Human papillomavirus (HPV) type 16 is implicated in the aetiology of anogenital dysplasia which may progress to malignancy. HPV-16 DNA is actively transcribed in cervical carcinomas, the most abundant transcripts being from the E6 and E7 early open reading frames. The E7 protein has been shown to have transforming activity in vitro. In this report we define four immunodominant B epitopes within the protein corresponding to the E7 gene, using a panel of murine monoclonal antibodies. Three epitopes are linear and lie within the N-terminal region of the molecule, and are unique to the HPV-16 E7 protein. One epitope is non-linear and presumed to be conformational. At least three of the four epitopes of the E7 protein are detectable by immunoprecipitation from an HPV-16-infected cervical carcinoma cell line. The demonstrated immunogenicity of the E7 protein allows us to deduce that this molecule may be a potential candidate for incorporation in a vaccine against cervical cancer.
The gene encoding the major Mycobacterium boais secreted protein MPB7O was cloned and isolated from a DNA library in I EMBL 3, and the restriction map of the area of chromosome containing the gene ascertained. After sub-cloning, the complete DNA sequence and predicted amino acid sequence were determined, and from this information a series of overlapping octapeptides encoding all possible linear epitopes of eight or less amino acids were synthesized. These peptides were probed with monoclonal antibodies speci6c for M. boais and with sera from M. book-infected cattle. Epitopes dehed by this technique were then examined using a substitution analysis that allowed the sigdicance of each amino acid in the putative epitope to be quantified, and the exact specificity of the antibody response for the epitope determined.
Monoclonal antibodies directed against the 51 kD merozoite surface antigen of Plasmodium falciparum also bind to other antigens within the infected cell. The sizes of these cross-reacting antigens have been characterized. Immunofluorescence due to the reaction of one of the monoclonal antibodies with these cross-reacting antigens was localized in the intra-erythrocytic parasite and in granules in the infected red cell cytoplasm. This immunofluorescence could be distinguished from the merozoite surface antigen in parasite lines with a variant serotype of the merozoite surface antigen which fails to react with the monoclonal antibodies. It was found that the in-vitro growth inhibition caused by the presence of one of the monoclonal antibodies, 8G10/48, was dependent on the expression of the corresponding serotype of merozoite surface antigen, a finding consistent with the inhibitory effect of this antibody being primarily directed against the merozoite surface antigen and not the cross-reacting antigens. Analysis of the frequency at which epitopes occur suggests that such cross-reacting proteins will be commonly seen in malaria, without the need to postulate a selective advantage for such cross-reacting specificities.
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