Cop1 constitutively regulates c-Jun protein stability and functions as a tumor suppressor in mice
Domenico Migliorini, … , William C. Skarnes, Jean-Christophe Marine
Domenico Migliorini, … , William C. Skarnes, Jean-Christophe Marine
Published March 14, 2011
Citation Information: J Clin Invest. 2011;121(4):1329-1343. https://doi.org/10.1172/JCI45784.
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Research Article

Cop1 constitutively regulates c-Jun protein stability and functions as a tumor suppressor in mice

Abstract

Biochemical studies have suggested conflicting roles for the E3 ubiquitin ligase constitutive photomorphogenesis protein 1 (Cop1; also known as Rfwd2) in tumorigenesis, providing evidence for both the oncoprotein c-Jun and the tumor suppressor p53 as its targets. Here we present what we believe to be the first in vivo investigation of the role of Cop1 in cancer etiology. Using an innovative genetic approach to generate an allelic series of Cop1, we found that Cop1 hypomorphic mice spontaneously developed malignancy at a high frequency in the first year of life and were highly susceptible to radiation-induced lymphomagenesis. Further analysis revealed that c-Jun was a key physiological target for Cop1 and that Cop1 constitutively kept c-Jun at low levels in vivo and thereby modulated c-Jun/AP-1 transcriptional activity. Importantly, Cop1 deficiency stimulated cell proliferation in a c-Jun–dependent manner. Focal deletions of COP1 were observed at significant frequency across several cancer types, and COP1 loss was determined to be one of the mechanisms leading to c-Jun upregulation in human cancer. We therefore conclude that Cop1 is a tumor suppressor that functions, at least in part, by antagonizing c-Jun oncogenic activity. In the absence of evidence for a genetic interaction between Cop1 and p53, our data strongly argue against the use of Cop1-inhibitory drugs for cancer therapy.

Authors

Domenico Migliorini, Sven Bogaerts, Dieter Defever, Rajesh Vyas, Geertrui Denecker, Enrico Radaelli, Aleksandra Zwolinska, Vanessa Depaepe, Tino Hochepied, William C. Skarnes, Jean-Christophe Marine

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Figure 5

Cop1hypo/hypo mice are tumor prone.

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Cop1hypo/hypo mice are tumor prone. (A–C) Spontaneous tumor formati...
(AC) Spontaneous tumor formation in Cop1hypo/hypo mice. (A) 50% of Cop1hypo/hypo mice analyzed (n = 22) by histopathological examination spontaneously developed tumors in their first year of life. None of the Cop1hypo/+ control littermates analyzed (n = 10) showed hyperplasia or tumor development during the course of the experiment (P = 0.036). (B) Most Cop1hypo/hypo mice developed T cell lymphoma. Thymi from Cop1hypo/+ and Cop1hypo/hypo littermates at 20 weeks; the thymus of the Cop1hypo/hypo mouse is tumorous. (C) Left panels: H&E staining of sections of organs from a Cop1hypo/hypo mouse that developed lymphoma (lymphoid infiltrates are indicated by the arrows). Right panels: Immunohistochemistry for CD3 on selected organs from Cop1hypo/+ and Cop1hypo/hypo mice; a dramatic increase in CD3+ cells in Cop1hypo/hypo tissues supports a T cell origin of the infiltrates (arrows). Original magnification, ×14. (D and E) Cop1 deficiency leads to increased infiltration of CD3+ cells and tumorigenesis following exposure to a single sublethal dose (4 Gy) of ionizing radiation. (D) Survival following 4 Gy of whole body irradiation decreased in the Cop1hypo/hypo group (n = 28) at 14–32 weeks following irradiation in comparison with the group of control Cop1hypo/+ littermates (n = 26) (Kaplan-Meier log-rank analysis, P = 0.0002). (E) H&E staining of sections of several organs from a Cop1hypo/+ control and a Cop1hypo/hypo mouse that had developed lymphoma. Immunohistochemistry on several organs from Cop1hypo/hypo mouse shows a dramatic increase in the number of CD3+ cells, suggesting a T cell origin of the infiltrates (see arrows). Original magnification, ×14. (F) Immunohistochemistry on several organs shows high levels of phosphorylated (Ser63) c-Jun in the infiltrates of Cop1hypo/hypo mouse. Original magnification, ×40.