Epidermal CYLD inactivation sensitizes mice to the development of sebaceous and basaloid skin tumors
Yingai Jane Jin, … , George Mosialos, Jennifer Y. Zhang
Yingai Jane Jin, … , George Mosialos, Jennifer Y. Zhang
Published July 21, 2016
Citation Information: JCI Insight. 2016;1(11):e86548. https://doi.org/10.1172/jci.insight.86548.
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Research Article Dermatology Development

Epidermal CYLD inactivation sensitizes mice to the development of sebaceous and basaloid skin tumors

Abstract

The deubiquitinase-encoding gene Cyld displays a dominant genetic linkage to a wide spectrum of skin-appendage tumors, which could be collectively designated as CYLD mutant–syndrome (CYLDm-syndrome). Despite recent advances, little is understood about the molecular mechanisms responsible for this painful and difficult-to-treat skin disease. Here, we generated a conditional mouse model with epidermis-targeted expression of a catalytically deficient CYLDm through K14-Cre–mediated deletion of exon 9 (hereafter refer to CyldEΔ9/Δ9). CyldEΔ9/Δ9 mice were born alive but developed hair and sebaceous gland abnormalities and dental defects at 100% and 60% penetrance, respectively. Upon topical challenge with DMBA/TPA, these animals primarily developed sebaceous and basaloid tumors resembling human CYLDm-syndrome as opposed to papilloma, which is most commonly induced in WT mice by this treatment. Molecular analysis revealed that TRAF6-K63-Ubiquitination (K63-Ub), c-Myc-K63-Ub, and phospho-c–Myc (S62) were markedly elevated in CyldEΔ9/Δ9 skin. Topical treatment with a pharmacological c-Myc inhibitor induced sebaceous and basal cell apoptosis in CyldEΔ9/Δ9 skin. Consistently, c-Myc activation was readily detected in human cylindroma and sebaceous adenoma. Taken together, our findings demonstrate that CyldEΔ9/Δ9 mice represent a disease-relevant animal model and identify TRAF6 and c-Myc as potential therapeutic targets for CYLDm-syndrome.

Authors

Yingai Jane Jin, Sally Wang, Joshua Cho, M. Angelica Selim, Tim Wright, George Mosialos, Jennifer Y. Zhang

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Figure 4

c-Myc displays increased activation and K63-Ub in CyldEΔ9/Δ9 mouse skin.

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c-Myc displays increased activation and K63-Ub in CyldEΔ9/Δ9 mouse skin....
(A–C) Immunostaining of mouse back skin or chemically induced skin tumors. c-Myc or phospho-c–Myc(S62) (orange); Nuclei (blue). Asterisks mark c-Myc–positive hair follicles and sebaceous glands. (D) Quantification of phospho-c–Myc–positive cells. Graph shows average percentages of phospho-c–Myc (S62)–positive cells with data representing 25th–75th percentiles (box), median (line), and 5th and 95th percentiles (whiskers). Three images of each group were counted. P value was obtained via student t test. (E) Immunoblotting with mouse epidermal extracts for c-Myc, phospho-c–Myc (S62), and Actin. (F) RT-PCR for c-Myc with total RNA isolated from 3-month-old CyldEΔ9/+ and CyldEΔ9/Δ9 mice skin (n = 3 per group) and GAPDH used as an internal control. Data represent 25th–75th percentiles (box), median (line), and 5th and 95th percentiles (whiskers). (G) IP of mouse epidermal extracts with an antibody against c-Myc and then immunoblotting for K63-Ub or c-Myc. Scale bars: 100 μm.