HPV8-induced STAT3 activation led keratinocyte stem cell expansion in human actinic keratoses
Huw J. Morgan, Carlotta Olivero, Boris Y. Shorning, Alex Gibbs, Alexandra L. Phillips, Lokapriya Ananthan, Annabelle Xiao Hui Lim, Licia Martuscelli, Cinzia Borgogna, Marco De Andrea, Martin Hufbauer, Richard Goodwin, Baki Akgül, Marisa Gariglio, Girish K. Patel
Huw J. Morgan, Carlotta Olivero, Boris Y. Shorning, Alex Gibbs, Alexandra L. Phillips, Lokapriya Ananthan, Annabelle Xiao Hui Lim, Licia Martuscelli, Cinzia Borgogna, Marco De Andrea, Martin Hufbauer, Richard Goodwin, Baki Akgül, Marisa Gariglio, Girish K. Patel
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Research Article Cell biology Stem cells

HPV8-induced STAT3 activation led keratinocyte stem cell expansion in human actinic keratoses

Abstract

Despite epidermal turnover, the skin is host to a complex array of microbes, including viruses, such as HPV, which must infect and manipulate skin keratinocyte stem cells (KSCs) to survive. This crosstalk between the virome and KSC populations remains largely unknown. Here, we investigated the effect of HPV8 on KSCs using various mouse models. We observed that the HPV8 early region gene E6 specifically caused Lrig1+ hair follicle junctional zone KSC proliferation and expansion, which would facilitate viral transmission. Within Lrig1+ KSCs specifically, HPV8 E6 bound intracellular p300 to phosphorylate the STAT3 transcriptional regulatory node. This induced ΔNp63 expression, resulting in KSC expansion into the overlying epidermis. HPV8 was associated with 70% of human actinic keratoses. Together, these results define the “hit-and-run” mechanism for HPV8 in human actinic keratosis as an expansion of KSCs, which lack melanosome protection and are thus susceptible to sun light–induced malignant transformation.

Authors

Huw J. Morgan, Carlotta Olivero, Boris Y. Shorning, Alex Gibbs, Alexandra L. Phillips, Lokapriya Ananthan, Annabelle Xiao Hui Lim, Licia Martuscelli, Cinzia Borgogna, Marco De Andrea, Martin Hufbauer, Richard Goodwin, Baki Akgül, Marisa Gariglio, Girish K. Patel

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Figure 2

Activated STAT3 regulatory node in HPV8 in Lrig1+ hair follicle junctional zone KSC.

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Activated STAT3 regulatory node in HPV8 in Lrig1+ hair follicle junction...
(A) Venn diagram showing shared DEGs from HPV8-CERtg versus WT KSC comparisons. (B) GSEA of STAT3-regulated genes in DEGs from transcriptomic analysis. See also Supplemental Figure 2. (C) IHC for pSTAT3 on adult back skin from WT and HPV8-CERtg mice. Scale bar: 40 μm. (D) Immunoblot of total STAT3 (α and β isoforms) in WT and HPV8-CERtg adult back skin epidermal sheet extracts (n = 3). Dotted line is the comparator. (E) Immunoblot of pSTAT3 Y705 and S727 in WT and HPV8-CERtg adult back skin epidermal sheet nuclear extracts (n = 4). Dotted line is the comparator. (F) qPCR of RNA from flow-sorted cell isolates, as in Figure 1E, for STAT3 downstream target genes (n ≥ 3). (G) CLSM of whole-mount tail skins from WT, HPV8-CERtg, STAT3+/–, and STAT3+/– HPV8-CERtg mice for Lrig1 (green) with DAPI (blue). Scale bar: 40 μm. (H) qPCR of RNA from STAT3+/– and STAT3+/– HPV8-CERtg adult back skin epidermal sheets for ΔNp63 (n = 3). (I) qPCR of RNA from WT, STAT3+/–, and STAT3+/– HPV8-CERtg flow-sorted Lrig1+ KSCs for ΔNp63 (n = 3). Statistical tests included (DF and H) 2-tailed Student’s t test and (I) 1-way ANOVA. *P < 0.05; **P < 0.01; ***P < 0.001.