TY - JOUR
T1 - Immediate-early signaling induced by E-cadherin engagement and adhesion
AU - Perez, Tomas D.
AU - Tamada, Masako
AU - Sheetz, Michael P.
AU - Nelson, W. James
PY - 2008/2/22
Y1 - 2008/2/22
N2 - Epithelial cell-cell interactions require localized adhesive interactions between E-cadherin on opposing membranes and the activation of downstream signaling pathways that affect membrane and actin dynamics. However, it is not known whether E-cadherin engagement and activation of these signaling pathways are locally coordinated or whether signaling is sustained or locally down-regulated like other receptor-mediated pathways. To obtain high spatiotemporal resolution of immediate-early signaling events upon E-cadherin engagement, we used laser tweezers to place beads coated with functional E-cadherin extracellular domain on cells. We show that cellular E-cadherin accumulated rapidly around beads, reaching a sustained plateau level in 1-3 min. Phosphoinositides and Rac1 co-accumulated with E-cadherin, reached peak levels with E-cadherin, but then rapidly dispersed. Both E-cadherin and Rac1 accumulated independently of Rac1 GTP binding/hydrolysis, but these activities were required for Rac1 dispersal. E-cadherin accumulation was dependent on membrane dynamics and actin polymerization, but actin did not stably co-accumulate with E-cadherin; mathematical modeling showed that diffusion-mediated trapping could account for the initial E-cadherin accumulation. We propose that initial E-cadherin accumulation requires active membrane dynamics and involves diffusion-mediated trapping at contact sites; to propagate further contacts, phosphatidylinositol 3-kinase and Rac1 are transiently activated by E-cadherin engagement and initiate a new round of membrane dynamics, but they are subsequently suppressed at that site to allow maintenance of weak E-cadherin mediated adhesion.
AB - Epithelial cell-cell interactions require localized adhesive interactions between E-cadherin on opposing membranes and the activation of downstream signaling pathways that affect membrane and actin dynamics. However, it is not known whether E-cadherin engagement and activation of these signaling pathways are locally coordinated or whether signaling is sustained or locally down-regulated like other receptor-mediated pathways. To obtain high spatiotemporal resolution of immediate-early signaling events upon E-cadherin engagement, we used laser tweezers to place beads coated with functional E-cadherin extracellular domain on cells. We show that cellular E-cadherin accumulated rapidly around beads, reaching a sustained plateau level in 1-3 min. Phosphoinositides and Rac1 co-accumulated with E-cadherin, reached peak levels with E-cadherin, but then rapidly dispersed. Both E-cadherin and Rac1 accumulated independently of Rac1 GTP binding/hydrolysis, but these activities were required for Rac1 dispersal. E-cadherin accumulation was dependent on membrane dynamics and actin polymerization, but actin did not stably co-accumulate with E-cadherin; mathematical modeling showed that diffusion-mediated trapping could account for the initial E-cadherin accumulation. We propose that initial E-cadherin accumulation requires active membrane dynamics and involves diffusion-mediated trapping at contact sites; to propagate further contacts, phosphatidylinositol 3-kinase and Rac1 are transiently activated by E-cadherin engagement and initiate a new round of membrane dynamics, but they are subsequently suppressed at that site to allow maintenance of weak E-cadherin mediated adhesion.
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U2 - 10.1074/jbc.M705209200
DO - 10.1074/jbc.M705209200
M3 - Article
C2 - 18089563
AN - SCOPUS:41949125038
SN - 0021-9258
VL - 283
SP - 5014
EP - 5022
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 8
ER -