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Publications

by Keyword: Podosomes

Dries, Koen, Helden, Suzanne, Riet, Joostte, Diez-Ahedo, Ruth, Manzo, Carlo, Oud, Machteld, Leeuwen, Frank, Brock, Roland, Garcia-Parajo, Maria, Cambi, Alessandra, Figdor, CarlG, (2012). Geometry sensing by dendritic cells dictates spatial organization and PGE2-induced dissolution of podosomes Cellular and Molecular Life Sciences , 69, (11), 1889-1901

Assembly and disassembly of adhesion structures such as focal adhesions (FAs) and podosomes regulate cell adhesion and differentiation. On antigen-presenting dendritic cells (DCs), acquisition of a migratory and immunostimulatory phenotype depends on podosome dissolution by prostaglandin E2 (PGE2). Whereas the effects of physico-chemical and topographical cues have been extensively studied on FAs, little is known about how podosomes respond to these signals. Here, we show that, unlike for FAs, podosome formation is not controlled by substrate physico-chemical properties. We demonstrate that cell adhesion is the only prerequisite for podosome formation and that substrate availability dictates podosome density. Interestingly, we show that DCs sense 3-dimensional (3-D) geometry by aligning podosomes along the edges of 3-D micropatterned surfaces. Finally, whereas on a 2-dimensional (2-D) surface PGE2 causes a rapid increase in activated RhoA levels leading to fast podosome dissolution, 3-D geometric cues prevent PGE2-mediated RhoA activation resulting in impaired podosome dissolution even after prolonged stimulation. Our findings indicate that 2-D and 3-D geometric cues control the spatial organization of podosomes. More importantly, our studies demonstrate the importance of substrate dimensionality in regulating podosome dissolution and suggest that substrate dimensionality plays an important role in controlling DC activation, a key process in initiating immune responses.

JTD Keywords: Mechanosensitivity, Podosomes, Dendritic cell, Adhesion