We propose to become members of the consortium to develop mouse models for cancer. We propose to contribute a number of excellent models for human gastrointestinal cancer that we have developed. In addition, we propose to develop and examine a number of new models for GI and other cancers. The Albert Einstein College of Medicine is designated as a Comprehensive Cancer Center by the National Cancer Institute and provides a number of core facilities for generating transgenic and gene knock-out mice. The barrier facility where the mice will be housed allows maintenance and breeding of mice in a pathogen-free facility, making it possible to easily ship mice to other facilities. Many of the other core facilities of the Cancer Center, such as the Oligonucleotide and DNA Sequencing Facility, Image Analysis Facility, Protein Sequencing and Synthesis Facility, Cell Sorting Facility and Monoclonal Antibody Facility, are important assets for the proposed work. We have also developed and/or implemented several new technologies that would be important for the proposed activity. These include high throughput bacterial clone screening, preparation of bacterial clone maps of regions of the genome and use of the Affymetrix oligonucleotide arrays for detection of changes in gene expression. We have also built a robot to prepare high density microarrays of cDNA inserts from validated mouse and human cDNA clones, methods to hybridize them with complex probes and laser scanning devices to read, record and analyze the data. The infrastructure also includes a very robust histopathology with particular expertise on gastrointestinal cancer. Several genes whose germ line mutations in humans lead to a cancer predisposition phenotype and other genes which are consistently found to be mutated in colorectal tumors have been identified. During the past several years, we generated mice with mutations in 14 different genes implicated in human colorectal cancer. These include Apc, Mcc, Ki-ras, N-ras, Smad2, Smad4, Msh2, Msh3, Msh4, Msh5, Msh6 and Mlh1. Many of these mice with single gene mutations or in combinations show a high degree of tumor susceptibility. We now propose to validate some of these models, test additional combinations and create new lines of genetically modified mice to serve as GI tumor models. Since many of these mice develop tumors of other tissue types as well, it is possible that combining our gene modifications with those developed by other members of the consortium may provide for novel models for other human tumors.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project--Cooperative Agreements (U01)
Project #
1U01CA084301-01
Application #
6039336
Study Section
Special Emphasis Panel (ZCA1-SRRB-7 (O3))
Program Officer
Marks, Cheryl L
Project Start
1999-09-30
Project End
2003-04-01
Budget Start
1999-09-30
Budget End
2000-03-31
Support Year
1
Fiscal Year
1999
Total Cost
Indirect Cost
Name
Albert Einstein College of Medicine
Department
Genetics
Type
Schools of Medicine
DUNS #
009095365
City
Bronx
State
NY
Country
United States
Zip Code
10461
Esfahani, Shadi A; Heidari, Pedram; Kim, Sun A et al. (2016) Optical Imaging of Mesenchymal Epithelial Transition Factor (MET) for Enhanced Detection and Characterization of Primary and Metastatic Hepatic Tumors. Theranostics 6:2028-2038
Arvold, Nils D; Heidari, Pedram; Kunawudhi, Anchisa et al. (2016) Tumor Hypoxia Response After Targeted Therapy in EGFR-Mutant Non-Small Cell Lung Cancer: Proof of Concept for FMISO-PET. Technol Cancer Res Treat 15:234-42
Sheth, Rahul A; Arellano, Ronald S; Uppot, Raul N et al. (2015) Prospective trial with optical molecular imaging for percutaneous interventions in focal hepatic lesions. Radiology 274:917-26
Heidari, Pedram; Esfahani, Shadi A; Turker, Nazife S et al. (2015) Imaging of Secreted Extracellular Periostin, an Important Marker of Invasion in the Tumor Microenvironment in Esophageal Cancer. J Nucl Med 56:1246-51
Heidari, Pedram; Deng, Francis; Esfahani, Shadi A et al. (2015) Pharmacodynamic imaging guides dosing of a selective estrogen receptor degrader. Clin Cancer Res 21:1340-7
Li, Xingnan; Nadauld, Lincoln; Ootani, Akifumi et al. (2014) Oncogenic transformation of diverse gastrointestinal tissues in primary organoid culture. Nat Med 20:769-77
Turker, N Selcan; Heidari, Pedram; Kucherlapati, Raju et al. (2014) An EGFR targeted PET imaging probe for the detection of colonic adenocarcinomas in the setting of colitis. Theranostics 4:893-903
Kuruppu, Darshini; Brownell, Anna-Liisa; Shah, Khalid et al. (2014) Molecular imaging with bioluminescence and PET reveals viral oncolysis kinetics and tumor viability. Cancer Res 74:4111-21
Habibollahi, Peiman; Waldron, Todd; Heidari, Pedram et al. (2014) Fluorescent nanoparticle imaging allows noninvasive evaluation of immune cell modulation in esophageal dysplasia. Mol Imaging 13:1-11
Kucherlapati, Melanie H; Esfahani, Shadi; Habibollahi, Peiman et al. (2013) Genotype directed therapy in murine mismatch repair deficient tumors. PLoS One 8:e68817

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