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Met induces mammary tumors with diverse histologies and is associated with poor outcome and human basal breast cancer.


ABSTRACT: Elevated MET receptor tyrosine kinase correlates with poor outcome in breast cancer, yet the reasons for this are poorly understood. We thus generated a transgenic mouse model targeting expression of an oncogenic Met receptor (Met(mt)) to the mammary epithelium. We show that Met(mt) induces mammary tumors with multiple phenotypes. These reflect tumor subtypes with gene expression and immunostaining profiles sharing similarities to human basal and luminal breast cancers. Within the basal subtype, Met(mt) induces tumors with signatures of WNT and epithelial to mesenchymal transition (EMT). Among human breast cancers, MET is primarily elevated in basal and ERBB2-positive subtypes with poor prognosis, and we show that MET, together with EMT marker, SNAIL, are highly predictive of poor prognosis in lymph node-negative patients. By generating a unique mouse model in which the Met receptor tyrosine kinase is expressed in the mammary epithelium, along with the examination of MET expression in human breast cancer, we have established a specific link between MET and basal breast cancer. This work identifies basal breast cancers and, additionally, poor-outcome breast cancers, as those that may benefit from anti-MET receptor therapies.

SUBMITTER: Ponzo MG 

PROVIDER: S-EPMC2722321 | biostudies-literature | 2009 Aug

REPOSITORIES: biostudies-literature

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Met induces mammary tumors with diverse histologies and is associated with poor outcome and human basal breast cancer.

Ponzo Marisa G MG   Lesurf Robert R   Petkiewicz Stephanie S   O'Malley Frances P FP   Pinnaduwage Dushanthi D   Andrulis Irene L IL   Bull Shelley B SB   Chughtai Naila N   Zuo Dongmei D   Souleimanova Margarita M   Germain David D   Omeroglu Atilla A   Cardiff Robert D RD   Hallett Michael M   Park Morag M  

Proceedings of the National Academy of Sciences of the United States of America 20090717 31


Elevated MET receptor tyrosine kinase correlates with poor outcome in breast cancer, yet the reasons for this are poorly understood. We thus generated a transgenic mouse model targeting expression of an oncogenic Met receptor (Met(mt)) to the mammary epithelium. We show that Met(mt) induces mammary tumors with multiple phenotypes. These reflect tumor subtypes with gene expression and immunostaining profiles sharing similarities to human basal and luminal breast cancers. Within the basal subtype,  ...[more]

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