Brian McGuinness scite author profile

The previously determined nucleotide sequence of the porA gene, encoding the class 1 outer membrane protein of meningococcal strain MC50, has been used to clone and sequence the porA gene from two further strains with differing serosubtype specificities. Comparison of the predicted amino acid sequences of the three class 1 proteins revealed considerable structural homology with major variation confined to two discrete regions (VR1 and VR2). The high degree of structural homology between the sequences gave predicted secondary structures that were almost identical, with the variable domains located in hydrophilic regions that are likely to be surface located and hence accessible to antibody binding. The predicted amino acid sequences have been used to define the epitopes recognized by mAbs with serosubtype specificity. A series of overlapping decapeptides spanning each of the class 1 protein sequences have been synthesized on solid-phase supports and probed with mAbs. Antibodies with P1.16 and P1.15 subtype specificity reacted with sequences in the VR2 domain, while antibodies with P1.7 subtype specificity reacted with sequences in the VR1 domain. Further peptides have been constructed to define the minimum epitopes recognized by each antibody. Thus we have been able to define linear peptides on each class 1 protein molecule that are responsible for subtype specificity and that represent targets for a protective immune response.

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Point mutation in meningococcal por A gene associated with increased endemic disease

McGuinness

et al. 1991

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Class 1 outer membrane protein of Neisseria meningitidis: epitope analysis of the antigenic diversity between strains, implications for subtype definition and molecular epidemiology

McGuinness

Lambden

Heckels

1993

Molecular Microbiology

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The VR1 and VR2 regions of the class 1 protein have been sequenced from a number of meningococcal strains, including non-subtypable strains and strains of apparently identical subtype. The amino acid sequences have been used to construct synthetic peptides for mapping subtype-specific epitopes. The majority of epitopes was found to be located in VR2 at the apex of a predicted surface-exposed loop. A single amino acid change within an epitope, or an amino acid deletion outside an epitope, were both associated with loss of subtype specificity, resulting from a change in the predicted conformation at the apex of the loop structure. Analysis of the sequence information combined with knowledge of defined epitopes also revealed considerable additional information not demonstrated by current subtyping procedures.

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Immunization with synthetic peptides containing epitopes of the class 1 outer-membrane protein of Neisseria meningitidis: production of bactericidal antibodies on immunization with a cyclic peptide

Christodoulides

McGuinness²,

Heckels³

1993

Journal of General Microbiology

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The class 1 outer-membrane protein of Neisseria menigitidis is the target for subtype-specific, bactericidal monoclonal antibodies (mAbs). The epitopes recognized by these antibodies have been mapped previously to linear peptides corresponding to the sequences thought to be exposed at the apices of surface-exposed loops of the protein.In this work several synthetic peptides containing the subtype P1.16b epitope have been synthetized with the aim of inducing a polyclonal immune response resembling the reactivity of the mAbs. Initially, peptides of 9 and 15 amino acid residues were synthesized and used for immunization after coupling to a carrier protein. The reactivity of the resulting antisera, with synthetic linear decapeptides, resembled that seen in previous epitope mapping experiments with the protective mAbs. However, despite the induction of antibodies having the desired specificity, the antisera reacted poorly with the native protein in outer membranes, and were non-bactericidal. A 36mer peptide, consisting of the entire surface-exposed loop 4 of the class 1 protein was then synthesized and used for immunization as (i) free peptide, (ii) peptide coupled to carrier and (iii) peptide subjected to cyclization, in an attempt to restrict it to conformations that might more closely resemble the native loop structure. In contrast to antisera raised against linear peptides, antibodies raised by immunization with the 36mer cyclic peptide, did not react with linear peptides recognized by the mAbs, but instead appeared to recognize conformational determinants. This antiserum promoted complement-mediated bactericidal killing of the homologous meningococcal strain, demonstrating the potential of synthetic peptide immunogens for inducing a protective immune response against group B meningococci.

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