Characterization of Breast Cancer Preclinical Models Reveals a Specific Pattern of Macrophage Polarization

David Vallerand,Stefan Weigand,Ariel Savina,Gérald Massonnet,Suzy Scholl,Sandrine Humbert,Sergio Roman-Roman,Ludmilla De Plater,David Gentien,Didier Decaudin,André Nicolas,Franck Assayag,Aurélie Thuleau,Pierre De La Grange,Zofia Maciorowski,Elisabetta Marangoni,Brigitte Sigal‐Zafrani ,Matthew Richardson ,F Z El Kébir

doi:10.1371/journal.pone.0157670

Abstract

Drug discovery efforts have focused on the tumor microenvironment in recent years. However, few studies have characterized the stroma component in patient-derived xenografts (PDXs) and genetically engineered mouse models (GEMs). In this study, we characterized the stroma in various models of breast cancer tumors in mice. We performed transcriptomic and flow cytometry analyses on murine populations for a series of 25 PDXs and the two most commonly used GEMs (MMTV-PyMT and MMTV-erBb2). We sorted macrophages from five models. We then profiled gene expression in these cells, which were also subjected to flow cytometry for phenotypic characterization. Hematopoietic cell composition, mostly macrophages and granulocytes, differed between tumors. Macrophages had a specific polarization phenotype related to their M1/M2 classification and associated with the expression of genes involved in the recruitment, invasion and metastasis processes. The heterogeneity of the stroma component of the models studied suggests that tumor cells modify their microenvironment to satisfy their needs. Our observations suggest that such models are of relevance for preclinical studies.

Highlights

ObjectivesThe first goal of this study was to investigate the heterogeneity of stromal features in breast cancer patient-derived xenografts (PDXs). The aim of this study was to characterize the tumor-associated stroma in both human and mouse breast cancer models (i.e. genetically engineered mouse models (GEMs) and PDXs), and to determine the impact of subcutaneous transplantation on stromal components in immunodeficient mice
Most preclinical studies on breast cancer (BC) to date have focused on the carcinogenesis and molecular mechanisms of this disease, including specific genetic and epigenetic alterations [1]
Strong myofibroblast infiltration and organization were observed in these models (HBCx-3/13B)

Summary

Objectives

The first goal of this study was to investigate the heterogeneity of stromal features in breast cancer PDXs. The aim of this study was to characterize the tumor-associated stroma in both human and mouse breast cancer models (i.e. GEMs and PDXs), and to determine the impact of subcutaneous transplantation on stromal components in immunodeficient mice

Methods

Results

Discussion

Conclusion