Abstract

Loss or inactivation of p53 is an important step in cancer development. It is therefore important to determine how the levels and activity of p53 are normally regulated, and how this regulation is altered in cancer. p53 degradation occurs, at least in part, through the ubiquitin-proteolysis system. Our laboratory can readily detect ubiquitin: p53 conjugates in cells that express wild-type p53, and in cells transfected with p53 expression DNAs. This ability affords us an excellent system to study p53 ubiquitination in response to diverse stimuli. Preliminary studies indicate that p53 ubiquitination is regulated during release from quiescence and in response to DNA damage. We will determine conditions when high or low levels of p53 ubiquitination are observed. We will then determine whether high levels of p53 ubiquitination are correlated with a decreased protein half-life. Finally, the potential role of MDM2 in mediating p53 ubiquitination will be assessed. These studies will be done in normal cells and in cancer cells to determine whether the regulation of p53 ubiquitination is altered in cancer. An assay system has been established in which wild-type p53 is efficiently ubiquitinated in transfected cells when coexpressed with MDM2. Deletion analysis and mutagenesis of p53 will be done to define the determinants within p53 required for ubiquitination. Cancer-derived p53 mutants vary in their susceptibility to ubiquitination. We will determine the molecular basis for this variation. In addition, two MDM2 mutants will be examined to address the mechanism by which MDM2 promotes p53 ubiquitination. The recent cloning of p73 and p63 has revealed a family of p53-related proteins that may carry out redundant functions. We wish to determine whether the levels and stability of these newly identified p53 family members are regulated through the same pathways that regulate p53. Preliminary studies indicate that certain cancer-derived p53 mutants can promote the rapid degradation of p73. We will elaborate the molecular basis of this effect. In addition, we will determine whether the ability to promote p73 degradation is associated with a gain-of-function phenotype for mutant p53.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
7R01CA080918-05
Application #
6633358
Study Section
Pathology B Study Section (PTHB)
Program Officer
Knowlton, John R
Project Start
1999-06-15
Project End
2004-08-31
Budget Start
2003-04-01
Budget End
2004-08-31
Support Year
5
Fiscal Year
2003
Total Cost
$243,413
Indirect Cost

  Institution

Name
University of Chicago
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
005421136
City
Chicago
State
IL
Country
United States
Zip Code
60637

  Publications

Moran, D M; Gawlak, G; Jayaprakash, M S et al. (2008) Geldanamycin promotes premature mitotic entry and micronucleation in irradiated p53/p21 deficient colon carcinoma cells. Oncogene 27:5567-77
Shen, Hong; Moran, Diarmuid M; Maki, Carl G (2008) Transient nutlin-3a treatment promotes endoreduplication and the generation of therapy-resistant tetraploid cells. Cancer Res 68:8260-8
Nie, Linghu; Sasaki, Mark; Maki, Carl G (2007) Regulation of p53 nuclear export through sequential changes in conformation and ubiquitination. J Biol Chem 282:14616-25
Sasaki, Mark; Nie, Linghu; Maki, Carl G (2007) MDM2 binding induces a conformational change in p53 that is opposed by heat-shock protein 90 and precedes p53 proteasomal degradation. J Biol Chem 282:14626-34
Inoue, Tomomi; Wu, Liqing; Stuart, Jeremy et al. (2005) Control of p53 nuclear accumulation in stressed cells. FEBS Lett 579:4978-84
Wu, Liqing; Zhu, Hongyan; Nie, Linghu et al. (2004) A link between p73 transcriptional activity and p73 degradation. Oncogene 23:4032-6
Wei, Xiaolong; Yu, Zhong Kang; Ramalingam, Arivudainambi et al. (2003) Physical and functional interactions between PML and MDM2. J Biol Chem 278:29288-97
Inoue, Tomomi; Stuart, Jeremy; Leno, Richard et al. (2002) Nuclear import and export signals in control of the p53-related protein p73. J Biol Chem 277:15053-60
Inoue, T; Geyer, R K; Yu, Z K et al. (2001) Downregulation of MDM2 stabilizes p53 by inhibiting p53 ubiquitination in response to specific alkylating agents. FEBS Lett 490:196-201
Inoue, T; Geyer, R K; Howard, D et al. (2001) MDM2 can promote the ubiquitination, nuclear export, and degradation of p53 in the absence of direct binding. J Biol Chem 276:45255-60

Showing the most recent 10 out of 12 publications