Increased importin-β-dependent nuclear import of the actin modulating protein CapG promotes cell invasion

Abstract

CapG (gCap39) is a ubiquitous gelsolin-family actin modulating protein involved in cell signalling, receptor-mediated membrane ruffling, phagocytosis and motility. CapG is the only gelsolin-related actin binding protein that localizes constitutively to both nucleus and cytoplasm. Structurally related proteins like severin and fragmin are cytoplasmic because they contain a nuclear export sequence that is absent in CapG. Increased CapG expression has been reported in some cancers but a causal role for CapG in tumour development, including invasion and metastasis, has not been explored. We show that moderate expression of green fluorescent protein-tagged CapG (CapG-EGFP) in epithelial cells induces invasion into collagen type I and precultured chick heart fragments. Nuclear export sequence-tagged CapG-EGFP fails to induce invasion, whereas point mutations in the nuclear export sequence permitting nuclear re-entry restore cellular invasion. Nuclear import of CapG is energy-dependent and requires the cytosolic receptor importin β but not importin α. Nuclear CapG does not possess intrinsic transactivation activity but suppresses VP16 transactivation of a luciferase reporter gene in a dose-dependent manner. Furthermore, invasion requires signalling through the Ras-phosphoinositide 3-kinase pathway and Cdc42 or RhoA, but not Rac1. We show for the first time active nuclear import of an actin binding protein, and our findings point to a role for nuclear CapG in eliciting invasion, possibly through interfering with the cellular transcription machinery.