Abstract
The actin cytoskeleton is a primary determinant of tumor cell motility and metastatic potential. Motility and metastasis are thought to be regulated, in large part, by the interaction of membrane proteins with cytoplasmic linker proteins and of these linker proteins, in turn, with actin. However, complete membrane-to-actin linkages have been difficult to identify. We used co-immunoprecipitation and competitive peptide assays to show that intercellular adhesion molecule-2 (ICAM-2)/α-actinin/actin may comprise such a linkage in neuroblastoma cells. ICAM-2 expression limited the motility of these cells and redistributed actin fibers in vitro, and suppressed development of disseminated tumors in an in vivo model of metastatic neuroblastoma. Consistent with these observations, immunohistochemical analysis demonstrated ICAM-2 expression in primary neuroblastoma tumors exhibiting features that are associated with limited metastatic disease and more favorable clinical outcome. In neuroblastoma cell lines, ICAM-2 expression did not affect AKT activation, tumorigenic potential or chemosensitivity, as has been reported for some types of transfected cells. The observed ICAM-2-mediated suppression of metastatic phenotype is a novel function for this protein, and the interaction of ICAM-2/α-actinin/actin represents the first complete membrane-linker protein-actin linkage to impact tumor cell motility in vitro and metastatic potential in an in vivo model. Current work focuses on identifying specific protein domains critical to the regulation of neuroblastoma cell motility and metastasis and on determining if these domains represent exploitable therapeutic targets.
Highlights
The actin network is a primary determinant of the motility of cells and organelles
We postulated that membrane-bound intercellular adhesion molecule-2 (ICAM-2) binds to cytoplasmic ezrin or a-actinin which, in turn, binds to actin to regulate the motility—and the metastatic potential—of neuroblastoma cells
The novel findings of this study are that neuroblastoma cells express ICAM-2 and that this expression is associated with juxtamembrane distribution of actin fibers, decreased cell motility in vitro, and suppressed development of disseminated tumors in a preclinical model of metastatic neuroblastoma
Summary
The actin network is a primary determinant of the motility of cells and organelles. Motility and metastasis are thought to be regulated at least in part by the interaction of membrane-bound proteins with the actin cytoskeletal network [1,2,3,4,5]. The interaction of a particular membrane-bound cell adhesion molecule with a specific cytoplasmic linker protein has been associated with a unique cell function. For example, membrane-bound b2-integrin binds to the cytoplasmic linker protein talin. In activated neutrophils b2-integrin binds to an alternate linker protein, aactinin [9]. While both talin and a-actinin can bind directly to actin, it is not yet known how the association of b2-integrin with each linker proteins affects their binding to actin
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