Influence of Macrophages on Vascular Invasion of Inflammatory Breast Cancer Emboli Measured Using an In Vitro Microfluidic Multi-Cellular Platform

Manasa Gadde, Melika Mehrabi-Dehdezi, Bisrat G. Debeb, Wendy A. Woodward, Marissa Nichole Rylander

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

Inflammatory breast cancer (IBC) is an aggressive disease with a poor prognosis and a lack of effective treatments. It is widely established that understanding the interactions between tumor-associated macrophages (TAMs) and the tumor microenvironment is essential for identifying distinct targeting markers that help with prognosis and subsequent development of effective treatments. In this study, we present a 3D in vitro microfluidic IBC platform consisting of THP1 M0, M1, or M2 macrophages, IBC cells, and endothelial cells. The platform comprises a collagen matrix that includes an endothelialized vessel, creating a physiologically relevant environment for cellular interactions. Through the utilization of this platform, it was discovered that the inclusion of tumor-associated macrophages (TAMs) led to an increase in the formation of new blood vessel sprouts and enhanced permeability of the endothelium, regardless of the macrophage phenotype. Interestingly, the platforms containing THP-1 M1 or M2 macrophages exhibited significantly greater porosity in the collagen extracellular matrix (ECM) compared to the platforms containing THP-1 M0 and the MDA-IBC3 cells alone. Cytokine analysis revealed that IL-8 and MMP9 showed selective increases when macrophages were cultured in the platforms. Notably, intravasation of tumor cells into the vessels was observed exclusively in the platform containing MDA-IBC3 and M0 macrophages.

Original languageEnglish (US)
Article number4883
JournalCancers
Volume15
Issue number19
DOIs
StatePublished - Oct 2023

Keywords

  • angiogenesis
  • extravasation
  • inflammatory breast cancer
  • intravasation
  • lymphangiogenesis
  • MDA-IBC3
  • tumor-associated macrophages
  • vasculature

ASJC Scopus subject areas

  • Oncology
  • Cancer Research

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