Tumor escape in a Wnt1-dependent mouse breast cancer model is enabled by p19Arf/p53 pathway lesions but not p16Ink4a loss
Michael T. Debies, … , Robert D. Cardiff, Edward J. Gunther
Michael T. Debies, … , Robert D. Cardiff, Edward J. Gunther
Published December 3, 2007
Citation Information: J Clin Invest. 2008;118(1):51-63. https://doi.org/10.1172/JCI33320.
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Research Article Oncology

Tumor escape in a Wnt1-dependent mouse breast cancer model is enabled by p19Arf/p53 pathway lesions but not p16Ink4a loss

Abstract

Breast cancers frequently progress or relapse during targeted therapy, but the molecular mechanisms that enable escape remain poorly understood. We elucidated genetic determinants underlying tumor escape in a transgenic mouse model of Wnt pathway–driven breast cancer, wherein targeted therapy is simulated by abrogating doxycycline-dependent Wnt1 transgene expression within established tumors. In mice with intact tumor suppressor pathways, tumors typically circumvented doxycycline withdrawal by reactivating Wnt signaling, either via aberrant (doxycycline-independent) Wnt1 transgene expression or via acquired somatic mutations in the gene encoding β-catenin. Germline introduction of mutant tumor suppressor alleles into the model altered the timing and mode of tumor escape. Relapses occurring in the context of null Ink4a/Arf alleles (disrupting both the p16Ink4a and p19Arf tumor suppressors) arose quickly and rarely reactivated the Wnt pathway. In addition, Ink4a/Arf-deficient relapses resembled p53-deficient relapses in that both displayed morphologic and molecular hallmarks of an epithelial-to-mesenchymal transition (EMT). Notably, Ink4a/Arf deficiency promoted relapse in the absence of gross genomic instability. Moreover, Ink4a/Arf-encoded proteins differed in their capacity to suppress oncogene independence. Isolated p19Arf deficiency mirrored p53 deficiency in that both promoted rapid, EMT-associated mammary tumor escape, whereas isolated p16Ink4a deficiency failed to accelerate relapse. Thus, p19Arf/p53 pathway lesions may promote mammary cancer relapse even when inhibition of a targeted oncogenic signaling pathway remains in force.

Authors

Michael T. Debies, Shelley A. Gestl, Jessica L. Mathers, Oliver R. Mikse, Travis L. Leonard, Susan E. Moody, Lewis A. Chodosh, Robert D. Cardiff, Edward J. Gunther

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Figure 4

Mechanisms of mammary tumor relapse in Ink4a/Arf-deficient mice.

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Mechanisms of mammary tumor relapse in Ink4a/Arf-deficient mice. ...
(A) Gene expression patterns. Northern hybridization analysis was performed on RNA samples prepared from a panel of primary and relapsed Ink4a/Arf+/– mammary tumors. Robust expression of Wnt target genes was restricted to 2 of 9 DITs. (B) Southern analysis of Ink4a/Arf alleles. Among Ink4a/Arf+/– mammary tumors, selective partial loss of the wild-type Ink4a/Arf allele was a frequent event in relapsed, but not primary, tumors. (C) Quantitation of relative p19Arf transcript levels by RT-PCR. Levels of p19Arf message varied widely among primary tumors, yet these levels invariably were decreased in the corresponding relapsed DITs. (D) p19Arf Western analysis. p19Arf protein levels, as detected by immunoblotting, varied widely among tumors and were frequently undetectable in our assay. Relative protein expression generally paralleled relative transcript expression. Primary tumors that expressed p19Arf protein at detectable levels showed decreased p19Arf expression in the corresponding relapse. The far-right lane depicts robust p19Arf protein expression in a p53-null mammary tumor, used as a positive control. (E) Tumor histology. Photomicrographs of H&E-stained sections derived from representative primary-relapse tumor pairs. Scale bar: 50 μm.