Immunological characteristics of recombinant fragments of the Plasmodium falciparum blood-stage antigen Pf332

Balogun, Halima A.

January 2011

Effective malaria vaccine might help improve control strategies against malaria, but the complexity of interactions between the parasite and its hosts poses challenges. The asexual blood stage P. falciparum antigen Pf332 has potentials as one of the proteins in understanding the complex host-parasite interactions. The interest in Pf332 as a target for parasite neutralizing antibodies, evolved from previous studies demonstrating that Pf332-reactive antibodies inhibits parasite growth in vitro. The presence of natural P. falciparum infection also indicated that Pf332 has the ability to induce protective antibodies. In paper I, we identified and characterized the immunogenicity of a C-terminal region of Pf332. Immunological analyses carried out with this fragment revealed that rabbit anti-C231 antibodies possess parasite in vitro inhibitory capabilities. In paper II, the functional activity of C231 specific antibodies was confirmed with human-affinity purified antibodies, where the antibodies inhibited late stage parasite development, by the presence of abnormal parasites and disintegrated red cell membranes. Epidemiological data from malaria endemic area of Senegal (Paper III & IV), showed that antibodies were reactive with two different fragments of Pf332 (C231 and DBL). Distribution of anti-C231 antibodies in the IgG subclasses, gave similar levels of IgG2 and IgG3. The levels of anti-C231 antibodies were associated with protection from clinical malaria, but with DBL reactive antibodies IgG3 was associated with protection from clinical malaria. We hereby conclude that antigen Pf332 contains immunogenic epitopes, and is a potential target for parasite neutralizing antibodies. The Pf332 protein should thus be considered as a candidate antigen for inclusion in a subunit P. falciparum malaria vaccine. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Submitted. Paper 4: Manuscript.

Plasmodium falciparum

Pf332

antibodies

immunity

growth inhibition

Immunology

Immunologi

Vaccine development strategies applied to the<i> Plasmodium falciparum</i> malaria antigen 332

Vasconcelos, Nina-Maria

January 2006

<p>Malaria is one of the major infectious diseases in the world with regard to mortality and morbidity, and the development of a vaccine against the malaria parasite <i>Plasmodium falciparum</i> is considered of high priority. The aim of the work presented in this thesis was to develop and characterize recombinant vaccine constructs based on the <i>P. falciparum</i> asexual blood-stage antigen Pf332. We have studied the humoral responses in mice elicited by various types of constructs, including naked DNA plasmids, naked mRNA, alphavirus, and peptides. Immunological memory was successfully induced against the repetitive EB200 fragment of Pf332, although the antibody titers were generally low and the highest titers were unexpectedly obtained with a conventional DNA plasmid. In another study, we also demonstrated the ability to circumvent genetically restricted immune responses in mice against two malaria epitopes, one of them derived from Pf332, by inclusion of universal T-cell epitopes into multiple antigen peptide constructs. However, the overall variability of the responses stressed the importance of including several epitopes in a future malaria vaccine. Further, the recent completion of sequencing of Pf332 enabled us to identify and characterize the immunogenic properties of a non-repeat fragment of the Pf332, termed C231. Our analyses of C231 showed that antibodies raised against the recombinant protein possess an <i>in vitro</i> parasite inhibitory capacity similar to that of antibodies against recombinant EB200. Furthermore, the recognition of C231 by antibodies in sera from individuals naturally primed to <i>P. falciparum</i>, correlated well with that previously observed for the corresponding sera and EB200. When analyzing the IgG subclass distribution of anti-C231 antibodies, we noted a bias towards IgG2 and IgG3 relative to IgG1, differing from the subclass profiles of IgG binding crude <i>P. falciparum</i> antigen, which were dominated by IgG1. Taken together, the work presented herein is likely to facilitate further studies on Pf332 as a potential target for protective immune responses, and amounts to a small step towards the realization of a malaria vaccine.</p>

malaria

sub-unit vaccines

immunogenicity

antibody response

antigen Pf332

Immunology

Immunologi

Vaccine development strategies applied to the Plasmodium falciparum malaria antigen 332

Vasconcelos, Nina-Maria

January 2006

Malaria is one of the major infectious diseases in the world with regard to mortality and morbidity, and the development of a vaccine against the malaria parasite Plasmodium falciparum is considered of high priority. The aim of the work presented in this thesis was to develop and characterize recombinant vaccine constructs based on the P. falciparum asexual blood-stage antigen Pf332. We have studied the humoral responses in mice elicited by various types of constructs, including naked DNA plasmids, naked mRNA, alphavirus, and peptides. Immunological memory was successfully induced against the repetitive EB200 fragment of Pf332, although the antibody titers were generally low and the highest titers were unexpectedly obtained with a conventional DNA plasmid. In another study, we also demonstrated the ability to circumvent genetically restricted immune responses in mice against two malaria epitopes, one of them derived from Pf332, by inclusion of universal T-cell epitopes into multiple antigen peptide constructs. However, the overall variability of the responses stressed the importance of including several epitopes in a future malaria vaccine. Further, the recent completion of sequencing of Pf332 enabled us to identify and characterize the immunogenic properties of a non-repeat fragment of the Pf332, termed C231. Our analyses of C231 showed that antibodies raised against the recombinant protein possess an in vitro parasite inhibitory capacity similar to that of antibodies against recombinant EB200. Furthermore, the recognition of C231 by antibodies in sera from individuals naturally primed to P. falciparum, correlated well with that previously observed for the corresponding sera and EB200. When analyzing the IgG subclass distribution of anti-C231 antibodies, we noted a bias towards IgG2 and IgG3 relative to IgG1, differing from the subclass profiles of IgG binding crude P. falciparum antigen, which were dominated by IgG1. Taken together, the work presented herein is likely to facilitate further studies on Pf332 as a potential target for protective immune responses, and amounts to a small step towards the realization of a malaria vaccine.

malaria

sub-unit vaccines

immunogenicity

antibody response

antigen Pf332

Immunology

Immunologi