Role of c-Met/β1 integrin complex in the metastatic cascade in breast cancer
Darryl Lau, … , Arman Jahangiri, Manish K. Aghi
Darryl Lau, … , Arman Jahangiri, Manish K. Aghi
Published May 18, 2021
Citation Information: JCI Insight. 2021;6(12):e138928. https://doi.org/10.1172/jci.insight.138928.
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Research Article Oncology

Role of c-Met/β1 integrin complex in the metastatic cascade in breast cancer

Abstract

Metastases cause 90% of human cancer deaths. The metastatic cascade involves local invasion, intravasation, extravasation, metastatic site colonization, and proliferation. Although individual mediators of these processes have been investigated, interactions between these mediators remain less well defined. We previously identified a complex between receptor tyrosine kinase c-Met and β1 integrin in metastases. Using cell culture and in vivo assays, we found that c-Met/β1 complex induction promoted intravasation and vessel wall adhesion in triple-negative breast cancer cells, but did not increase extravasation. These effects may have been driven by the ability of the c-Met/β1 complex to increase mesenchymal and stem cell characteristics. Multiplex transcriptomic analysis revealed upregulated Wnt and hedgehog pathways after c-Met/β1 complex induction. A β1 integrin point mutation that prevented binding to c-Met reduced intravasation. OS2966, a therapeutic antibody disrupting c-Met/β1 binding, decreased breast cancer cell invasion and mesenchymal gene expression. Bone-seeking breast cancer cells exhibited higher levels of c-Met/β1 complex than parental controls and preferentially adhered to tissue-specific matrix. Patient bone metastases demonstrated higher c-Met/β1 complex than brain metastases. Thus, the c-Met/β1 complex drove intravasation of triple-negative breast cancer cells and preferential affinity for bone-specific matrix. Pharmacological targeting of the complex may have prevented metastases, particularly osseous metastases.

Authors

Darryl Lau, Harsh Wadhwa, Sweta Sudhir, Alexander Chih-Chieh Chang, Saket Jain, Ankush Chandra, Alan T. Nguyen, Jordan M. Spatz, Ananya Pappu, Sumedh S. Shah, Justin Cheng, Michael M. Safaee, Garima Yagnik, Arman Jahangiri, Manish K. Aghi

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Figure 2

c-Met/β1 complex promotes intravasation of breast cancer cells.

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c-Met/β1 complex promotes intravasation of breast cancer cells. (A) Sche...
(A) Schema showing setup for cell culture assays that model breast cancer cell intravasation into circulation and extravasation out of circulation. In these assays, Matrigel and a HUVEC monolayer are plated in orientation that allows modeling of intravasation of cancer cells into circulation and extravasation of cancer cells out of circulation. Induction of c-Met/β1 complex formation in MDA-MB-231-iDimerize-c-Met-β1 cells with AP21967 treatment increased (B) intravasation in the cell culture intravasation assay (n = 3/group; scatter dot plot with horizontal line at mean and vertical line representing SD; P = 0.003; unpaired t test) and (C) adhesion of breast cancer cells to endothelial cells in cell culture (n = 9/group; whiskers = minimum/maximum; box from 25th to 75th percentile with horizontal line at median; P = 0.004; unpaired t test). (D) Mammosphere conditioned media (MCM) increased intravasation of MDA-MB-231 breast cancer cells (n = 9/group; whiskers = minimum/maximum; box from 25th to 75th percentile with horizontal line at median; P = 0.0098; unpaired t test). Bevacizumab increased (E) the expression of several cancer signaling pathway genes, including Wnt and hedgehog pathway gene ZIC2 (n = 3/group; scatter dot plot with horizontal line at mean and vertical line representing SD; P = 0.003; unpaired t test) and (F) intravasation of MDA-MB-231 breast cancer cells (n = 8/group; whiskers = minimum/maximum; box from 25th to 75th percentile with horizontal line at median; P < 0.001). Scale bars: 20 μm. *P < 0.05; **P < 0.01; ***P < 0.001.