Abstract
A focus of contemporary cancer therapeutic development is the targeting of both the transformed cell and the supporting cellular microenvironment. Cell migration is a fundamental cellular behavior required for the complex interplay between multiple cell types necessary for tumor development. We therefore developed a novel retroviral-based screening technology in primary human endothelial cells to discover genes that control cell migration. We identified the receptor tyrosine kinase Axl as a novel regulator of endothelial cell haptotactic migration towards the matrix factor vitronectin. Using small interfering RNA-mediated silencing and overexpression of wild-type or mutated receptor proteins, we show that Axl is a key regulator of multiple angiogenic behaviors including endothelial cell migration, proliferation, and tube formation in vitro. Moreover, using sustained, retrovirally delivered short hairpin RNA (shRNA) Axl knockdown, we show that Axl is necessary for in vivo angiogenesis in a mouse model. Furthermore, we show that Axl is also required for human breast carcinoma cells to form a tumor in vivo. These findings indicate that Axl regulates processes vital for both neovascularization and tumorigenesis. Disruption of Axl signaling using a small-molecule inhibitor will hence simultaneously affect both the tumor and stromal cell compartments and thus represents a unique approach for cancer therapeutic development.
Highlights
Cancer is not a single-cell disease and tumor development involves complex reciprocal interactions among neoplastic, stromal, and immune cells [1]
A green fluorescent protein (GFP)-fused human umbilical vein endothelial cells (HUVEC) cDNA library was constructed in a retroviral vector
The infected, GFP-expressing cell population was enriched by fluorescence-activated cell sorting (FACS) and cells with impaired haptotactic motility towards 15 Ag/mL vitronectin were selected by three rounds of migration in a modified Boyden chamber assay
Summary
Cancer is not a single-cell disease and tumor development involves complex reciprocal interactions among neoplastic, stromal, and immune cells [1]. Cell migration is a central cellular function used by these cell types for angiogenesis, inflammation, and metastasis [2]. It is likely that inhibitors of cell migration will complement existing cancer drugs, this possibility has been relatively neglected in the search for new cancer therapeutics. Angiogenesis, a physiologic and strictly regulated process in healthy adults, is aberrantly induced by hypoxic tumors securing an adequate blood supply that feeds tumor growth and. Note: J.B. Lorens is currently at the Department of Biomedicine, University of Bergen, N-5009 Bergen, Norway
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