Alpha C Protein of Group B Streptococcus Binds Host Cell Surface Glycosaminoglycan and Enters Cells by an Actin-dependent Mechanism

Baron, Miriam J.; Bolduc, Gilles R.; Goldberg, Marcia B.; Auperin, Thierry C.; Madoff, Lawrence C.

doi:10.1074/jbc.m402164200

Cited by 86 publications

(75 citation statements)

References 69 publications

(40 reference statements)

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“…5). The distribution of positive charges may be important for understanding the structural basis of the ability of ACP to bind heparin (20). One basic cluster (BR1) is located in domain 1.…”

Section: Resultsmentioning

confidence: 99%

“…NtACP mediates GBS internalization within human epithelial cells (15). NtACP in association with a repeat domain is necessary to bind GAG (20). Moreover, both the alpha C protein and the isolated N-terminal domain are immunogenic and elicit antibodies that protect against GBS infections in experimental animals (21,22).…”

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confidence: 99%

“…Furthermore, the amount of internalized GBS within human cervical epithelial cells in vitro is inhibited by 75% in the presence of the N-terminal domain of ACP (NtACP) (15), suggesting that ACP is a major determinant of virulence. Recently, ACP has been reported to bind glycosaminoglycans (GAG) (20). ACP consists of an Nterminal domain (174 amino acids), a variable number of tandem repeats of 82 amino acids each, and a 45-amino acid C-terminal domain containing a LPXTG peptidoglycan-binding motif.…”

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confidence: 99%

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Crystal Structure of the N-terminal Domain of the Group B Streptococcus Alpha C Protein

Auperin

Bolduc

Baron

et al. 2005

Journal of Biological Chemistry

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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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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Crystal Structure of the N-terminal Domain of the Group B Streptococcus Alpha C Protein

Auperin

Bolduc

Baron

et al. 2005

Journal of Biological Chemistry

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“…This adhesion is, therefore, a promising target for the development of new antimicrobial therapeutics [3]. In the adhesion, heparin or heparin-related oligosaccharides are one of the extracellular matrix molecules of the host recognized by cell surface proteins of bacteria [4][5][6][7][8].Due to the lack of appropriate techniques for the study of the interactions of heparin-living bacteria, most heparin-bacteria binding studies have been conducted with isolated bacterial proteins [9,10]. Although useful information can be obtained from such studies, one potential drawback is the exclusion of membrane phenomena such as ligand-induced receptor oligomerization that can affect the overall binding affinity [11].…”

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Characterization of heparin–living bacteria interactions by chemiluminescence electrophoretic mobility shift assay

Kang

Lee

Gorenstein

2007

Analytical Biochemistry

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Keywordschemiluminescence; nonradioisotopic detection; EMSA; heparin-bacteria interactions; heparin; bacteriaThe electrophoretic mobility shift assay [EMSA]1 is one of the most sensitive methods for studying DNA-protein interactions. Chemiluminescence [CL]1 has been used as an alternative to radioisotopic detection of samples in the EMSA [1,2], as it has advantages such as safety and stability (no isotopic decay) of the sample. In this study, we examined the feasibility of the application of CL EMSA to studying heparin-living bacteria interactions. As an example, binding of biotinylated heparin to Escherichia coli was examined.The pathogenesis of most infections is initiated by microbial adhesion to host tissue. This adhesion is, therefore, a promising target for the development of new antimicrobial therapeutics [3]. In the adhesion, heparin or heparin-related oligosaccharides are one of the extracellular matrix molecules of the host recognized by cell surface proteins of bacteria [4][5][6][7][8].Due to the lack of appropriate techniques for the study of the interactions of heparin-living bacteria, most heparin-bacteria binding studies have been conducted with isolated bacterial proteins [9,10]. Although useful information can be obtained from such studies, one potential drawback is the exclusion of membrane phenomena such as ligand-induced receptor oligomerization that can affect the overall binding affinity [11]. Therefore, it is desirable to examine the adhesion process using bacteria in the intact state to include the membrane phenomena. With this purpose, scintillation counting of radioisotope radiation [12] and sodium dodecyl sulfate-polyacrylamide gel electrophoresis [8] were used to assess the binding of heparin to living bacteria. More recently, atomic force microscopy was successfully used to investigate heparin-living bacteria interactions and producing quantitative data [13]. However, these methods are qualitative [8], require radioisotope labeling [12], an instrument, which may not be readily available in common laboratories [13].EMSA has been widely employed to detect DNA-protein interactions since its first application [14]. In this study, CL EMSA is introduced to complement the existing methods to study heparin-bacteria interactions. CL has advantages such as safety and sample stability (no

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Streptococcus spp.

Johnson¹

2017

Bacterial Pathogens and Their Virulence Factors

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Alpha C Protein of Group B Streptococcus Binds Host Cell Surface Glycosaminoglycan and Enters Cells by an Actin-dependent Mechanism

Cited by 86 publications

References 69 publications

Crystal Structure of the N-terminal Domain of the Group B Streptococcus Alpha C Protein

Crystal Structure of the N-terminal Domain of the Group B Streptococcus Alpha C Protein

Characterization of heparin–living bacteria interactions by chemiluminescence electrophoretic mobility shift assay

Streptococcus spp.

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