RON ( MST1R) and HGFL ( MST1) Co-Overexpression Supports Breast Tumorigenesis through Autocrine and Paracrine Cellular Crosstalk
- Cancers (Basel). 2022 May 19;14(10):2493. doi: 10.3390/cancers14102493.
- 1. Department of Cancer Biology, University of Cincinnati College of Medicine, Cincinnati, OH 45267, USA.
- 2. Research Service, Cincinnati Veterans Affairs Medical Center, Cincinnati, OH 45220, USA.
Background: Aberrant RON signaling is present in numerous cancers including breast Cancer. Evidence suggests that the ligand, hepatocyte growth factor-like (HGFL), is also overexpressed in breast Cancer. RON (MST1R) and HGFL (MST1) genes are located on human chromosome 3 and mouse chromosome 9 respectively and are found near each Other in both species. Based on co-expression patterns, we posited that RON and HGFL are co-regulated and that coordinate upregulation drives aggressive tumorigenesis.
Methods: Mouse models were used to establish the functional significance of RON and HGFL co-overexpression on the activation of tumor cells and tumor-associated macrophages in breast Cancer. TCGA and METABRIC gene expression and alteration data were used to query the relationships between MST1R and MST1 in breast Cancer.
Results: In tumor models, physiologic sources of HGFL modestly improve Arginase-1+ (M2) macrophage recruitment to the tumor proper. Tumor-cell produced HGFL functions in autocrine to sustain tumor cell RON activation and MAPK-dependent secretion of chemotactic factors and in paracrine to activate RON on macrophages and to promote breast Cancer stem cell self-renewal. In silico analyses support that RON and HGFL are co-expressed across virtually all Cancer types including breast Cancer and that common genomic alterations do not appear to be drivers of RON/HGFL co-overexpression.
Conclusions: Co-overexpression of RON and HGFL in breast Cancer cells (augmented by physiologic sources of HGFL) promotes tumorigenesis through autocrine-mediated RON activation/RON-dependent secretome changes and paracrine activation of macrophage RON to promote breast Cancer stem cell self-renewal.
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