Abstract

PrincipInavlestigator/PDroirgerca(tLomar sfitr.stm, iddle): LAIRD, Peter W. DESCRIPTION: State the application's broad, long-term objectives and specific aims, making reference to the health relatedness of the project. Describe concisely the research design and methods for achieving these goals. Avoid summaries of past accomplishments and the use of the first person. This abstract is meant to serve as a succinct and accurate description of the proposed work when separated from the application. If the application is funded, this description, as is, will become public information. Therefore, do not include proprietary/confidential information. DO NOT EXCEED TIlE SPACE PROVIDED, We have developed a mouse model system, using hypomorphic alleles of the major DNA methyltransferase Dnmtl, in which we can assess the role of DNA methylation in oncogenesis and investigate various mechanisms by which DNA methylation and/or Dnmtl may affect the cancer process. We have recently shown that combinations of Dnmtl hypomorphic alleles can achieve complete genetic suppression of ApcMin/+ induced polyp formation, suggesting that sufficient levels of Dnmtl expression are required for intestinal polyp development. This is further supported by our observation that intestinal tumorigenesis in mismatch-repair deficient MIhl-/- mice is also suppressed by low levels of Dnmtl. However, lymphomagenesis is increased in these same mice, -- suggesting that modulation of Dnmtl leve_s can have opposing effects on oncogenesis in vivo. The molecular basis for this strong effect of Dnmtl levels on various models of oncogenesis is not understood. We have recently shown in a tissue-culture model system that Dnmtl deficiency causes a reduction in methylation-dependent genetic events, such as methylcytosine deamination, and a reduction in methylation-dependent epigenetic events, such as transcriptional silencing by promoter CpG island hypermethyiation. In this competing continuation, we propose to 1) expand our analysis of the effects of in vivo modulation of DNA methylation on cancer model systems and 2) analyze the influence of DNA methylation and/or methyltransferases on mutation frequencies in vivo, and 3) analyze sequence features affecting de novo methylation in ES cells. In summary, we propose to continue to investigate the causal effects of DNA methylation in cancer and to analyze both genetic and epigenetic mechanisms by which DNA methylation and/or DNA methyltransferases could affect oncogenesis. PERFORMANCE SITE ========================================Section End===========================================

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA075090-07
Application #
6837077
Study Section
Mammalian Genetics Study Section (MGN)
Program Officer
Okano, Paul
Project Start
1997-08-15
Project End
2007-12-31
Budget Start
2005-01-01
Budget End
2005-12-31
Support Year
7
Fiscal Year
2005
Total Cost
$365,625
Indirect Cost

  Institution

Name
University of Southern California
Department
Surgery
Type
Schools of Medicine
DUNS #
072933393
City
Los Angeles
State
CA
Country
United States
Zip Code
90089

  Publications

Lee, Kwang-Ho; Oghamian, Shirley; Park, Jin-A et al. (2017) The REMOTE-control system: a system for reversible and tunable control of endogenous gene expression in mice. Nucleic Acids Res 45:12256-12269
Hinoue, Toshinori; Weisenberger, Daniel J; Lange, Christopher P E et al. (2012) Genome-scale analysis of aberrant DNA methylation in colorectal cancer. Genome Res 22:271-82
Oghamian, Shirley; Sodir, Nicole M; Bashir, Muhammad U et al. (2011) Reduction of pancreatic acinar cell tumor multiplicity in Dnmt1 hypomorphic mice. Carcinogenesis 32:829-35
Teschendorff, Andrew E; Menon, Usha; Gentry-Maharaj, Aleksandra et al. (2010) Age-dependent DNA methylation of genes that are suppressed in stem cells is a hallmark of cancer. Genome Res 20:440-6
Hinoue, Toshinori; Weisenberger, Daniel J; Pan, Fei et al. (2009) Analysis of the association between CIMP and BRAF in colorectal cancer by DNA methylation profiling. PLoS One 4:e8357
Campan, Mihaela; Weisenberger, Daniel J; Trinh, Binh et al. (2009) MethyLight. Methods Mol Biol 507:325-37
Chen, Hui; Xia, Meng; Lin, Mark et al. (2007) Role of methionine adenosyltransferase 2A and S-adenosylmethionine in mitogen-induced growth of human colon cancer cells. Gastroenterology 133:207-18
Widschwendter, Martin; Fiegl, Heidi; Egle, Daniel et al. (2007) Epigenetic stem cell signature in cancer. Nat Genet 39:157-8
Sodir, Nicole M; Chen, Xuan; Park, Ryan et al. (2006) Smad3 deficiency promotes tumorigenesis in the distal colon of ApcMin/+ mice. Cancer Res 66:8430-8
Weisenberger, Daniel J; Siegmund, Kimberly D; Campan, Mihaela et al. (2006) CpG island methylator phenotype underlies sporadic microsatellite instability and is tightly associated with BRAF mutation in colorectal cancer. Nat Genet 38:787-93

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