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6. Identification of a gene (lpt-3) required for the addition of phosphoethanolamine to the lipopolysaccharide inner core of Neisseria meningitidis and its role in mediating susceptibility to bactericidal killing and opsonophagocytosis

Author

Andrew D. Cox, Derek W. Hood, James C. Richards, Ronald Chalmers, Christoph M. Tang, Joyce S. Plested, Fiona G. Mackinnon, E. Richard Moxon, Katherine Makepeace, Philip A. Coull, and J. Claire Wright

Subjects
Lipopolysaccharides, Immunogen, Lipopolysaccharide, medicine.drug_class, Heptose, Neisseria meningitidis, Biology, medicine.disease_cause, Monoclonal antibody, Microbiology, Epitope, chemistry.chemical_compound, Bacterial Proteins, Phagocytosis, medicine, Molecular Biology, Phase variation, chemistry.chemical_classification, Antibodies, Monoclonal, In vitro, Mutagenesis, Insertional, Phosphotransferases (Alcohol Group Acceptor), Phenotype, chemistry, Ethanolamines, Genes, Bacterial
Abstract

We have identified a gene, lpt-3, that is required for the addition of phosphoethanolamine to the 3-position (PEtn-3) on the beta-chain heptose (HepII) of the inner core lipopolysaccharide (LPS) of Neisseria meningitidis (Nm). The presence of this PEtn-3 substituent is characteristic of the LPS of a majority ( approximately 70%) of hypervirulent Nm strains, irrespective of capsular serogroup, and is required for the binding of a previously described monoclonal antibody (mAb B5) to a surface-accessible epitope. All strains of Nm that have PEtn-3 possess the lpt-3 gene. In some lpt-3-containing strains, the 3-position on HepII is preferentially substituted by glucose instead of PEtn, the result of lgtG phase variation mediated by slippage of a homopolymeric tract of cytidines. Inactivation of lpt-3 resulted in loss of PEtn-3, lack of reactivity with mAb B5 and conferred relative resistance to bactericidal killing and opsonophagocytosis by mAb B5 in vitro. Thus, the identification of lpt-3 has facilitated rigorous genetic, structural and immunobiological definition of an immunodominant epitope that is a candidate immunogen for inclusion in an LPS-based vaccine to protect against invasive meningococcal disease.

Published
2002

7. Opc- and pilus-dependent interactions of meningococci with human endothelial cells: molecular mechanisms and modulation by surface polysaccharides

Author

Ian R. Peak, Mumtaz Virji, E R Moxon, Michael P. Jennings, David J. P. Ferguson, and Katherine Makepeace

Subjects
Lipopolysaccharide, Neisseria meningitidis, Fimbria, Virulence, Biology, medicine.disease_cause, Microbiology, Pilus, Bacterial genetics, stomatognathic diseases, chemistry.chemical_compound, Plasmid, Antigen, chemistry, medicine, Molecular Biology
Abstract

The interplay between four surface-expressed virulence factors of Neisseria meningitidis (pili, Opc, capsule and lipopolysaccharide (LPS)) in host cell adhesion and invasion was examined using derivatives of a serogroup B strain, MC58, created by mutation (capsule, Opc) and selection of variants. To examine the role of Opc and of additional expression of pili, bacteria lacking the expression of Opa proteins were used. The effects of different LPS structures were examined in variants expressing either sialylated (L3 immunotype) or truncated non-sialylated (L8 immuno-type) LPS. Studies showed that (i) pili were essential for meningococcal interactions with host cells in both capsulate and acapsulate bacteria with the sialylated L3 LPS immunotype, (ii) the Opc-mediated invasion of host cells by piliated and non-piliated bacteria was observed only in acapsulate organisms with L8 LPS immunotype, and (iii) expression of pili in Opc-expressing bacteria resulted in increased invasion. Investigations on the mechanisms of cellular invasion indicated that the Opc-mediated invasion was dependent on the presence of serum in the incubation medium and was mediated by serum proteins with arginine-glycine-aspartic acid (RGD) sequence. Cellular invasion in piliated Opc+ phenotype also required bridging molecules containing the RGD recognition sequence and appeared to involve the integrin αvβ3 as a target receptor on endothelial cells. These studies extend the previous observations on variants of a serogroup A strain (C751) and show that Opc mediates cellular invasion in distinct meningococcal strains and provide confirmation of its mechanism of action. This is the first investigation that evaluates, using derivatives of a single strain, the interplay between four meningococcal surface virulence factors in host cell invasion.

Published
1995

8. Meningococcal pilin: a glycoprotein substituted with digalactosyl 2,4-diacetamido-2,4,6-trideoxyhexose

Author

Stephanie Barker, I Blench, Michael P. Jennings, Gail Payne, Maria Panico, Anne Dell, Mumtaz Virji, Katherine Makepeace, Elaine Stimson, E. Richard Moxon, Jon R. Saunders, and Howard R. Morris

Subjects
Glycosylation, Molecular Sequence Data, Fimbria, Neisseria meningitidis, medicine.disease_cause, Microbiology, Pilus, Fimbriae Proteins, UDPglucose 4-Epimerase, chemistry.chemical_compound, Bacterial Proteins, medicine, Amino Acid Sequence, Molecular Biology, chemistry.chemical_classification, Membrane Glycoproteins, Base Sequence, biology, Bacterial adhesin, Carbohydrate Sequence, chemistry, Biochemistry, Fimbriae, Bacterial, Pilin, biology.protein, bacteria, Carbohydrate Epimerases, Glycoprotein, Sequence Alignment, Trisaccharides, Bacterial Outer Membrane Proteins
Abstract

Neisseria meningitidis pili are filamentous protein structures that are essential adhesins in capsulate bacteria. Pili of adhesion variants of meningococcal strain C311 contain glycosyl residues on pilin (PilE), their major structural subunit. Despite the presence of three potential N-linked glycosylation sites, none appears to be occupied in these pilins. Instead, a novel O-linked trisaccharide substituent, not previously found as a constituent of glycoproteins, is present within a peptide spanning amino acid residues 45 to 73 of the PilE molecule. This structure contains a terminal 1-4-linked digalactose moiety covalently linked to a 2,4-diacetamido-2,4,6-trideoxyhexose sugar which is directly attached to pilin. Pilins derived from galactose epimerase (galE) mutants lack the digalactosyl moiety, but retain the diacetamidotrideoxyhexose substitution. Both parental (#3) pilins and those derived from a hyper-adherent variant (#16) contained identical sugar substitutions in this region of pilin, and galE mutants of #3 were similar to the parental phenotype in their adherence to host cells. These studies have confirmed our previous observations that meningococcal pili are glycosylated and provided the first structural evidence for the presence of covalently linked carbohydrate on pili. In addition, they have revealed a completely novel protein/saccharide linkage.

Published
1995

9. Functional implications of the expression of PilC proteins in meningococci

Author

Mumtaz Virji, Katherine Makepeace, Jon R. Saunders, Gail Payne, E R Moxon, David J. P. Ferguson, and Ian R. Peak

Subjects
Immunoblotting, Molecular Sequence Data, Fluorescent Antibody Technique, Gene Expression, Neisseria meningitidis, medicine.disease_cause, Microbiology, Bacterial Adhesion, Epithelium, Pilus, Fimbriae Proteins, Bacterial Proteins, Gene expression, medicine, Humans, Molecular Biology, Cells, Cultured, Antiserum, Base Sequence, biology, Pili, Sex, biology.organism_classification, Blot, Microscopy, Electron, Phenotype, Pilin, biology.protein, Endothelium, Vascular, Bacteria
Abstract

Multiple forms of PilC were found in Neisseria meningitidis (Nm) strains isolated from the oropharynx, blood or cerebrospinal fluid expressing either Class I or Class II pili. PilC expression was observed less frequently in case as opposed to carrier isolates. Moreover, PilC and pili were not always co-expressed. Several heavily piliated strains had no detectable PilC protein as determined by Western blotting using an antiserum previously used to detect such proteins in adhesive variants (Nassif et al., 1994). Serogroup B strain MC58 produced large numbers of pili, but expressed barely detectable amounts of PilC. A clonal variant of this strain with increased expression of PilC concurrently exhibited increased adherence to Chang conjunctival epithelial cells and human umbilical vein endothelial cells (Huvecs), but with more rapid binding to the former. No alteration in pilin sequence occurred in this variant, suggesting the involvement of PilC in increased adhesion. A Pil- backswitcher isolated from the hyper-adherent variant was PilC+ but was non-adherent, indicating that any PilC adherence function requires pilus expression. Parental variant (low PilC) produced pili in bundles that were easily detached from the bacterial surface and were frequently associated with Huvec surfaces after bacteria had been sheared off, but pili infrequently replaced bacteria during infection with the PilC-expressing variant. The hyper-adherent variant, which appeared to produce morphologically distinct pilus bundles, was able to withstand considerable shearing force and remained firmly attached to Huvecs. This raises the possibility that the observed hyper-adherence may arise from better anchorage of pili to the bacterial surface in addition to increased adhesion to some host cell surfaces.

Published
1995

10. Distinct mechanisms of interactions of Opc-expressing meningococci at apical and basolateral surfaces of human endothelial cells; the role of integrins in apical interactions

Author

Katherine Makepeace, E. R. Moxon, and Mumtaz Virji

Subjects
Integrins, Umbilical Veins, Alpha-v beta-3, Integrin, Neisseria meningitidis, Microbiology, Bacterial Adhesion, Cell membrane, chemistry.chemical_compound, Antigen, medicine, Humans, Vitronectin, Molecular Biology, Peptide sequence, Cells, Cultured, Glycoproteins, Cytochalasin D, Antigens, Bacterial, biology, Cell Membrane, Antibodies, Monoclonal, Molecular biology, Endothelial stem cell, stomatognathic diseases, medicine.anatomical_structure, nervous system, chemistry, biology.protein, Endothelium, Vascular, Oligopeptides, Bacterial Outer Membrane Proteins
Abstract

Interactions of Opc-expressing Neisseria meningitidis with polarized and non-polarized human umbilical vein endothelial cells (Huvecs) were investigated. Metabolic inhibitors and cytochalasin D treatment showed that host cellular and cytoskeletal functions were important for Opc-expressing bacterial association with Huvecs at the apical surface. In addition, this interaction required the presence of serum in the incubation medium whilst association with non-polarized cells did not require serum. Pre-exposure of Opc-expressing bacteria to serum was sufficient to increase the number of bacterial interactions at the apical surface; B306, a monoclonal antibody (mAb) against Opc, inhibited these interactions, suggesting that Opc binds to serum factor(s) and this in turn increases adherence to Huvecs. The receptors involved in this 'sandwich' adherence belong to the integrin family since the interaction was inhibited by peptides containing the amino acid sequence arginine-glycine-aspartic acid (RGD) and the tetrapeptide RGDS (but not the peptide RGES) was inhibitory. Non-polarized cells appeared to expose receptors/sites that bound to Opc-expressing bacteria directly, did not require serum factors and were not inhibited by RGD-containing peptides. Serum-dependent interactions of Opc-expressing bacteria to apical surface was inhibited significantly by several mAbs against alpha v beta 3 integrins. Some mAbs against alpha 5 and beta 1 caused partial inhibition; antibodies that did not block the function of beta 1 integrins or the mAbs against alpha 2 integrins were not inhibitory to bacterial interactions with Huvecs. Purified vitronectin supported adherence of Opc-expressing bacteria to Huvecs but not of Opc- bacteria. These interactions were inhibited by mAb B306 against Opc, by RGDS peptides as well as by blocking antibodies directed against alpha v beta 3 but not antibodies against other integrins. These data suggest that a sequence of molecular events resulting in trimolecular complexes at the endothelial surface may drive neisserial invasion of Huvecs. The expression of Opc appears to enable bacteria to utilize the normal signal-transduction mechanism of host cells via ligands in sera that adhere to endothelial cell integrins.

Published
1994

11. Pilus-facilitated adherence of Neisseria meningitidis to human epithelial and endothelial cells: modulation of adherence phenotype occurs concurrently with changes in primary amino acid sequence and the glycosylation status of pilin

Author

Duncan Maskell, Katherine Makepeace, David J. P. Ferguson, Mumtaz Virji, Jon R. Saunders, and Gail Sims

Subjects
DNA, Bacterial, Glycosylation, Protein subunit, Molecular Sequence Data, Cell, Neisseria meningitidis, Biology, medicine.disease_cause, Microbiology, Bacterial Adhesion, Epithelium, Pilus, Cell Line, chemistry.chemical_compound, medicine, Humans, Amino Acid Sequence, Endothelium, Molecular Biology, Gene, Peptide sequence, DNA Primers, Base Sequence, Sequence Homology, Amino Acid, Genetic Variation, Molecular Weight, Phenotype, medicine.anatomical_structure, chemistry, Fimbriae, Bacterial, Pilin, Microscopy, Electron, Scanning, biology.protein, bacteria, Fimbriae Proteins, Bacterial Outer Membrane Proteins
Abstract

Summary Adherence of capsulate Neisseria meningitidis to endothelial and epithelial cells is facilitated in variants that express pili. Whereas piliated variants of N. meningitidis strain C311 adhered to endothelial cells in large numbers (

Published
1993

12. Expression of the Opc protein correlates with invasion of epithelial and endothelial cells by Neisseria meningitidis

Author

David J. P. Ferguson, J. Sarkari, Mark Achtman, E. R. Moxon, Katherine Makepeace, and Mumtaz Virji

Subjects
Bacterial capsule, Cytochalasin D, Virulence, Neisseria meningitidis, medicine.disease_cause, Microbiology, Bacterial Adhesion, Epithelium, Virulence factor, Pilus, Cell Line, chemistry.chemical_compound, Tumor Cells, Cultured, medicine, Animals, Humans, Cytochalasin, Molecular Biology, Bacterial Capsules, biology, biology.organism_classification, Endothelial stem cell, Microscopy, Electron, stomatognathic diseases, nervous system, chemistry, Microscopy, Electron, Scanning, Endothelium, Vascular, Fimbriae Proteins, Bacteria, Bacterial Outer Membrane Proteins
Abstract

Whereas capsulate strains of Neisseria meningitidis are dependent on pili for adhesion to human endothelial and epithelial cells, strains which lacked assembled pili and were partially capsule-deficient adhered to and invaded human endothelial and epithelial cells if they expressed the Opc protein. Bacteria expressing low or undetectable levels of Opc protein failed to adhere to or invade eukaryotic cells. In addition, the presence of OpaAC751 protein on the surface of bacteria did not increase bacterial interactions with host cells. Association of Opc-expressing bacteria was inhibited by antibodies against Opc. Invasion was dependent on the host-cell cytoskeletal activity and was inhibited by cytochalasin D. In some cells, infected at the apical surface, bacteria emerging from basal surface were detected by electron microscopy. Opc is found in diverse meningococci and may represent a common virulence factor which facilitates adherence and invasion by these bacteria.

Published
1992

13. Identification of a lipopolysaccharide alpha-2,3-sialyltransferase from Haemophilus influenzae

Author

Jean-Robert Brisson, Michel Gilbert, Derek W. Hood, Andrew D. Cox, Martin Månsson, E. Richard Moxon, Katherine Makepeace, Mary E. Deadman, Warren W. Wakarchuk, Elke K. H. Schweda, Alison J. Cody, Shannon Walsh, James C. Richards, and Adèle Martin

Subjects
Lipopolysaccharides, magnetic, Lipopolysaccharide, Mutant, Heptose, medicine.disease_cause, Mass Spectrometry, Haemophilus influenzae, chemistry.chemical_compound, spectrum analysis, mass, genetics, chemistry.chemical_classification, biology, magnetic-resonance, resonance, Biochemistry, Carbohydrate Sequence, synthetic, acid, N-acetylneuraminic acid, Escherichia, spectroscopy, Blood Bactericidal Activity, LPS, Sialyltransferase, enzymology, Molecular Sequence Data, Haemophilus, chemistry, Microbiology, strain, Glycosyltransferase, Escherichia coli, medicine, Humans, molecular, mutant, structural analysis, gene, Molecular Biology, Gene, disease, Molecular mass, Electrophoresis, Capillary, assay, NMR, Sialyltransferases, nuclear, nuclear magnetic resonance, Mutation, growth & development, biology.protein, identification, metabolism
Abstract

We have identified a gene for the addition of N-acetylneuraminic acid (Neu5Ac) in an alpha-2,3-linkage to a lactosyl acceptor moiety of the lipopolysaccharide (LPS) of the human pathogen Haemophilus influenzae. The gene is one that was identified previously as a phase-variable gene known as lic3A. Extracts of H. influenzae, as well as recombinant Escherichia coli strains producing Lic3A, demonstrate sialyltransferase activity in assays using synthetic fluorescent acceptors with a terminal galactosyl, lactosyl or N-acetyl-lactosaminyl moiety. In the RM118 strain of H. influenzae, Lic3A activity is modulated by the action of another phase-variable glycosyltransferase, LgtC, which competes for the same lactosyl acceptor moiety. Structural analysis of LPS from a RM118:lgtC mutant and the non-typeable strain 486 using mass spectrometry and nuclear magnetic resonance (NMR) spectroscopy confirmed that the major sialylated species has a sialyl-alpha-(2-3)-lactosyl extension off the distal heptose. This sialylated glycoform was absent in strains containing a lic3A gene disruption. Low amounts of sialylated higher molecular mass glycoforms were present in RM118:lgtC lic3A, indicating the presence of a second sialyltransferase. Lic3A mutants of H. influenzae strains show reduced resistance to the killing effects of normal human serum. Lic3A, encoding an alpha-2,3-sialyltransferase activity, is the first reported phase-variable sialyltransferase gene.

Published
2001

14. The N-domain of the human CD66a adhesion molecule is a target for Opa proteins of Neisseria meningitidis and Neisseria gonorrhoeae

Author

Stephanie Barker, Katherine Makepeace, Mumtaz Virji, Suzanne M. Watt, and Regis Doyonnas

Subjects
Recombinant Fusion Proteins, CHO Cells, Biology, Neisseria meningitidis, medicine.disease_cause, Ligands, Transfection, Microbiology, Antigens, CD, Cricetinae, medicine, Animals, Humans, Receptor, Molecular Biology, Pathogen, Cell Line, Transformed, chemistry.chemical_classification, Antigens, Bacterial, Binding Sites, Cell adhesion molecule, Antigens, Differentiation, Neisseria gonorrhoeae, chemistry, COS Cells, Immunoglobulin superfamily, Glycoprotein, Cell Adhesion Molecules
Abstract

Using COS (African green monkey kidney) cells transfected with cDNAs encoding human cell surface molecules, we have identified human cellular receptors for meningococcal virulence-associated Opa proteins, which are expressed by the majority of disease and carrier isolates. These receptors belong to the immunoglobulin superfamily of adhesion molecules and are expressed on epithelial, endothelial and phagocytic cells. Using soluble chimeric receptor molecules, we have demonstrated that meningococcal Opa proteins bind to the N-terminal domain of biliary glycoproteins (classified as BGP or CD66a) that belong to the CEA (CD66) family. Moreover, the Opa proteins of the related pathogen Neisseria gonorrhoeae, responsible for urogenital infections, also interact with this receptor, making CD66a a common target for pathogenic neisseriae. Over 95% of Opa-expressing clinical and mucosal isolates of meningococci and gonococci were shown to bind to the CD66 N-domain, demonstrating the presence of a conserved receptor-binding function in the majority of neisserial Opa proteins.

Published
1996

15. Carcinoembryonic antigens (CD66) on epithelial cells and neutrophils are receptors for Opa proteins of pathogenic neisseriae

Author

Katherine Makepeace, David J. P. Ferguson, Suzanne M. Watt, and Mumtaz Virji

Subjects
CHO Cells, Biology, Neisseria meningitidis, Microbiology, HT29 Cells, Antigen, Phagocytosis, Antigens, CD, Cricetinae, Tumor Cells, Cultured, Animals, Humans, Receptor, Molecular Biology, A549 cell, Antigens, Bacterial, COS cells, Cell adhesion molecule, Chinese hamster ovary cell, Molecular biology, Antigens, Differentiation, Microscopy, Electron, COS Cells, biology.protein, Antibody, Cell Adhesion Molecules
Abstract

Opa protein-expressing pathogenic neisseriae interact with CD66a-transfected COS (African green monkey kidney) and CHO (Chinese hamster ovary) cells. CD66a (BGP) is a member of carcinoembryonic antigen (CEA, CD66) family. The interactions occur at the N-terminal domain of CD66a, a region that is highly conserved between members of the CEA subgroup of the CD66 family. In this study, we have investigated the roles of CD66 expressed on human epithelial cells and polymorphonuclear phagocytes (PMNs) in adhesion mediated via Opa proteins. Using human colonic (HT29) and lung (A549) epithelial cell lines known to express CD66 molecules, we show that these receptors are used by meningococci. A monoclonal antibody, YTH71.3, against the N-terminal domain of CD66, but not 3B10 directed against domains, A1/ B1, inhibited meningococcal adhesion to host cells. When acapsulate bacteria expressing Opa proteins were used, large numbers of bacteria adhered to HT29 and A549 cells. In addition, both CD66a-transfected CHO cells and human epithelial cells were invaded by Opa-expressing meningococci, suggesting that epithelial cell invasion may occur via Opa-CD66 interactions. In previous studies we have shown that serogroup A strain C751 expresses three Opa proteins, all of which mediate non-opsonic interactions with neutrophils. We have examined the mechanisms of these interactions using antibodies and soluble chimeric receptors. The results indicate that the nature of their interactions with purified CD66a molecules and with CD66 on neutrophils is alike and that these interactions occur at the N-terminal domain of CD66. Thus, the Opa family of neisserial ligands may interact with several members of the CD66 family via their largely conserved N-terminal domains.

Published
1996

16. Opc- and pilus-dependent interactions of meningococci with human endothelial cells: molecular mechanisms and modulation by surface polysaccharides

Author

M, Virji, K, Makepeace, I R, Peak, D J, Ferguson, M P, Jennings, and E R, Moxon

Subjects
Lipopolysaccharides, Antigens, Bacterial, Virulence, Blotting, Western, Genetic Variation, Blood Proteins, Gene Expression Regulation, Bacterial, Neisseria meningitidis, Meningococcal Infections, Microscopy, Electron, Mutagenesis, Insertional, Genes, Bacterial, Fimbriae, Bacterial, Microscopy, Electron, Scanning, Humans, Electrophoresis, Polyacrylamide Gel, Receptors, Vitronectin, Endothelium, Cloning, Molecular, Oligopeptides, Cells, Cultured, Bacterial Outer Membrane Proteins, Plasmids
Abstract

The interplay between four surface-expressed virulence factors of Neisseria meningitidis (pili, Opc, capsule and lipopolysaccharide (LPS)) in host cell adhesion and invasion was examined using derivatives of a serogroup B strain, MC58, created by mutation (capsule, Opc) and selection of variants. To examine the role of Opc and of additional expression of pili, bacteria lacking the expression of Opa proteins were used. The effects of different LPS structures were examined in variants expressing either sialylated (L3 immunotype) or truncated non-sialylated (L8 immunotype) LPS. Studies showed that (i) pili were essential for meningococcal interactions with host cells in both capsulate and acapsulate bacteria with the sialylated L3 LPS immunotype, (ii) the Opc-mediated invasion of host cells by piliated and non-piliated bacteria was observed only in acapsulate organisms with L8 LPS immunotype, and (iii) expression of pili in Opc-expressing bacteria resulted in increased invasion. Investigations on the mechanisms of cellular invasion indicated that the Opc-mediated invasion was dependent on the presence of serum in the incubation medium and was mediated by serum proteins with arginine-glycine-aspartic acid (RGD) sequence. Cellular invasion in piliated Opc+ phenotype also required bridging molecules containing the RGD recognition sequence and appeared to involve the integrin alpha v beta 3 as a target receptor on endothelial cells. These studies extend the previous observations on variants of a serogroup A strain (C751) and show that Opc mediates cellular invasion in distinct meningococcal strains and provide confirmation of its mechanism of action. This is the first investigation that evaluates, using derivatives of a single strain, the interplay between four meningococcal surface virulence factors in host cell invasion.

Published
1995

17. Identification of a lipopolysaccharide alpha-2,3-sialyltransferase from Haemophilus influenzae

Author

Hood, Derek W., primary, Cox, Andrew D., additional, Gilbert, Michel, additional, Makepeace, Katherine, additional, Walsh, Shannon, additional, Deadman, Mary E., additional, Cody, Alison, additional, Martin, Adele, additional, Mansson, Martin, additional, Schweda, Elke K. H., additional, Brisson, Jean-Robert, additional, Richards, James C., additional, Moxon, E. Richard, additional, and Wakarchuk, Warren W., additional

Published
2001
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19. Meningococcal pilin: a glycoprotein substituted with digalactosyl 2,4-diacetamido-2,4,6-trideoxyhexose

Author

Stimson, Elaine, primary, Virji, Mumtaz, additional, Makepeace, Katherine, additional, Dell, Anne, additional, Morris, Howard R., additional, Payne, Gail, additional, Saunders, Jon R., additional, Jennings, Michael P., additional, Barker, Stephanie, additional, Panico, Maria, additional, Blench, Ian, additional, and Moxon, E. Richard, additional

Published
1995
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25. Expression of the Opc protein correlates with invasion of epithelial and endothelial cells by <em>Neisseria meningitidis</em>.

Author

Virji, Mumtaz, Makepeace, Katherine, Ferguson, David J. P., Achtman, Mark, Sarkari, Jasmine, and Moxon, E. Richard

Subjects
NEISSERIA meningitidis, NEISSERIA, MENINGITIS, EPITHELIAL cells, ENDOTHELIUM, PILI (Microbiology), BACTERIA morphology
Abstract

Whereas capsulate strains of Neisseria meningitidis are dependent on pili for adhesion to human endothelial and epithelial cells, strains which lacked assembled pili and were partially capsule-deficient adhered to and invaded human endothelial and epithelial cells If they expressed the Opc protein. Bacteria expressing low or undetectable levels of Opc protein tailed to adhere to or invade eukaryotic cells. In addition, the presence of OpaAC751 protein on the surface of bacteria did not increase bacterial interactions with host cells. Association of Opc-express ing bacteria was inhibited by antibodies against Opc. Invasion was dependent on the host-cell cytoskeletal activity and was inhibited by cytochalasin D. In some cells, infected at the apical surface, bacteria emerging from basal surface were detected by electron microscopy. Opc is found in diverse meningococci and may represent a common virulence factor which facilitates adherence and invasion by these bacteria. [ABSTRACT FROM AUTHOR]

Published
1992
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