The Dynamic Relationship of Breast Cancer Cells and Fibroblasts in Fibronectin Accumulation at Primary and Metastatic Tumor Sites.

Sarah Libring,Monica K Chanda,Ammara Abdullah,Tamara L Kinzer-Ursem,Aya M Saleh,Maryam Nuru,Aparna Shinde,Michael K Wendt,Heather George,Sarah Calve,Luis Solorio

doi:10.3390/cancers12051270

Sarah Libring, Monica K Chanda + Show 9 more

Open Access

https://doi.org/10.3390/cancers12051270

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Abstract

In breast cancer (BC), tissue stiffening via fibronectin (FN) and collagen accumulation is associated with advanced disease progression at both the primary tumor and metastatic sites. Here, we evaluate FN production in 15 BC cell lines, representing a variety of subtypes, phenotypes, metastatic potentials, and chemotherapeutic sensitivities. We demonstrate that intracellular and soluble FN is initially lost during tumorigenic transformation but is rescued in all lines with epithelial-mesenchymal plasticity (EMP). Importantly, we establish that no BC cell line was able to independently organize a robust FN matrix. Non-transformed mammary epithelial cells were also unable to deposit FN matrices unless transglutaminase 2, a FN crosslinking enzyme, was overexpressed. Instead, BC cells manipulated the FN matrix production of fibroblasts in a phenotypic-dependent manner. In addition, varied accumulation levels were seen depending if the fibroblasts were conditioned to model paracrine signaling or endocrine signaling of the metastatic niche. In the former, fibroblasts conditioned by BC cultures with high EMP resulted in the largest FN matrix accumulation. In contrast, mesenchymal BC cells produced extracellular vesicles (EV) that resulted in the highest levels of matrix formation by conditioned fibroblasts. Overall, we demonstrate a dynamic relationship between tumor and stromal cells within the tumor microenvironment, in which the levels and fibrillarization of FN in the extracellular matrix are modulated during the particular stages of disease progression.

Highlights

Breast cancer (BC) is the most frequently diagnosed cancer among females and the second leading cause of cancer deaths [1]
We recently demonstrated that conditioning pulmonary fibroblasts with extracellular vesicles (EV) from breast cancer (BC) cells could drastically alter the subsequent growth of epithelial BC cells in a FN-dependent manner [14]
Small differences were quantified in thoracic luminescence levels from day 15, but overt metastases were not seen in any mice until day 20, and not consistently until day

Summary

Introduction

Breast cancer (BC) is the most frequently diagnosed cancer among females and the second leading cause of cancer deaths [1]. Distinct changes occur in the extracellular matrix (ECM) architecture and biochemical composition, which facilitate primary tumor growth and successful metastasis [3,4]. FN and collagen fibrils accumulate as the tumor develops, which causes an increase in tissue stiffness. This matrix stiffness promotes proliferation, increases tumor cell aggressiveness, and is believed to bolster the number of cancer stem cells [4,7]. Recent research has indicated that FN and collagen fibrils accumulate parallel to the primary tumor border during premetastatic growth. In invasive tumors, these fibrils realign perpendicular to the tumor border, acting as “tracks” for tumor cell migration through the basement membrane [7,8,9]

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