A three-dimensional co-culture system to investigate macrophage-dependent tumor cell invasion

Amy R. Dwyer, Lesley G. Ellies, Andrea L Holme, Fiona J. Pixley*

*Corresponding author for this work

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Macrophages infiltrate cancers and promote progression to invasion and metastasis. To directly examine tumor-associated macrophages (TAMs) and tumor cells interacting and co-migrating in a three-dimensional (3D) environment, we have developed a co-culture model that uses a PyVmT mouse mammary tumor-derived cell line and mouse bone marrow-derived macrophages (BMM). The Py8119 cell line was cloned from a spontaneous mammary tumor in a Tg(MMTV:LTR-PyVmT) C57Bl/6 mouse and these cells form 3-dimensional (3D) spheroids under conditions of low adhesion. Co-cultured BMM infiltrate the Py8119 mammospheres and embedding of the infiltrated mammospheres in Matrigel leads to subsequent invasion of both cell types into the surrounding matrix. This physiologically relevant co-culture model enables examination of two critical steps in the promotion of invasion and metastasis by BMM: 1) macrophage infiltration into the mammosphere and, 2) subsequent invasion of macrophages and tumor cells into the matrix. Our methodology allows for quantification of BMM infiltration rates into Py8119 mammospheres and demonstrates that subsequent tumor cell invasion is dependent upon the presence of infiltrated macrophages. This method is also effective for screening macrophage motility inhibitors. Thus, we have developed a robust 3D in vitro co-culture assay that demonstrates a central role for macrophage motility in the promotion of tumor cell invasion.

Original languageEnglish
Article numbere49
Number of pages10
JournalJournal of biological methods
Issue number3
Early online date24 Jul 2016
Publication statusPublished - 2016

Bibliographical note

Acknowledgments: This work was supported by funding from the Cancer Council of
Western Australia. ARD is a holder of an Australian Postgraduate Award from the University of Western Australia. The authors acknowledge the facilities, and the scientific and technical assistance of the Australian Microscopy & Microanalysis Research Facility at the Centre for Microscopy, Characterisation & Analysis, The University of Western Australia, a facility funded by the University, State and Commonwealth Governments. We also thank Dr. Richard Stanley for the kind gift of
CSF-1 and Gilead Sciences for providing GS-1101.


  • macrophage
  • motility
  • 3D co-culture
  • invasion
  • mammosphere


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