The actin protrusion deforms the nucleus during invasion through basement membrane

Cell invasion through basement membrane (BM) extracellular matrix barriers is important during organ development, immune cell trafficking, and cancer metastasis. Here we study an invasion event, anchor cell (AC) invasion, which occurs during Caenorhabditis elegans development. The actin protrusion of the invading AC mechanically displaces the BM, but it is not known how forces are balanced to prevent the growing actin protrusion from pushing itself backward when confronted with a load. Here we observe that the distal end of the actin protrusion in the invading AC abuts the nucleus and deforms it. Further we show that there is a correlation between invasion efficiency and nuclear deformation: under mutant conditions where invasion is reduced, nuclear deformation is diminished. However, nuclear deformation and invasion are unaffected by interfering with the molecular connections between the actin and microtubule cytoskeletons and the nuclear envelope. Together these data suggest that the AC actin protrusion braces against the nucleus to apply forces during invasion, but that nucleus-cytoskeleton molecular connections are not necessary for this to occur.