Literature DB >> 15738982

The promise of genetically engineered mice for cancer prevention studies.

Jeffrey E Green1, Tamaro Hudson.   

Abstract

Sophisticated genetic technologies have led to the development of mouse models of human cancers that recapitulate important features of human oncogenesis. Many of these genetically engineered mouse models promise to be very relevant and relatively rapid systems for determining the efficacy of chemopreventive agents and their mechanisms of action. The validation of such models for chemoprevention will help the selection of appropriate agents for large-scale clinical trials and allow the testing of combination therapies.

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Year:  2005        PMID: 15738982     DOI: 10.1038/nrc1565

Source DB:  PubMed          Journal:  Nat Rev Cancer        ISSN: 1474-175X            Impact factor:   60.716


  22 in total

1.  Spontaneous transformation of murine epithelial cells requires the early acquisition of specific chromosomal aneuploidies and genomic imbalances.

Authors:  Hesed M Padilla-Nash; Karen Hathcock; Nicole E McNeil; David Mack; Daniel Hoeppner; Rea Ravin; Turid Knutsen; Raluca Yonescu; Danny Wangsa; Kathleen Dorritie; Linda Barenboim; Yue Hu; Thomas Ried
Journal:  Genes Chromosomes Cancer       Date:  2011-12-08       Impact factor: 5.006

2.  Mucin-1-Antibody-Conjugated Mesoporous Silica Nanoparticles for Selective Breast Cancer Detection in a Mucin-1 Transgenic Murine Mouse Model.

Authors:  Didier Dréau; Laura Jeffords Moore; Merlis P Alvarez-Berrios; Mubin Tarannum; Pinku Mukherjee; Juan L Vivero-Escoto
Journal:  J Biomed Nanotechnol       Date:  2016-12       Impact factor: 4.099

3.  Tazarotene: randomized, double-blind, vehicle-controlled, and open-label concurrent trials for basal cell carcinoma prevention and therapy in patients with basal cell nevus syndrome.

Authors:  Jean Y Tang; Albert S Chiou; Julian M Mackay-Wiggan; Michelle Aszterbaum; Anita M Chanana; Wayne Lee; Joselyn A Lindgren; Maria Acosta Raphael; Bobbye J Thompson; David R Bickers; Ervin H Epstein
Journal:  Cancer Prev Res (Phila)       Date:  2014-01-17

4.  p53 cooperates with DNA methylation and a suicidal interferon response to maintain epigenetic silencing of repeats and noncoding RNAs.

Authors:  Katerina I Leonova; Leonid Brodsky; Brittany Lipchick; Mahadeb Pal; Liliya Novototskaya; Alex A Chenchik; Ganes C Sen; Elena A Komarova; Andrei V Gudkov
Journal:  Proc Natl Acad Sci U S A       Date:  2012-12-10       Impact factor: 11.205

Review 5.  Optimizing mouse models for precision cancer prevention.

Authors:  Clémentine Le Magnen; Aditya Dutta; Cory Abate-Shen
Journal:  Nat Rev Cancer       Date:  2016-02-19       Impact factor: 60.716

6.  Mammary carcinogenesis is preceded by altered epithelial cell turnover in transforming growth factor-alpha and c-myc transgenic mice.

Authors:  Teresa A Rose-Hellekant; Kristin M Wentworth; Sarah Nikolai; Donald W Kundel; Eric P Sandgren
Journal:  Am J Pathol       Date:  2006-11       Impact factor: 4.307

Review 7.  Cancer pharmacoprevention: Targeting polyamine metabolism to manage risk factors for colon cancer.

Authors:  Eugene W Gerner; Elizabeth Bruckheimer; Alfred Cohen
Journal:  J Biol Chem       Date:  2018-10-24       Impact factor: 5.157

Review 8.  Transgenic models to study actions of prolactin in mammary neoplasia.

Authors:  Lisa M Arendt; Linda A Schuler
Journal:  J Mammary Gland Biol Neoplasia       Date:  2008-01-25       Impact factor: 2.673

Review 9.  The untapped potential of genetically engineered mouse models in chemoprevention research: opportunities and challenges.

Authors:  Cory Abate-Shen; Powel H Brown; Nancy H Colburn; Eugene W Gerner; Jeffery E Green; Martin Lipkin; William G Nelson; David Threadgill
Journal:  Cancer Prev Res (Phila)       Date:  2008-08

10.  Organotypic modelling as a means of investigating epithelial-stromal interactions during tumourigenesis.

Authors:  Athina-Myrto Chioni; Richard Grose
Journal:  Fibrogenesis Tissue Repair       Date:  2008-12-11
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