Abstract
Extracellular matrix (ECM) components form a dynamic network of key importance for cell function and properties. Key macromolecules in this interplay are syndecans (SDCs), a family of transmembrane heparan sulfate proteoglycans (HSPGs). Specifically, heparan sulfate (HS) chains with their different sulfation pattern have the ability to interact with growth factors and their receptors in tumor microenvironment, promoting the activation of different signaling cascades that regulate tumor cell behavior. The affinity of HS chains with ligands is altered during malignant conditions because of the modification of chain sequence/sulfation pattern. Furthermore, matrix degradation enzymes derived from the tumor itself or the tumor microenvironment, like heparanase and matrix metalloproteinases, ADAM as well as ADAMTS are involved in the cleavage of SDCs ectodomain at the HS and protein core level, respectively. Such released soluble SDCs “shed SDCs” in the ECM interact in an autocrine or paracrine manner with the tumor or/and stromal cells. Shed SDCs, upon binding to several matrix effectors, such as growth factors, chemokines, and cytokines, have the ability to act as competitive inhibitors for membrane proteoglycans, and modulate the inflammatory microenvironment of cancer cells. It is notable that SDCs and their soluble counterparts may affect either the behavior of cancer cells and/or their microenvironment during cancer progression. The importance of these molecules has been highlighted since HSPGs have been proposed as prognostic markers of solid tumors and hematopoietic malignancies. Going a step further down the line, the multi-actions of SDCs in many levels make them appealing as potential pharmacological targets, either by targeting directly the tumor or indirectly the adjacent stroma.
Highlights
SYNDECANS AS CELL SURFACE MEDIATORS IN CANCER BIOLOGYFUNCTIONS MEDIATED BY SYNDECANS–Extracellular matrix (ECM) INTERACTIONS Syndecans exhibit a great variety in their localization and function and as a result, they are considered as key regulators of tumorigenesis and tumor progression [27]
Extracellular matrix (ECM) components form a dynamic network of key importance for cell function and properties
FUNCTIONS MEDIATED BY SYNDECANS–ECM INTERACTIONS Syndecans exhibit a great variety in their localization and function and as a result, they are considered as key regulators of tumorigenesis and tumor progression [27]
Summary
FUNCTIONS MEDIATED BY SYNDECANS–ECM INTERACTIONS Syndecans exhibit a great variety in their localization and function and as a result, they are considered as key regulators of tumorigenesis and tumor progression [27]. The heparinbinding motifs of ECM macromolecules are responsible for SDCs– matrix interactions [19] Such close dynamic relations initiate signaling cascades, that in turn result in altered functional cellular properties. A peptide derived from tenascin-C, strongly activates β1-integrin functional activity through binding with SDC-4 These interactions lead to induced apoptosis selectively in hematopoietic tumor cells, which express adequate amounts of both integrin α4β1 (very late antigen-4, VLA-4) and SDC-4, driving FN-mediated effects [83]. It is clearly stated in the literature that HS chains of SDC-1 in premalignant epithelial cells interact with both FGFR-1 and -2 signaling complexes and this interaction is directly associated with the progression of malignancy [96]. In melanoma cell lines the expression of Frontiers in Oncology | Molecular and Cellular Oncology
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