The ultimate goal of this program is to elucidate the molecular nature of processes controlling human cancer in order to further its prevention, diagnosis and treatment. The function of tumor suppressor genes Rb and related genes p107 and p130, p53, and Wilms' WTI in normal physiology and in suppressing the development of tumors will be analyzed using gene targeting methods to generate mutant mice. The Rb protein interacts with the E2F family of transcription factors in controlling cell division. These types of interactions will be studied both by generating mouse strains deficient in the E2F-2 and E2F-3 proteins and by analyzing the biochemistry of cell cycle control using cell lines established from these and other strains. The WT1 protein binds DNA in a sequence-specific fashion and transcription of genes critical for normal kidney cell growth and development. Proteins which interact directly with the WT1 protein in mediating its effects on suppressing tumor growth will be sought. In addition, genes regulated by WT1 will be identified. The WT2 locus also suppresses development of kidney tumors and the gene responsible for this activity will be identified. Loss of p53 activity from a tumor cell renders it multidrug resistant. The relationship between p53 status and tumor cell phenotype will be further investigated. The tumor suppressor protein Rb, p53 and WT1 as well as the oncogene Myc all either bind DNA in a sequence-specific fashion or are part of a complex that has this property. The mechanisms by which these proteins as well as the Oct-1 and Oct-2 transcription factors regulate initiation of transcription will be investigated, both in vitro and in vivo. The unique function of Oct-1 and Oct-2 proteins in development of B cells will be analyzed to identify the nature of protein-protein interactions which determine this specificity. Finally, a method to design novel transcription factors to regulate specific endogenous genes in a dominant fashion will be tested.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Program Projects (P01)
Project #
5P01CA042063-15
Application #
6172051
Study Section
Cancer Centers and Research Programs Review Committee (CCRP)
Program Officer
Mietz, Judy
Project Start
1986-05-01
Project End
2001-04-30
Budget Start
2000-05-01
Budget End
2001-04-30
Support Year
15
Fiscal Year
2000
Total Cost
$1,162,811
Indirect Cost
Name
Massachusetts Institute of Technology
Department
Type
Organized Research Units
DUNS #
City
Cambridge
State
MA
Country
United States
Zip Code
02139
Gao, Ang; Shrinivas, Krishna; Lepeudry, Paul et al. (2018) Evolution of weak cooperative interactions for biological specificity. Proc Natl Acad Sci U S A 115:E11053-E11060
Dubbury, Sara J; Boutz, Paul L; Sharp, Phillip A (2018) CDK12 regulates DNA repair genes by suppressing intronic polyadenylation. Nature 564:141-145
Parisi, Tiziana; Balsamo, Michele; Gertler, Frank et al. (2018) The Rb tumor suppressor regulates epithelial cell migration and polarity. Mol Carcinog 57:1640-1650
Sabari, Benjamin R; Dall'Agnese, Alessandra; Boija, Ann et al. (2018) Coactivator condensation at super-enhancers links phase separation and gene control. Science 361:
Chiu, Anthony C; Suzuki, Hiroshi I; Wu, Xuebing et al. (2018) Transcriptional Pause Sites Delineate Stable Nucleosome-Associated Premature Polyadenylation Suppressed by U1 snRNP. Mol Cell 69:648-663.e7
JnBaptiste, Courtney K; Gurtan, Allan M; Thai, Kevin K et al. (2017) Corrigendum: Dicer loss and recovery induce an oncogenic switch driven by transcriptional activation of the oncofetal Imp1-3 family. Genes Dev 31:1066
Hnisz, Denes; Shrinivas, Krishna; Young, Richard A et al. (2017) A Phase Separation Model for Transcriptional Control. Cell 169:13-23
JnBaptiste, Courtney K; Gurtan, Allan M; Thai, Kevin K et al. (2017) Dicer loss and recovery induce an oncogenic switch driven by transcriptional activation of the oncofetal Imp1-3 family. Genes Dev 31:674-687
Suzuki, Hiroshi I; Young, Richard A; Sharp, Phillip A (2017) Super-Enhancer-Mediated RNA Processing Revealed by Integrative MicroRNA Network Analysis. Cell 168:1000-1014.e15
Mori, Munemasa; Hazan, Renin; Danielian, Paul S et al. (2017) Cytoplasmic E2f4 forms organizing centres for initiation of centriole amplification during multiciliogenesis. Nat Commun 8:15857

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