DACH1 Is a Cell Fate Determination Factor That Inhibits Cyclin D1 and Breast Tumor Growth
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Published:2006-10
Issue:19
Volume:26
Page:7116-7129
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ISSN:0270-7306
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Container-title:Molecular and Cellular Biology
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language:en
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Short-container-title:Mol Cell Biol
Author:
Wu Kongming1, Li Anping1, Rao Mahadev2, Liu Manran1, Dailey Vernon2, Yang Ying3, Di Vizio Dolores3, Wang Chenguang1, Lisanti Michael P.1, Sauter Guido4, Russell Robert G.2, Cvekl Ales3, Pestell Richard G.1
Affiliation:
1. Kimmel Cancer Center, Departments of Cancer Biology and Medical Oncology, 233 S. 10th Street, Bluemle Life Sciences Building, Room 1050, Philadelphia, Pennsylvania 19107 2. Lombardi Comprehensive Cancer Center, Georgetown University, Washington, D.C. 20057 3. Department of Ophthalmology, Visual Sciences and Molecular Genetics, Albert Einstein Cancer Center and College of Medicine, New York, New York 10461 4. University Medical Center Hamburg-Eppendorf, Hamburg, D-20246, Germany
Abstract
ABSTRACT
Obstacles to the expansion of cells with proliferative potential include the induction of cell death, telomere-based senescence, and the pRb and p53 tumor suppressors. Not infrequently, the molecular pathways regulating oncogenesis recapitulate aberrations of processes governing embryogenesis. The genetic network, consisting of the
dachshund
(dac),
eyes absent
(eya),
eyeless
, and
sine oculis
(so) genes, regulates cell fate determination in metazoans, with dac serving as a cointegrator through a So DNA-binding factor. Here, DACH1 inhibited oncogene-mediated breast oncogenesis, blocking breast cancer epithelial cell DNA synthesis, colony formation, growth in Matrigel, and tumor growth in mice. Genetic deletion studies demonstrated a requirement for
cyclin D1
in DACH1-mediated inhibition of DNA synthesis. DACH1 repressed cyclin D1 through a novel mechanism via a c-Jun DNA-binding partner, requiring the DACH1 α-helical DS domain which recruits corepressors to the local chromatin. Analysis of over 2,000 patients demonstrated increased nuclear DACH1 expression correlated inversely with cellular mitosis and predicted improved breast cancer patient survival. The cell fate determination factor, DACH1, arrests breast tumor proliferation and growth in vivo providing a new mechanistic and potential therapeutic insight into this common disease.
Publisher
American Society for Microbiology
Subject
Cell Biology,Molecular Biology
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