Basal Cell Carcinoma in Gorlin’s Patients: a Matter of Fibroblasts-Led Protumoral Microenvironment?

Yannick Gache,Maria Goncalves-Maia,Thierry Magnaldo,Marie-Françoise Avril,Sahar Al-Qaraghuli,Nicolas Sevenet,Stéphanie Barnay,Sabine Scarzello,Florence Brellier,Sophie Rouanet,Elodie Burty-Valin,Martial Ruat

doi:10.1371/journal.pone.0145369

Abstract

Basal cell carcinoma (BCC) is the commonest tumor in human. About 70% sporadic BCCs bear somatic mutations in the PATCHED1 tumor suppressor gene which encodes the receptor for the Sonic Hedgehog morphogen (SHH). PATCHED1 germinal mutations are associated with the dominant Nevoid Basal Cell Carcinoma Syndrome (NBCCS), a major hallmark of which is a high susceptibility to BCCs. Although the vast majority of sporadic BCCs arises exclusively in sun exposed skin areas, 40 to 50% BCCs from NBCCS patients develop in non photo-exposed skin. Since overwhelming evidences indicate that microenvironment may both be modified by- and influence the- epithelial tumor, we hypothesized that NBCCS fibroblasts could contribute to BCCs in NBCCS patients, notably those developing in non photo-exposed skin areas. The functional impact of NBCCS fibroblasts was then assessed in organotypic skin cultures with control keratinocytes. Onset of epidermal differentiation was delayed in the presence of primary NBCCS fibroblasts. Unexpectedly, keratinocyte proliferation was severely reduced and showed high levels of nuclear P53 in both organotypic skin cultures and in fibroblast-led conditioning experiments. However, in spite of increased levels of senescence associated β-galactosidase activity in keratinocytes cultured in the presence of medium conditioned by NBCCS fibroblasts, we failed to observe activation of P16 and P21 and then of bona fide features of senescence. Constitutive extinction of P53 in WT keratinocytes resulted in an invasive phenotype in the presence of NBCCS fibroblasts. Finally, we found that expression of SHH was limited to fibroblasts but was dependent on the presence of keratinocytes. Inhibition of SHH binding resulted in improved epidermal morphogenesis. Altogether, these data suggest that the repertoire of diffusible factors (including SHH) expressed by primary NBCCS fibroblasts generate a stress affecting keratinocytes behavior and epidermal homeostasis. Our findings suggest that defects in dermo/epidermal interactions could contribute to BCC susceptibility in NBCCS patients.

Highlights

In the human, most sporadic cancers are from epithelial origin and are thought to arise following sequences of genotoxic injuries [1]
Nevoid Basal Cell Carcinoma/Gorlin-Goltz Syndrome (NBCCS) fibroblasts from two independent patients bearing distinct PATCHED1 nonsense mutations (NBCCS6: c.1925dupC; p.Pro643ThrfsX11 and NBCCS10: c.1366delA; p.Thr456ProfsX35) were incorporated in a dermis equivalent (PATCHED + /-) overlaid with a stratified squamous epithelium developed from primary wild type (WT) keratinocytes (PATCHED +/+) (NBCCS organotypic skin cultures (OSC)) and compared to fully WT OSC
We present experimental evidences showing that dermal fibroblasts isolated from non-involved non photo-exposed skin biopsies from NBCCS patients severely impact behavior of WT keratinocytes in OSC

Summary

Introduction

Most sporadic cancers are from epithelial origin and are thought to arise following sequences of genotoxic injuries [1]. The ultraviolet (UV) content of the sunlight is by far the most frequent etiological factor in cutaneous carcinogenesis; in this context, exposure to sunlight is responsible for basal- (BCC), and squamouscell carcinoma (SCC) as well as malignant melanoma (MM) [2]. The most severe genetic affliction in NBCCS patients is by far their constitutive susceptibility toward BCCs [3, 4, 5]. 40 to 50% of those NBCCS BCCs, develop in non photo-exposed skin areas, [6] suggesting that susceptibility toward BCCs is not linked to inappropriate responses to DNA damages such as observed in the xeroderma pigmentosum nucleotide excision repair genetic syndrome [7]

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