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  • A cytoplasmic C-terminal fragment of Syndecan-1 is generated by sequential proteolysis and antagonizes Syndecan-1 dependent lung tumor cell migration.

A cytoplasmic C-terminal fragment of Syndecan-1 is generated by sequential proteolysis and antagonizes Syndecan-1 dependent lung tumor cell migration.

Oncotarget (2015-09-18)
Tobias Pasqualon, Jessica Pruessmeyer, Vera Jankowski, Aaron Babendreyer, Esther Groth, Julian Schumacher, Andrea Koenen, Sarah Weidenfeld, Nicole Schwarz, Bernd Denecke, Holger Jahr, Daniela Dreymueller, Joachim Jankowski, Andreas Ludwig
ABSTRACT

Syndecan-1 is a surface expressed heparan sulphate proteoglycan, which is upregulated by several tumor types and involved in tumor cell migration and metastasis. Syndecan-1 is shed from the cell surface and the remaining transmembrane fragment undergoes intramembrane proteolysis by γ-secretase. We here show that this generates a cytoplasmic C-terminal fragment (cCTF). In epithelial lung tumor A549 cells the endogenously produced cCTF accumulated when its proteasomal degradation was blocked with bortezomib and this accumulation was prevented by γ-secretase inhibition. Overexpression of the cCTF suppressed migration and invasion of A549 cells. This inhibitory effect was only seen when endogenous Syndecan-1 was present, but not in Syndecan-1 deficient cells. Further, overexpression of Syndecan-1 cCTF increased the basal activation of Src kinase, focal adhesion kinase (FAK) and Rho GTPase. This was associated with increased adhesion to fibronectin and collagen G and an increased recruitment of paxillin to focal adhesions. Moreover, lung tumor formation of A549 cells in mice was reduced by overexpression of Syndecan-1 cCTF. Finally, delivery of a synthetic peptide corresponding to the Syndecan-1 cCTF suppressed A549 cell migration and increased basal phosphorylation of Src and FAK. Our data indicate that the Syndecan-1 cCTF antagonizes Syndecan-1 dependent tumor cell migration in vitro and in vivo by dysregulating proadhesive signaling pathways and suggest that the cCTF can be used as an inhibitory peptide.

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MISSION® esiRNA, targeting human PXN (1)