A crucial role for profilin–actin in the intracellular motility of Listeria monocytogenes

Abstract

We have examined the effect of covalently crosslinked profilin-actin (PxA), which closely matches the biochemical properties of ordinary profilin-actin and interferes with actin polymerization in vitro and in vivo, on Listeria monocytogenes motility. PxA caused a marked reduction in bacterial motility, which was accompanied by the detachment of bacterial tails. The effect of PxA was dependent on its binding to proline-rich sequences, as shown by the inability of PH133SxA, which cannot interact with such sequences, to impair Listeria motility. PxA did not alter the motility of a Listeria mutant that is unable to recruit Ena (Enabled)/VASP (vasodilator-stimulated phosphoprotein) proteins and profilin to its surface. Finally, PxA did not block the initiation of actin-tail formation, indicating that profilin-actin is only required for the elongation of actin filaments at the bacterial surface. Our findings provide further evidence that profilin-actin is important for actin-based processes, and show that it has a key function in Listeria motility.