Induction of Complete Regressions of Oncogene-induced Breast Tumors in Mice | Zendy

Robert Benezra | Zendy; Erik Henke | Zendy; Alessia Ciarrocchi | Zendy; Marianna B. Ruzinova | Zendy; David B. Solit | Zendy; Neal Rosen | Zendy; Daniel J. Nolan | Zendy; Vivek Mittal | Zendy; Paola de Candia | Zendy

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Induction of Complete Regressions of Oncogene-induced Breast Tumors in Mice

Author(s) -

Robert Benezra,

Erik Henke,

Alessia Ciarrocchi,

Marianna B. Ruzinova,

David B. Solit,

Neal Rosen,

Daniel J. Nolan,

Vivek Mittal,

Paola de Candia

Publication year - 2005

Publication title -

cold spring harbor symposia on quantitative biology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.615

H-Index - 77

eISSN - 1943-4456

pISSN - 0091-7451

DOI - 10.1101/sqb.2005.70.006

Subject(s) - oncogene , breast cancer , cancer research , medicine , oncology , biology , cancer , cell cycle

Over the past decade, mouse models of cancer have come to resemble human disease much more closely than simple subcutaneous or orthotopic systems. Intervention strategies that work on these new model systems are more likely to have an impact clinically. We have shown recently that antiangiogenic stress imposed by loss of Id protein in endothelial progenitor cells results in dramatic central necrosis in breast tumors initiated in mice by overexpression of the her2/neu oncogene. Tumor cells remain viable at the periphery, perhaps via the hypoxic response pathway which allows the lesions to expand. Inhibition of this pathway by the inactivation of the Hif-1alpha chaperone Hsp90 in combination with antiangiogenic stress leads to the first reported complete regression of these aggressive breast tumors.

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