The environmental pathogen Legionella pneumophila possesses five proteins with Sel1 repeats (SLRs) from the tetratricopeptide repeat protein family. Three of these proteins, LpnE, EnhC, and LidL, have been implicated in the ability of L. pneumophila to efficiently establish infection and/or manipulate host cell trafficking events. Previously, we showed that LpnE is important for L. pneumophila entry into macrophages and epithelial cells. In further virulence studies here, we show that LpnE is also required for efficient infection of Acanthamoeba castellanii by L. pneumophila and for replication of L. pneumophila in the lungs of A/J mice. In addition, we found that the role of LpnE in host cell invasion is dependent on the eight SLR regions of the protein. A truncated form of LpnE lacking the two C-terminal SLR domains was unable to complement the invasion defect of an lpnE mutant of L. pneumophila 130b in both the A549 and THP-1 cell lines. The lpnE mutant displayed impaired avoidance of LAMP-1 association, suggesting that LpnE influenced trafficking of the L. pneumophila vacuole, similar to the case for EnhC and LidL. We also found that LpnE was present in L. pneumophila culture supernatants and that its export was independent of both the Lsp type II secretion system and the Dot/Icm type IV secretion system. The fact that LpnE was exported suggested that the protein may interact with a eukaryotic protein. Using LpnE as bait, we screened a HeLa cell cDNA library for interacting partners, using the yeast two-hybrid system. Examination of the protein-protein interaction between LpnE and a eukaryotic protein, obscurin-like protein 1, suggested that LpnE can interact with eukaryotic proteins containing immunoglobulin-like folds via the SLR regions. This investigation has further characterized the contribution of LpnE to L. pneumophila virulence and, more specifically, the importance of the SLR regions to LpnE function.
Activating and inhibitory receptors on natural killer (NK) cells have a crucial role in innate immunity, although the basis of the engagement of activating NK cell receptors is unclear. The activating receptor Ly49H confers resistance to infection with murine cytomegalovirus by binding to the 'immunoevasin' m157. We found that m157 bound to the helical stalk of Ly49H, whereby two m157 monomers engaged the Ly49H dimer. The helical stalks of Ly49H lay centrally across the m157 platform, whereas its lectin domain was not required for recognition. Instead, m157 targeted an 'aromatic peg motif' present in stalks of both activating and inhibitory receptors of the Ly49 family, and substitution of this motif abrogated binding. Furthermore, ligation of m157 to Ly49H or Ly49C resulted in intracellular signaling. Accordingly, m157 has evolved to 'tackle the legs' of a family of NK cell receptors.
SummaryEnteropathogenic Escherichia coli induces characteristic attaching-effacing (A/E) lesions on the intestinal mucosa during infection. The locus of enterocyte effacement is essential for A/E lesion formation and encodes a type III secretion system that translocates multiple effector proteins into the host cell. Following translocation, EspI/NleA localizes to the Golgi. Using the yeast two-hybrid system (Y2HS) and PSD-95/Disklarge/ZO-1 (PDZ)-domain protein array overlays, we identified 15 putative host-interacting partners of EspI. All but two of the target proteins contained PDZ domains. Examination of the EspI amino acid sequence revealed a C-terminal consensus class I PDZ binding motif. Deletion of the last 7 amino acids of EspI to generate EspI DC7 abrogated the Y2HS interaction between EspI and 5 of the 6 putative host cell target proteins tested. Deletion of the EspI PDZ binding motif also resulted in delayed trafficking of EspI to the Golgi. Using a mouse model of infection, we showed that Citrobacter rodentium expressing truncated EspIDC7 was attenuated when in competition with C. rodentium expressing full-length EspI. Overall, these results suggested that EspI may modulate the virulence of A/E pathogens by binding host PDZ-domain proteins.
Glycosyltransferases (GTs) are a large and ubiquitous family of enzymes that specifically transfer sugar moieties to a range of substrates. Mycobacterium tuberculosis contains a large number of GTs, many of which are implicated in cell wall synthesis, yet the majority of these GTs remain poorly characterized. Here, we report the high resolution crystal structures of an essential GT (MAP2569c) from Mycobacterium avium subsp. paratuberculosis (a close homologue of Rv1208 from M. tuberculosis) in its apo-and ligand-bound forms. The structure adopted the GT-A fold and possessed the characteristic DXD motif that coordinated an Mn 2؉ ion. Atypical of most GTs characterized to date, MAP2569c exhibited specificity toward the donor substrate, UDP-glucose. The structure of this ligated complex revealed an induced fit binding mechanism and provided a basis for this unique specificity. Collectively, the structural features suggested that MAP2569c may adopt a "retaining" enzymatic mechanism, which has implications for the classification of other GTs in this large superfamily.
Porphyromonas gingivalis, an anaerobic bacterium associated with adult periodontal disease, employs a number of pathogenic mechanisms, including protease/adhesin complexes (gingipains), fimbriae and haemagglutinins, to maintain attachment within colonised hosts. Here we show that the gingipains and whole, live P. gingivalis cells preferentially bind immobilised extracellular matrix proteins in the presence of soluble forms of the same proteins, which may constitute a colonisation mechanism in the oral environment. Fimbriae appeared to be redundant for adhesion to immobilised proteins in the presence of the gingipains, indicating that the protease-adhesins and hemagglutinins may be important for adhesion under these conditions. The data presented here provides evidence for a model of adhesion for P. gingivalis within the dynamic environment of the oral cavity.
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