

Cited by 197 publications

(209 citation statements)

References 33 publications

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“…Other recent studies provide further evidence supporting our finding that stromalderived growth factors and FGF7 in particular contribute to SCC pathogenesis. Deregulated signaling in stroma cells within the dermis induces a field cancerization effect associated with increased secretion of growth factors including FGF7 from the stroma (59), and transgenic expression of FGF7 itself results in transformation of the epithelium (60,61). We have also found that other FGFR2 ligands, including FGF1 and FGF10, are elevated in the tumor microenvironment, suggesting that multiple ligands could potentially contribute to tumor progression.…”

Section: Discussionmentioning

confidence: 62%

FGFR2 signaling underlies p63 oncogenic function in squamous cell carcinoma

Ramsey

Wilson²,

Ory³

et al. 2013

J. Clin. Invest.

101

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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.

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Section: Discussionmentioning

confidence: 62%

FGFR2 signaling underlies p63 oncogenic function in squamous cell carcinoma

Ramsey

Wilson²,

Ory³

et al. 2013

J. Clin. Invest.

101

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show abstract

“…Molecular evidence to support this notion followed in the late 1990s primarily concentrating on TP53 mutation (Franklin, Gazdar et al 1997) but also describing unique epigenetic phenomena (Suzuki, Watkins et al 2004). In the skin, field cancerisation characterised by TP53 mutation has been well described (Jonason, Kunala et al 1996;Stahl, Stranneheim et al 2011) and recent data now show that field change can be induced in mice through inhibition of Notch signaling within the stroma rapidly promoting spontaneous cSCC (Hu, Castillo et al 2012). We have shown NOTCH1 mutation arising in normal and tumor tissue in close proximity suggesting that such a mechanism may be active in human skin (South, Purdie et al 2014).…”

Section: Field Change In Sccmentioning

confidence: 86%

“…Arguably the most abundant cell type in the TME, CAFs can be distinguished from other, normal fibroblasts thru their increased rate of proliferation and differential expression of extracellular matrix (ECM) components (Bhowmick, Neilson et al 2004;Kalluri and Zeisberg 2006;. It has been suggested at least in HNSCC, that resident and bone marrow (BM)-derived mesenchymal stem cells (MSCs) are actually precursors of the stroma and contribute to blood-and lymph angiogenesis, as well as produce tumor-associated (Hu, Castillo et al 2012) myofibroblasts (De Boeck, Narine et al 2010). Markers traditionally used to identify CAFs have been smooth muscle actin, vimentin and PDGFR but significant heterogeneity can be observed even in murine models of cancer suggesting that one marker alone will not identify all CAF in the TME (Sugimoto, Mundel et al 2006).…”

Section: The Tumor Microenvironmentmentioning

confidence: 99%

Tumour–stroma crosstalk in the development of squamous cell carcinoma

Lim

South

2014

The International Journal of Biochemistry & Cell Biology

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“…In addition, dermal atrophy accompanied by chronic stromal inflammation, caused by mesenchyme-dependent inhibition of Notch signaling, was found to be a driver for multifocal SCC development. 21 In fact, chronic inflammation promoted by immune cells was recently recognized as one of the cancer hallmarks. 22 Increased inflammation can occur in a variety of normalaged tissues, a phenomenon dubbed inflammaging.…”

mentioning

confidence: 99%

Age-associated inflammation connects RAS-induced senescence to stem cell dysfunction and epidermal malignancy

et al. 2015

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Aging is the single biggest risk factor for malignant transformation. Among the most common age-associated malignancies are non-melanoma skin cancers, comprising the most common types of human cancer. Here we show that mutant H-Ras activation in mouse epidermis, a frequent event in cutaneous squamous cell carcinoma (SCC), elicits a differential outcome in aged versus young mice. Whereas H-Ras activation in the young skin results in hyperplasia that is mainly accompanied by rapid hair growth, H-Ras activation in the aged skin results in more dysplasia and gradual progression to in situ SCC. Progression is associated with increased inflammation, pronounced accumulation of immune cells including T cells, macrophages and mast cells as well as excessive cell senescence. We found not only an age-dependent increase in expression of several pro-inflammatory mediators, but also activation of a strong anti-inflammatory response involving enhanced IL4/IL10 expression and immune skewing toward a Th2 response. In addition, we observed an age-dependent increase in the expression of Pdl1, encoding an immune suppressive ligand that promotes cancer immune evasion. Moreover, upon switching off oncogenic H-Ras activity, young but not aged skin regenerates successfully, suggesting a failure of the aged epidermal stem cells to repair damaged tissue. Our findings support an age-dependent link between accumulation of senescent cells, immune infiltration and cancer progression, which may contribute to the increased cancer risk associated with old age.

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Multifocal Epithelial Tumors and Field Cancerization from Loss of Mesenchymal CSL Signaling

Cited by 197 publications

References 33 publications

FGFR2 signaling underlies p63 oncogenic function in squamous cell carcinoma

FGFR2 signaling underlies p63 oncogenic function in squamous cell carcinoma

Tumour–stroma crosstalk in the development of squamous cell carcinoma

Age-associated inflammation connects RAS-induced senescence to stem cell dysfunction and epidermal malignancy

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