Tristetraprolin expression by keratinocytes protects against skin carcinogenesis
Assiya Assabban, … , Perry J. Blackshear, Stanislas Goriely
Assiya Assabban, … , Perry J. Blackshear, Stanislas Goriely
Published January 26, 2021
Citation Information: JCI Insight. 2021;6(5):e140669. https://doi.org/10.1172/jci.insight.140669.
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Research Article Inflammation Oncology

Tristetraprolin expression by keratinocytes protects against skin carcinogenesis

Abstract

Cancer is caused primarily by genomic alterations resulting in deregulation of gene regulatory circuits in key growth, apoptosis, or DNA repair pathways. Multiple genes associated with the initiation and development of tumors are also regulated at the level of mRNA decay, through the recruitment of RNA-binding proteins to AU-rich elements (AREs) located in their 3′-untranslated regions. One of these ARE-binding proteins, tristetraprolin (TTP; encoded by Zfp36), is consistently dysregulated in many human malignancies. Herein, using regulated overexpression or conditional ablation in the context of cutaneous chemical carcinogenesis, we show that TTP represents a critical regulator of skin tumorigenesis. We provide evidence that TTP controlled both tumor-associated inflammation and key oncogenic pathways in neoplastic epidermal cells. We identify Areg as a direct target of TTP in keratinocytes and show that EGFR signaling potentially contributed to exacerbated tumor formation. Finally, single-cell RNA-Seq analysis indicated that ZFP36 was downregulated in human malignant keratinocytes. We conclude that TTP expression by epidermal cells played a major role in the control of skin tumorigenesis.

Authors

Assiya Assabban, Ingrid Dubois-Vedrenne, Laurye Van Maele, Rosalba Salcedo, Brittany L. Snyder, Lecong Zhou, Abdulkader Azouz, Bérengère de Toeuf, Gaëlle Lapouge, Caroline La, Maxime Melchior, Muriel Nguyen, Séverine Thomas, Si Fan Wu, Wenqian Hu, Véronique Kruys, Cédric Blanpain, Giorgio Trinchieri, Cyril Gueydan, Perry J. Blackshear, Stanislas Goriely

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Figure 3

Dysregulated production of TNF in the absence of TTP in keratinocytes does not critically contribute to the sensitivity of Zfp36ΔEP mice to tumor development.

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Dysregulated production of TNF in the absence of TTP in keratinocytes do...
Tumors from Zfp36ΔEPTnfΔEP (red), TnfΔEP (green), Zfp36ΔEP (blue) mice and their littermates (dotted lines) were monitored during 1220 weeks after DMBA/TPA treatment. (A) Incidence and size of tumors of all groups. Kaplan-Meier curves showing tumor-free mice during the experiment (n = 4–11, pool of 2 experiments). (B) DMBA/TPA-treated Zfp36ΔEP mice received anti–TNF-α or control isotype (n = 4–5, representative of one experiment). (C) Cell recruitment in total back skin was analyzed by flow cytometry (mean ± SEM, n = 4–11, pool of 2 experiments). Gating strategy for flow cytometry is presented in Supplemental Figure 2. (D) Total back skin was collected for gene expression analysis by qPCR. Deficient mice (Δ) and their littermates (flox) are shown for both groups. Levels of Tnf, Cxcl2, and Lcn2 mRNAs were measured for each condition. Values from mock skin of corresponding controls were normalized against Actb and arbitrarily set at 1 (mean ± SEM, n = 6–11). Statistical significance (*P < 0.05, **P < 0.01, ***P < 0.001) was assessed by Mantel-Cox log rank and pairwise comparisons (A), by 2-tailed Mann-Whitney test (B–D). TTP, tristetraprolin; DMBA, 7,12-dimethylbenz[a]anthracene; TPA, 12-0-tetradecanoylphorbol-13-acetate.