Basal cell carcinomas in mice arise from hair follicle stem cells and multiple epithelial progenitor populations
Marina Grachtchouk, … , Monique Verhaegen, Andrzej A. Dlugosz
Marina Grachtchouk, … , Monique Verhaegen, Andrzej A. Dlugosz
Published April 25, 2011
Citation Information: J Clin Invest. 2011;121(5):1768-1781. https://doi.org/10.1172/JCI46307.
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Research Article

Basal cell carcinomas in mice arise from hair follicle stem cells and multiple epithelial progenitor populations

Abstract

Uncontrolled Hedgehog (Hh) signaling leads to the development of basal cell carcinoma (BCC), the most common human cancer, but the cell of origin for BCC is unclear. While Hh pathway dysregulation is common to essentially all BCCs, there exist multiple histological subtypes, including superficial and nodular variants, raising the possibility that morphologically distinct BCCs may arise from different cellular compartments in skin. Here we have shown that induction of a major mediator of Hh signaling, GLI2 activator (GLI2ΔN), selectively in stem cells of resting hair follicles in mice, induced nodular BCC development from a small subset of cells in the lower bulge and secondary hair germ compartments. Tumorigenesis was markedly accelerated when GLI2ΔN was induced in growing hair follicles. In contrast, induction of GLI2ΔN in epidermis led to the formation of superficial BCCs. Expression of GLI2ΔN at reduced levels in mice yielded lesions resembling basaloid follicular hamartomas, which have previously been linked to low-level Hh signaling in both mice and humans. Our data show that the cell of origin, tissue context (quiescent versus growing hair follicles), and level of oncogenic signaling can determine the phenotype of Hh/Gli-driven skin tumors, with high-level signaling required for development of superficial BCC-like tumors from interfollicular epidermis and nodular BCC-like tumors from hair follicle stem cells.

Authors

Marina Grachtchouk, Joanna Pero, Steven H. Yang, Alexandre N. Ermilov, L. Evan Michael, Aiqin Wang, Dawn Wilbert, Rajiv M. Patel, Jennifer Ferris, James Diener, Mary Allen, Seokchun Lim, Li-Jyun Syu, Monique Verhaegen, Andrzej A. Dlugosz

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Figure 1

BCC-like skin tumors arise from hair follicle stem cells.

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BCC-like skin tumors arise from hair follicle stem cells. (A) General sc...
(A) General scheme showing triple-transgenic model combining Cre-lox and tet/doxycycline-regulated technologies to achieve tight spatial and temporal control of transgene expression. The 3 components include mouse strains carrying: (i) a tissue-specific promoter (TSP) driving expression of a hormone-inducible Cre allele fused to a steroid binding domain (CreSBD); (ii) a Cre-inducible “tet on” rtTA, under the control of the ubiquitously expressed ROSA26 promoter (R26-LSL-rtTA) (37); and (iii) an oncogene downstream of multiple tetO sequences and minimal CMV promoter that is induced by rtTA when doxycycline (doxy) is present. (B) Cellular compartments in a quiescent (telogen) hair follicle. Most hair follicle stem cells are localized to the bulge and secondary hair germ compartments. (C) Compartments in which K15-CrePR1 mice can drive recombination in K15-CrePR1;R26-LSL-rtTA;tetO-GLI2ΔN (iK15;rtTA;GLI2ΔN) mice to activate rtTA expression. (D) Synchronized hair growth cycle in postnatal mouse skin, with approximate mouse ages and timing of doxycycline treatment/GLI2ΔN transgene induction indicated. (E) Spontaneous development of microscopic skin tumors from telogen hair follicle stem cells in dorsal skin of iK15;rtTA;GLI2ΔN mice, after 3 weeks of doxycycline treatment. Note tumor development from lowermost follicle in a region corresponding to the secondary hair germ. Original magnification, ×200 (left panel); ×400 (right panels). (F) Spontaneous tumor development from K15+ follicle stem cells at other body sites 3 weeks after GLI2ΔN induction. Original magnification, ×100 (tail, dorsal paw, and snout); ×200 (ear).