Group B Streptococcus (GBS) colonizes mucosal surfaces of the human gastrointestinal and gynecological tracts and causes disease in a wide range of patients. Invasive illness occurs after organisms traverse an epithelial boundary and enter deeper tissues. Previously we have reported that the alpha C protein (ACP) on the surface of GBS mediates GBS entry into ME180 cervical epithelial cells and GBS translocation across layers of these cells. We now demonstrate that ACP interacts with host cell glycosaminoglycan (GAG); the interaction of ACP with ME180 cells is inhibited if cells are pretreated with sodium chlorate, an inhibitor of sulfate incorporation, or with heparitinases. The interaction is also inhibited in the presence of soluble heparin or heparan sulfate or host cell-derived GAG. In addition, ACP binds soluble heparin specifically in inhibition and dot blot assays. After interaction with host GAG, soluble ACP enters ME180 cells and fractionates to the eukaryotic cell cytosol. These events are inhibited in cells pretreated with cytochalasin D or with Clostridium difficile toxin B. These data indicate that full-length ACP interacts with ME180 cell GAG and enters the eukaryotic cell cytosol by a mechanism that involves Rho GTPase-dependent actin rearrangements. We suggest that these molecular interactions drive ACP-mediated translocation of GBS across epithelial barriers, thereby facilitating invasive GBS infection.Streptococcus agalactiae (Group B Streptococcus, GBS) 1 has long been recognized as an important cause of infection in pregnant/peripartum women and neonates. A frequent colonizer of the human gastrointestinal and gynecological tracts, GBS has been noted more recently to cause a range of invasive syndromes in non-pregnant adults. Most commonly these patients have comorbid conditions, including malignancy, diabetes, and renal disease (1), that may predispose to bacterial invasion because of a loss of epithelial barrier protection in a chronically colonized site such as the rectum, vagina, cervix, urethra, skin, or pharynx. The molecular basis of the interaction between GBS and epithelial cells remains poorly understood.We have reported that the alpha C protein (ACP) on the surface of GBS interacts with epithelial cells. Expressed by many serotype Ia, Ib, and II GBS strains, ACP is the prototype for a family of Gram-positive surface proteins, the alpha-like proteins (Alps). Found on most GBS strains and some Enterococcus and group A Streptococcus strains, Alps share considerable sequence homology and common structural elements, including an N-terminal region, a series of tandem repeats of ϳ80 amino acids each, and a C-terminal region containing a cellwall anchor LPXTG motif common to several Gram-positive species. Despite the fact that these proteins may vary in size due to gene truncation within the repeat region (2), Alps elicit protective antibody in both adult and neonatal mouse models of GBS sepsis (3). In a neonatal mouse model of disease, deletion of the gene encoding ACP attenuates the virul...
SummaryGroup B Streptococcus (GBS) is the leading cause of bacterial chorioamnionitis and neonatal pneumonia, sepsis, and meningitis. Deletion of the alpha C protein gene ( bca ) attenuates the virulence of GBS in an animal model; significant survival differences in the first 24 h of infection suggest a pathogenic role for the alpha C protein early in the infection process. We examined the role of alpha C protein in the association between GBS and mucosal surfaces using a human cervical epithelial cell line, ME180. Fluorescent and confocal microscopy and flow cytometry demonstrated that 9-repeat alpha C protein binds to the surface of ME180 cells. Isolated N-terminal region of this protein also binds to these cells and competitively inhibits binding of the full protein. Wild-type GBS strain A909 and the bca -null isogenic mutant JL2053 bound similarly to the surface of ME180 cells. However, A909 entered these cells threefold more. Internalization of A909 was inhibited with 2-and 9-repeat alpha C and with N-terminal region alone but not by repeat region-specific peptide. Translocation across polarized ME180 membranes was fivefold greater for A909 than for JL2053. These findings suggest a role for the alpha C protein in interaction with epithelial surfaces and initiation of infection.
Role of the Tet38 Efflux Pump in Staphylococcus aureus Internalization and Survival in Epithelial Cells
bWe previously identified the protein Tet38 as a chromosomally encoded efflux pump of Staphylococcus aureus that confers resistance to tetracycline and certain unsaturated fatty acids. Tet38 also contributes to mouse skin colonization. In this study, we discovered a novel regulator of tet38, named tetracycline regulator 21 (TetR21), that bound specifically to the tet38 promoter and repressed pump expression. A ⌬tetR21 mutant showed a 5-fold increase in tet38 transcripts and an 8-fold increase in resistance to tetracycline and fatty acids. The global regulator MgrA bound to the tetR21 promoter and indirectly repressed the expression of tet38. To further assess the full role of Tet38 in S. aureus adaptability, we tested its effect on host cell invasion using A549 (lung) and HMEC-1 (heart) cell lines. We used S. aureus RN6390, its ⌬tet38, ⌬tetR21, and ⌬mgrA mutants, and a ⌬tet38 ⌬tetR21 double mutant. After 2 h of contact, the ⌬tet38 mutant was internalized in 6-fold-lower numbers than RN6390 in A549 and HMEC-1 cells, and the ⌬tetR21 mutant was internalized in 2-fold-higher numbers than RN6390. A slight increase of 1.5-fold in internalization was found for the ⌬mgrA mutant. The growth patterns of RN6390 and the ⌬mgrA and ⌬tetR21 mutants within A549 cells were similar, while no growth was observed for the ⌬tet38 mutant. These data indicate that the Tet38 efflux pump is regulated by TetR21 and contributes to the ability of S. aureus to internalize and replicate within epithelial cells.
Candidate vaccine antigens for preventing otitis media caused by nontypeable Haemophilus influenzae (NTHI) should possess one or more conserved epitopes. We sought to evaluate the candidacy of P1, a surface-expressed outer membrane protein knowing that this antigen is subject to diversifying selection. Therefore, we selected NTHI strains from among >500 phylogenically variant isolates representative of the diversity found in natural populations of H. influenzae. Twenty-three variants of P1 (<95% similarity) were identified among 42 strains. When chinchillas were immunized with recombinant P1 (rP1) obtained from one of these isolates (BCH-3), all animals developed antibodies specific for rP1. Immunized animals were protected against disease when challenged with BCH-3, but not with an ompP1 mutant of BCH-3 or a strain (BCH-2) possessing a heterologous P1 (91% identity). We conclude that (i) while P1 induces protection against NTHI-mediated otitis media, development of a polyvalent vaccine reflecting the variability of P1 would be necessary to construct an efficacious vaccine and (ii) use of a phylogenically characterized collection of representative isolates in concert with gene sequencing, cloning, gene inactivation, and animal testing offers an efficient, rational, and rigorous strategy for evaluating the potential problems associated with variability of vaccine targets and specificity of related immune responses.
Group B Streptococcus (GBS) is the leading cause of bacterial pneumonia, sepsis, and meningitis among neonates and an important cause of morbidity among pregnant women and immunocompromised adults. Invasive diseases due to GBS are attributed to the ability of the pathogen to translocate across human epithelial surfaces. The alpha C protein (ACP) has been identified as an invasin that plays a role in internalization and translocation of GBS across epithelial cells. The soluble N-terminal domain of ACP (NtACP) blocks the internalization of GBS. We determined the 1.86-Å resolution crystal structure of NtACP comprising residues Ser 52 through Leu 225 of the full-length ACP. NtACP has two domains, an N-terminal -sandwich and a C-terminal three-helix bundle. Structural and topological alignments reveal that the -sandwich shares structural elements with the type III fibronectin fold (FnIII), but includes structural elaborations that make it unique. We have identified a potential integrin-binding motif consisting of Lys-Thr-Asp 146 , Arg 110 , and Asp 118 . A similar arrangement of charged residues has been described in other invasins. ACP shows a heparin binding activity that requires NtACP. We propose a possible heparin-binding site, including one surface of the three-helix bundle, and nearby portions of the sandwich and repeat domains. We have validated this prediction using assays of the heparin binding and cell-adhesion properties of engineered fragments of ACP. This is the first crystal structure of a member of the highly conserved Gram-positive surface alpha-like protein family, and it will enable the internalization mechanism of GBS to be dissected at the atomic level.Group B Streptococcus (GBS) 1 (Streptococcus agalactiae) remains the leading cause of invasive bacterial diseases in neonates, despite its decline in prevalence during the last decade because of intrapartum chemoprophylatic therapy (1, 2). It is also an important cause of morbidity in pregnant women and non-pregnant adults with underlying medical conditions (3-5). GBS colonizes the human gastrointestinal and genitourinary tracts and may cause chorioamnionitis and urinary tract infection in pregnant women and a range of invasive infections in elderly and immunocompromised adults (1, 6 -8). During labor and delivery, GBS may be transmitted to neonates, causing pneumonia, sepsis, or meningitis. Four to six percent of all neonatal GBS infections result in death (6, 9). In vitro, GBS adheres to (10, 11), internalizes within (12-14), and translocates across (15) intact human epithelial and endothelial cells. Little is known about the bacterial components that allow this pathogen to adhere to and penetrate cellular membranes. Previous studies suggest that surface proteins are significantly involved in the process (11, 16). The surface-expressed GBS alpha C protein (ACP) has been shown to act as an invasin (15). ACP is the prototype of a family of surface-expressed proteins containing long tandem repeats (alpha-like proteins (Alp)). Members of this famil...
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