Jack D. DeGroot scite author profile

Understanding the signaling pathways that drive aggressive breast cancers is critical to the development of effective therapeutics. The oncogene MET is associated with decreased survival in breast cancer, yet the role that MET plays in the various breast cancer subtypes is unclear. We describe a knockin mouse with mutationally activated Met (Met mut ) that develops a high incidence of diverse mammary tumors with basal characteristics, including metaplasia, absence of progesterone receptor and ERBB2 expression, and expression of cytokeratin 5. With gene expression and tissue microarray analysis, we show that high MET expression in human breast cancers significantly correlated with estrogen receptor negative/ERBB2 negative tumors and with basal breast cancers. Few treatment options exist for breast cancers of the basal or trastuzumab-resistant ERBB2 subtypes. We conclude from these studies that MET may play a critical role in the development of the most aggressive breast cancers and may be a rational therapeutic target.ErbB2 ͉ mouse model

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Germline Met Mutations in Mice Reveal Mutation- and Background-Associated Differences in Tumor Profiles

Graveel

DeGroot

Sigler

et al. 2010

PLoS ONE

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BackgroundThe receptor tyrosine kinase Met is involved in the progression and metastasis of numerous human cancers. Although overexpression and autocrine activation of the Met signaling pathway are commonly found in human cancers, mutational activation of Met has been observed in small cell and non-small cell lung cancers, lung adenocarcinomas, renal carcinomas, and mesotheliomas.Methodology/Principal FindingsTo investigate the influence of mutationally activated Met in tumorigenesis, we utilized a novel mouse model. Previously, we observed that various Met mutations developed unique mutation-specific tumor spectra on a C57BL/6 background. Here, we assessed the effect of genetic background on the tumorigenic potential of mutationally activated Met. For this purpose, we created congenic knock-in lines of the Met mutations D1226N, M1248T, and Y1228C on the FVB/N background. Consistent with the mutation-specific tumor spectra, several of the mutations were associated with the same tumor types as observed on C57BL/6 background. However, on the FVB/N background most developed a high incidence of mammary carcinomas with diverse histopathologies.Conclusions/SignificanceThis study demonstrates that on two distinct mouse backgrounds, Met is able to initiate tumorigenesis in multiple cell types, including epithelial, hematopoietic, and endothelial. Furthermore, these observations emphasize that even a modest increase in Met activation can initiate tumorigenesis with both the Met mutational spectra and host background having profound influence on the type of tumor generated. Greater insight into the interaction of genetic modifiers and Met signaling will significantly enhance our ability to tailor combination therapies for Met-driven cancers.

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Abstract 3256: Investigating the intrinsic signaling differences in MET- and ERBB2-driven breast cancers

Graveel

DeGroot

Dykema

et al. 2010

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Understanding the signaling pathways that drive aggressive breast cancers is critical to the development of effective therapeutics. Over 20% of breast cancers overexpress ERBB2 and are associated with an aggressive tumor phenotype and poor outcome. Patients with ERBB2-positive tumors are often treated with the humanized monoclonal antibody trastuzumab, yet the majority of patients develop resistance. Recent studies show that the receptor tyrosine kinase MET is expressed in ERBB2 positive tumors and contributes to trastuzumab resistance in ERBB2-expressing cell lines. Other studies have shown that MET correlates with poor clinical outcome independent of ERBB2. We are utilizing mouse models to examine the intrinsic signaling differences between MET and ERBB2-mediated breast cancers. We have developed a novel mouse model of mutationally activated MET (Metmut) that develops a high incidence of diverse mammary tumors with basal characteristics. Using this mouse model and human breast cancer tissue, we have examined the role of MET in aggressive breast cancers. By gene expression and tissue microarray analysis, we observe that high MET expression in human breast cancers significantly correlates with estrogen receptor negative/ERBB2 negative tumors and with basal breast cancers (Graveel et al., 2009). We performed gene expression analysis on mammary tumors from Metmut mice and activated ErbB2 (Neu-Ndl2-5) mice. Unsupervised hierarchical analysis revealed that solid Metmut tumors clustered separately from Metmut tumors with a mixed pathology and that solid Metmut tumors have expression patterns very similar to ERBB2 tumors. The similarity of solid Metmut tumors to ErbB2 tumors suggests that MET signaling may be influential in ERBB2-driven tumors. To investigate this hypothesis further, we performed a parametric gene set enrichment analysis (PGSEA) and observed that the Ras activation signature was significantly associated with the Metmut mixed tumors. Currently, we are also investigating expression patterns of MET and ERBB2 in human breast cancers by coimmunostaining. Collectively, our studies indicate that MET may play a critical role in the development of the most aggressive breast cancers and may be a rational therapeutic target for trastuzumab-resistant ERBB2 breast cancers. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 3256.

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Jack D. DeGroot

Met induces diverse mammary carcinomas in mice and is associated with human basal breast cancer

Germline Met Mutations in Mice Reveal Mutation- and Background-Associated Differences in Tumor Profiles

Abstract 3256: Investigating the intrinsic signaling differences in MET- and ERBB2-driven breast cancers

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