Discovery of a novel periplasmic protein that forms a complex with a trimeric autotransporter adhesin and peptidoglycan

Summary Trimeric autotransporter adhesins (TAAs), fibrous proteins on the cell surface of Gram‐negative bacteria, have attracted attention as virulence factors. However, little is known about the mechanism of their biogenesis. AtaA, a TAA of Acinetobacter sp. Tol 5, confers nonspecific, high adhesiveness to bacterial cells. We identified a new gene, tpgA , which forms a single operon with ataA and encodes a protein comprising two conserved protein domains identified by Pfam: an N‐terminal SmpA/OmlA domain and a C‐terminal OmpA_C‐like domain with a peptidoglycan (PGN)‐binding motif. Cell fractionation and a pull‐down assay showed that TpgA forms a complex with AtaA, anchoring it to the outer membrane (OM). Isolation of total PGN‐associated proteins showed TpgA binding to PGN. Disruption of tpgA significantly decreased the adhesiveness of Tol 5 because of a decrease in surface‐displayed AtaA, suggesting TpgA involvement in AtaA secretion. This is reminiscent of SadB, which functions as a specific chaperone for SadA, a TAA in Salmonella species; however, SadB anchors to the inner membrane, whereas TpgA anchors to the OM through AtaA. The genetic organization encoding the TAA–TpgA‐like protein cassette can be found in diverse Gram‐negative bacteria, suggesting a common contribution of TpgA homologues to TAA biogenesis.