Abstract
The receptor for urokinase-type plasminogen activator (uPAR) plays an important role in controlling cell migration. uPAR binds urokinase and vitronectin extracellular ligands, and signals in complex with transmembrane receptors such as Formyl-peptide Receptors (FPR)s and integrins. Previous work from this laboratory has shown that synthetic peptides, corresponding to the uPAR88–92 chemotactic sequence, when carrying the S90P or S90E substitutions, up- or down-regulate cell migration, respectively. To gain mechanistic insights into these opposite cell responses, the functional consequences of S90P and S90E mutations in full-length uPAR were evaluated. First, (HEK)-293 embryonic kidney cells expressing uPARS90P exhibit enhanced FPR activation, increased random and directional cell migration, long-lasting Akt phosphorylation, and increased adhesion to vitronectin, as well as uPAR/vitronectin receptor association. In contrast, the S90E substitution prevents agonist-triggered FPR activation and internalization, decreases binding and adhesion to vitronectin, and inhibits uPAR/vitronectin receptor association. Also, 293/uPARS90P cells appear quite elongated and their cytoskeleton well organized, whereas 293/uPARS90E cells assume a large flattened morphology, with random orientation of actin filaments. Interestingly, when HT1080 cells co-express wild type uPAR with uPAR S90E, the latter behaves as a dominant-negative, impairing uPAR-mediated signaling and reducing cell wound repair as well as lung metastasis in nude mice. In contrast, signaling, wound repair and in vivo lung metastasis of HT1080 cells bearing wild type uPAR are enhanced when they co-express uPARS90P. In conclusion, our findings indicate that Ser90 is a critical residue for uPAR signaling and that the S90P and S90E exert opposite effects on uPAR activities. These findings may be accommodated in a molecular model, in which uPARS90E and uPARS90P are forced into inactive and active forms, respectively, suggesting important implications for the development of novel drugs targeting uPAR function.
Highlights
Cell migration is important during normal development and tissue repair, and requires a coordinated regulation of extracellular matrix proteolysis, adhesion, and signaling [1]
Opposite regulation of 293 cell responses by uPARS90E or uPARS90P variants. Previous work from this laboratory has shown that tetra- and penta-peptides derived from the uPAR88–92 chemotactic sequence (SRSRY) and carrying specific substitutions of Ser90 modulate in vitro and in vivo tumor cell migration, raising the hypothesis that mutations in Ser90 may affect receptor conformation and function [27,28]
The open form could be favoured in the uPARS90E variant, while the closed form could be favoured in the uPARS90P variants
Summary
Cell migration is important during normal development and tissue repair, and requires a coordinated regulation of extracellular matrix proteolysis, adhesion, and signaling [1]. The receptor for urokinase-type plasminogen activator (uPAR) plays an important role in controlling cell migration [3,4]. Besides being responsible for focalizing uPA-mediated plasminogen activation on cell surfaces [7,8], uPAR promotes intracellular signalling, regulating physiological processes such as wound healing, immune responses and stem cell mobilization, as well as pathological conditions such as inflammation and tumor progression [9,10,11,12]. The uPAR/Vn interaction stimulates signaling, leading to cytoskeletal rearrangements and cell migration [14,15,16,17]. The link between the uPA/ uPAR system and Vn receptors (VnR)s is further supported by the ability of uPA to directly interact with avb VnR, suggesting a bridging of uPAR and avb mediated by uPA [18]
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