The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor

The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor

The Wnt gene family encodes an evolutionarily conserved group of proteins that regulate cell growth, differentiation and stem cell self-renewal. Aberrant Wnt signaling in human breast tumors has been proposed as a driver of tumorigenesis, especially in the basal-like tumor subtype where canonical Wn...

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Main Authors: Adam D. Pfefferle, David B. Darr, Benjamin C. Calhoun, Kevin R. Mott, Jeffrey M. Rosen, Charles M. Perou
Format: Article
Language:English
Published: The Company of Biologists 2019-07-01
Series:Disease Models & Mechanisms
Subjects:
Breast cancer
MMTV-Wnt1
Genetically engineered mouse model
EGFR inhibitor
Online Access:http://dmm.biologists.org/content/12/7/dmm037192
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spelling doaj-4c2b28fb57054d238bc8310ef5f5f3b22020-11-25T01:48:02ZengThe Company of BiologistsDisease Models & Mechanisms1754-84031754-84112019-07-0112710.1242/dmm.037192037192The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitorAdam D. Pfefferle0David B. Darr1Benjamin C. Calhoun2Kevin R. Mott3Jeffrey M. Rosen4Charles M. Perou5 Department of Pathology and Laboratory Medicine, University of North Carolina, Chapel Hill, NC 27599, USA Lineberger Comprehensive Cancer Center, University of North Carolina, Chapel Hill, NC 27599, USA Department of Pathology and Laboratory Medicine, University of North Carolina, Chapel Hill, NC 27599, USA Lineberger Comprehensive Cancer Center, University of North Carolina, Chapel Hill, NC 27599, USA Department of Molecular and Cellular Biology, Baylor College of Medicine, Houston, TX 77030, USA Department of Pathology and Laboratory Medicine, University of North Carolina, Chapel Hill, NC 27599, USA The Wnt gene family encodes an evolutionarily conserved group of proteins that regulate cell growth, differentiation and stem cell self-renewal. Aberrant Wnt signaling in human breast tumors has been proposed as a driver of tumorigenesis, especially in the basal-like tumor subtype where canonical Wnt signaling is both enriched and predictive of poor clinical outcomes. The development of effective Wnt-based therapeutics, however, has been slowed in part by a limited understanding of the context-dependent nature with which these aberrations influence breast tumorigenesis. We previously reported that MMTV-Wnt1 mice, an established model for studying Wnt signaling in breast tumors, develop two subtypes of tumors by gene expression classification: Wnt1-EarlyEx and Wnt1-LateEx. Here, we extend this initial observation and show that Wnt1-EarlyEx tumors exhibit high expression of canonical Wnt, non-canonical Wnt, and EGFR signaling pathway signatures. Therapeutically, Wnt1-EarlyEx tumors showed a dynamic reduction in tumor volume when treated with an EGFR inhibitor. Wnt1-EarlyEx tumors had primarily Cd49fpos/Epcamneg FACS profiles, but it was not possible to serially transplant these tumors into wild-type FVB female mice. Conversely, Wnt1-LateEx tumors had a bloody gross pathology, which was highlighted by the presence of ‘blood lakes’ identified by H&E staining. These tumors had primarily Cd49fpos/Epcampos FACS profiles, but also contained a secondary Cd49fpos/Epcamneg subpopulation. Wnt1-LateEx tumors were enriched for activating Hras1 mutations and were capable of reproducing tumors when serially transplanted into wild-type FVB female mice. This study definitively shows that the MMTV-Wnt1 mouse model produces two phenotypically distinct subtypes of mammary tumors that differ in multiple biological aspects including sensitivity to an EGFR inhibitor.http://dmm.biologists.org/content/12/7/dmm037192Breast cancerMMTV-Wnt1Genetically engineered mouse modelEGFR inhibitor
collection DOAJ
language English
format Article
sources DOAJ
author Adam D. Pfefferle
David B. Darr
Benjamin C. Calhoun
Kevin R. Mott
Jeffrey M. Rosen
Charles M. Perou
spellingShingle Adam D. Pfefferle
David B. Darr
Benjamin C. Calhoun
Kevin R. Mott
Jeffrey M. Rosen
Charles M. Perou
The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor
Disease Models & Mechanisms
Breast cancer
MMTV-Wnt1
Genetically engineered mouse model
EGFR inhibitor
author_facet Adam D. Pfefferle
David B. Darr
Benjamin C. Calhoun
Kevin R. Mott
Jeffrey M. Rosen
Charles M. Perou
author_sort Adam D. Pfefferle
title The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor
title_short The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor
title_full The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor
title_fullStr The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor
title_full_unstemmed The MMTV-Wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an EGFR inhibitor
title_sort mmtv-wnt1 murine model produces two phenotypically distinct subtypes of mammary tumors with unique therapeutic responses to an egfr inhibitor
publisher The Company of Biologists
series Disease Models & Mechanisms
issn 1754-8403
1754-8411
publishDate 2019-07-01
description The Wnt gene family encodes an evolutionarily conserved group of proteins that regulate cell growth, differentiation and stem cell self-renewal. Aberrant Wnt signaling in human breast tumors has been proposed as a driver of tumorigenesis, especially in the basal-like tumor subtype where canonical Wnt signaling is both enriched and predictive of poor clinical outcomes. The development of effective Wnt-based therapeutics, however, has been slowed in part by a limited understanding of the context-dependent nature with which these aberrations influence breast tumorigenesis. We previously reported that MMTV-Wnt1 mice, an established model for studying Wnt signaling in breast tumors, develop two subtypes of tumors by gene expression classification: Wnt1-EarlyEx and Wnt1-LateEx. Here, we extend this initial observation and show that Wnt1-EarlyEx tumors exhibit high expression of canonical Wnt, non-canonical Wnt, and EGFR signaling pathway signatures. Therapeutically, Wnt1-EarlyEx tumors showed a dynamic reduction in tumor volume when treated with an EGFR inhibitor. Wnt1-EarlyEx tumors had primarily Cd49fpos/Epcamneg FACS profiles, but it was not possible to serially transplant these tumors into wild-type FVB female mice. Conversely, Wnt1-LateEx tumors had a bloody gross pathology, which was highlighted by the presence of ‘blood lakes’ identified by H&E staining. These tumors had primarily Cd49fpos/Epcampos FACS profiles, but also contained a secondary Cd49fpos/Epcamneg subpopulation. Wnt1-LateEx tumors were enriched for activating Hras1 mutations and were capable of reproducing tumors when serially transplanted into wild-type FVB female mice. This study definitively shows that the MMTV-Wnt1 mouse model produces two phenotypically distinct subtypes of mammary tumors that differ in multiple biological aspects including sensitivity to an EGFR inhibitor.
topic Breast cancer
MMTV-Wnt1
Genetically engineered mouse model
EGFR inhibitor
url http://dmm.biologists.org/content/12/7/dmm037192
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