Abstract
Mesenchymal stromal cells (MSCs) are key contributors of the tumour microenvironment and are known to promote cancer progression through reciprocal communication with cancer cells, but how they become activated is not fully understood. Here, we investigate how breast cancer cells from different stages of the metastatic cascade convert MSCs into tumour-associated MSCs (TA-MSCs) using unbiased, global approaches. Using mass spectrometry, we compared the secretomes of MCF-7 cells, invasive MDA-MB-231 cells, and sublines isolated from bone, lung, and brain metastases and identified ECM and exosome components associated with invasion and organ-specific metastasis. Next, we used synthetic hydrogels to investigate how these different secretomes activate MSCs in bioengineered 3D microenvironments. Using kinase activity profiling and RNA sequencing, we found that only MDA-MB-231 breast cancer secretomes convert MSCs into TA-MSCs, resulting in an immunomodulatory phenotype that was particularly prominent in response to bone-tropic cancer cells. We have investigated paracrine signalling from breast cancer cells to TA-MSCs in 3D, which may highlight new potential targets for anticancer therapy approaches aimed at targeting tumour stroma.
Highlights
Breast cancer is the most common type of cancer in women, accounting for 30% of cancer cases globally
To investigate whether Mesenchymal stromal cells (MSCs) activation occurs in an organ-specific manner during metastasis, we used MDA-MB-231 sublines derived from organ-specific metastases (MDA-Bone, MDA-Lung, and MDA-Brain)
We extracted ECM and secreted proteins reported in the human matrisome database [33] and found that 23 ECM proteins were higher in the MDA-WT secretome, whereas only five were higher in the MCF-7 secretome (Fig 1D), which could be attributed to the different EMT statuses that MDAWT and MCF-7 have
Summary
Breast cancer is the most common type of cancer in women, accounting for 30% of cancer cases globally. TA-MSCs assist cancer progression by promoting metastasis, tumour vascularisation, and immunosuppressive conditions [7, 8, 9, 10, 11]. TA-MSCs have been show to promote breast cancer cell malignancy [12, 13, 14] and contribute to cancer cell resistance to chemotherapy [15]. TA-MSCs and their derived factors are considered as emerging targets for novel anticancer therapies [16]. In this regard, several agents targeting tumour stroma are in clinical trials (reviewed in reference [15])
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