Abstract
ERMs are closely related proteins involved in cell migration, cell adhesion, maintenance of cell shape, and formation of microvilli through their ability to cross-link the plasma membrane with the actin cytoskeleton. ELMO proteins are also known to regulate actin cytoskeleton reorganization through activation of the small GTPbinding protein Rac via the ELMO-Dock180 complex. Here we showed that ERM proteins associate directly with ELMO1 as purified recombinant proteins in vitro and at endogenous levels in intact cells. We mapped ERM binding on ELMO1 to the N-terminal 280 amino acids, which overlaps with the region required for binding to the GTPase RhoG, but is distinct from the C-terminal Dock180 binding region. Consistent with this, ELMO1 could simultaneously bind both radixin and Dock180, although radixin did not alter Rac activation via the Dock180-ELMO complex. Most interestingly, radixin binding did not affect ELMO binding to active RhoG and a trimeric complex of active RhoG-ELMO-radixin could be detected. Moreover, the three proteins colocalized at the plasma membrane. Finally, in contrast to most other ERM-binding proteins, ELMO1 binding occurred independently of the state of radixin C-terminal phosphorylation, suggesting an ELMO1 interaction with both the active and inactive forms of ERM proteins and implying a possible role of ELMO in localizing or retaining ERM proteins in certain cellular sites. Together these data suggest that ELMO1-mediated cytoskeletal changes may be coordinated with ERM protein crosslinking activity during dynamic cellular functions.
Highlights
The highly conserved ERM protein family has been implicated in embryonic development, formation of microvilli, cell motility, formation of membrane ruffles, and formation of cell-cell/cellmatrix adhesion sites through their ability to cross-link the actin cytoskeleton to the plasma membrane
To confirm the ability of radixin to interact with ELMO1 in vivo, we analyzed the ability of endogenous ELMO1 to interact with endogenous radixin in J774 cells
Endogenous radixin coimmunoprecipitated with endogenous ELMO1 in the presence of a specific anti-ELMO1 antibody, but not in the presence of an isotype control antibody
Summary
The highly conserved ERM (ezrin/radixin/moesin) protein family has been implicated in embryonic development, formation of microvilli, cell motility, formation of membrane ruffles, and formation of cell-cell/cellmatrix adhesion sites through their ability to cross-link the actin cytoskeleton to the plasma membrane (for reviews see Refs. 1–3). The interaction of ELMO1 with radixin appears to be distinct from other ERM-binding proteins, in that ELMO1 associated strongly with the closed, dormant form of the molecule as well as the open, active form of the molecule. In Vivo Rac GTP-loading Assay—Bacterially produced GST-CRIB proteins bound to glutathione-Sepharose beads were incubated with lysates from 293T cells transfected with the indicated plasmids for 1 h at 4 °C.
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