Targeted p16Ink4a epimutation causes tumorigenesis and reduces survival in mice
Da-Hai Yu, … , Manasi Gadkari, Lanlan Shen
Da-Hai Yu, … , Manasi Gadkari, Lanlan Shen
Published July 25, 2014
Citation Information: J Clin Invest. 2014;124(9):3708-3712. https://doi.org/10.1172/JCI76507.
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Brief Report Oncology

Targeted p16Ink4a epimutation causes tumorigenesis and reduces survival in mice

Abstract

Cancer has long been viewed as a genetic disease; however, epigenetic silencing as the result of aberrant promoter DNA methylation is frequently associated with cancer development, suggesting an epigenetic component to the disease. Nonetheless, it has remained unclear whether an epimutation (an aberrant change in epigenetic regulation) can induce tumorigenesis. Here, we exploited a functionally validated cis-acting regulatory element and devised a strategy to induce developmentally regulated genomic targeting of DNA methylation. We used this system to target DNA methylation within the p16Ink4a promoter in mice in vivo. Engineered p16Ink4a promoter hypermethylation led to transcriptional suppression in somatic tissues during aging and increased the incidence of spontaneous cancers in these mice. Further, mice carrying a germline p16Ink4a mutation in one allele and a somatic epimutation in the other had accelerated tumor onset and substantially shortened tumor-free survival. Taken together, these results provide direct functional evidence that p16Ink4a epimutation drives tumor formation and malignant progression and validate a targeted methylation approach to epigenetic engineering.

Authors

Da-Hai Yu, Robert A. Waterland, Pumin Zhang, Deborah Schady, Miao-Hsueh Chen, Yongtao Guan, Manasi Gadkari, Lanlan Shen

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Figure 3

The driving role of p16 epimutation in tumorigenesis in vivo.

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The driving role of p16 epimutation in tumorigenesis in vivo. (A and B) ...
(A and B) Representative histological appearance of malignancies in p16cis/cis (A) and p16cis/– (B) mice of the indicated age, sex, and tumor type. Scale bars: 200 μm. (C) Kaplan-Meier survival analysis demonstrating shortened lifespan in p16cis/cis mice (P = 0.02 vs. p16+/+, log-rank test) and in p16cis/– mice. (D) p16 promoter methylation significantly increased in the bulk of tumor tissues collected. Tumors 1 and 2 (T1 and T2) were collected from the liver and spleen, respectively, of the same p16cis/cis mouse with metastatic lymphoma; T3 was collected from the p16+/cis mouse; T4 and T5 were collected from 2 individual p16cis/– mice. Values for age-matched control tissues (ctr; mean ± SD, n = 4) are also shown. (E) Immunohistochemical analysis demonstrated that promoter hypermethylation resulted in abrogation of p16 protein expression in tumor cells. Left: Lymphoma with p16 promoter hypermethylation. Right: Positive control skin tissue showing strong immunostaining. Scale bars: 100 μm. (F) Proposed model for a direct role of developmentally regulated p16 methylation in tumorigenesis.