Aromatic amino acids at the surface of InlB are essential for host cell invasion by Listeria monocytogenes.

The surface protein InlB of the pathogen Listeria monocytogenes promotes invasion of this bacterium into host cells by binding to and activating the receptor tyrosine kinase Met. The curved leucine-rich repeat (LRR) domain of InlB, which is essential for this process, contains a string of five surface-exposed aromatic amino acid residues positioned along its concave face. Here, we show that the replacement of four of these residues (F104, W124, Y170 or Y214) by serine leads to a complete loss of uptake of latex beads coated with InlB', a truncated functional variant of InlB. The mutants correspondingly display severely reduced binding to Met. To abrogate fully invasion of bacteria expressing full-length InlB, exchange of at least four aromatic amino acids is required. We conclude that InlB binds to Met through its concave surface of the LRR domain, and that aromatic amino acids are critical for binding and signalling before invasion.