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Abstract
Extracellular matrix remodeling within the tumor microenvironment has been recognized as a relevant dynamic framework during tumor growth. However, research on proteases that trigger this remodeling keeps revealing a wide range of actions including both pro- and anti-tumorigenic. The extracellular protease ADAMTS1 exemplifies this dual role. In this work, we first confirmed a positive correlation of ADAMTS1 with endothelial-like phenotype of human melanoma cells together with the finding of associated signatures, including key genes such as endothelial CDH5. Using a CRISPR-Cas9 approach, we observed that the inhibition of ADAMTS1 in an aggressive uveal melanoma model compromised its endothelial-like properties, and more importantly, caused a robust blockade on the progression of tumor xenografts. Although vasculature emerged affected in ADAMTS1-deficient tumors, the most relevant action implied the downregulation of endothelial CDH5 in tumor cells, in association with stemness markers. Indeed, melanoma sphere assays also revealed a deficient commitment to form spheres in the absence of ADAMTS1, directly correlating with stemness markers and, remarkably, also with CDH5. Finally, taking advantage of advanced bioinformatics tools and available public data of uveal melanomas, we disclosed new prognosis factors, including endothelial elements and ADAMTS proteases. Our findings support the key role of ADAMTS proteases for uveal melanoma development since earlier stages, modulating the complex crosstalk between extracellular matrix and the induction of stemness and endothelial-like features. To our knowledge, this is the first report that supports the development of therapeutic targets on the extracellular matrix to overcome uveal melanoma.
Highlights
The tumor microenvironment (TME) has been highlighted as a key player during tumor development, providing specific signals that support cell invasion, proliferation and phenotypic plasticity [1]
We evaluated ADAMTS1 gene expression in all cell lines (Figure 1b and Figure S1a), observing that its expression was significantly higher in EL+ cell lines compared with EL− ones (Figure 1c)
Within the upregulated group we found relevant endothelial-related genes (e.g., CDH5 [VE-cadherin], TFPI and THBD), which were linked with extracellular matrix (ECM) remodeling (e.g., NID1) in our models
Summary
The tumor microenvironment (TME) has been highlighted as a key player during tumor development, providing specific signals that support cell invasion, proliferation and phenotypic plasticity [1]. Cancers 2020, 12, 801 has been widely acknowledged in different tumor types [3] Among these proteases, studies on ADAMTS1, first member of the ADAMTS (A Disintegrin And Metalloprotease with ThromboSpondin motifs) family [4], underlined its tumor suppressive [5,6] and its protumorigenic properties [7,8,9], including its key contribution for the acquisition of an endothelial-like (EL) phenotype [10] or its competences to modulate the immune response [11]. Similar attributes have been reported to further ADAMTS members [12], recognizing the necessary commitment to know better the nature of ADAMTS-mediated actions that concern the modulation of phenotypic properties of cancer cells
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