|
|
Carlos Caulin, Thao Nguyen, Gene A. Lang, Thea M. Goepfert, Bill R. Brinkley, Wei-Wen Cai, Guillermina Lozano, Dennis R. Roop
J Clin Invest. 2007;
117(7):1893
doi:10.1172/JCI31721
Abstract |
Full text
| PDF
| Supplemental material
M
utations in ras and p53 are the most prevalent mutations found in human nonmelanoma skin cancers. Although some p53 mutations cause a loss of function, most result in expression of altered forms of p53, which may exhibit gain-of-function properties. Therefore, understanding the consequences of acquiring p53 gain-of-function versus loss-of-function mutations is critical for the generation of effective therapies for tumors harboring p53 mutations. Here we describe an inducible mouse model in which skin tumor formation is initiated by activation of an endogenous K-rasG12D allele. Using this model we compared the consequences of activating the p53 gain-of-function mutation p53R172H and of deleting the p53 gene. Activation of the p53R172H allele resulted in increased skin tumor formation, accelerated tumor progression, and induction of metastasis compared with deletion of p53. Consistent with these observations, the p53R172H tumors exhibited aneuploidy associated with centrosome amplification, which may underlie the mechanism by which p53R172H exerts its oncogenic properties. These results clearly demonstrate that p53 gain-of-function mutations confer poorer prognosis than loss of p53 during skin carcinogenesis and have important implications for the future design of therapies for tumors that exhibit p53 gain-of-function mutations.
Citation information
This citation data is accumulated from CrossRef, which receives citation information from participating publishers, including this journal.
Not all publishers participate in CrossRef, so this information is not comprehensive.
Additionally, data may not reflect the most current citations to this article,
and the data may differ from citation information available from other sources
(for example, Google Scholar, Web of Science, and Scopus).
Total citations by year
in CrossRef
Citations to this article
in CrossRef
(27)
| Title and authors |
Publication |
Year |
Links between mutant p53 and genomic instability
Walter Hanel, Ute M. Moll
|
J. Cell. Biochem.
|
2012 |
Defining the origins of Ras/p53-mediated squamous cell carcinoma.
Andrew C White, Kathy Tran, Joan Khuu, Christine Dang, Yongyan Cui, Scott W Binder, William E Lowry
|
Proc. Natl. Acad. Sci. U.S.A.
|
2011 |
The role of mutant p53 in human cancer
Amanda M Goh, Cynthia R Coffill, David P Lane
|
J. Pathol.
|
2011 |
A Pin1/Mutant p53 Axis Promotes Aggressiveness in Breast Cancer
Javier E. Girardini, Marco Napoli, Silvano Piazza, Alessandra Rustighi, Carolina Marotta, Enrico Radaelli, Valeria Capaci, Lee Jordan, Phil Quinlan, Alastair Thompson, Miguel Mano, Antonio Rosato, Tim Crook, Eugenio Scanziani, Anthony R. Means, Guillermina Lozano, Claudio Schneider, Giannino Del Sal
|
Cancer Cell
|
2011 |
Recent advances in mutant p53 and novel personalized strategies for cancer therapy
Si-Qian LU, Shu-Ting JIA, Ying LUO
|
Hereditas (Beijing)
|
2011 |
Cancer early dissemination: cancerous epithelial-mesenchymal transdifferentiation and transforming growth factor signalling
H. Sabe
|
Journal of Biochemistry
|
2011 |
Role of IKKα in skin squamous cell carcinomas
Eunmi Park, Bigang Liu, Xiaojun Xia, Feng Zhu, Willette-Brown Jami, Yinling Hu
|
Future Oncology
|
2011 |
Loss of desmocollin 3 in skin tumor development and progression
Jiangli Chen, Charlene O'Shea, James E. Fitzpatrick, Maranke I. Koster, Peter J. Koch
|
Mol. Carcinog.
|
2011 |
Identifying the cellular origin of squamous skin tumors
G. Lapouge, K. K. Youssef, B. Vokaer, Y. Achouri, C. Michaux, P. A. Sotiropoulou, C. Blanpain
|
Proceedings of the National Academy of Sciences
|
2011 |
Upregulation of the mitochondrial transport protein, Tim50, by mutant p53 contributes to cell growth and chemoresistance
Heidi Sankala, Catherine Vaughan, Jing Wang, Sumitra Deb, Paul R. Graves
|
Archives of Biochemistry and Biophysics
|
2011 |
|
