| 1. |
- Iriemenam, Nnaemeka C., 1973-
(author)
-
Antibody responses and Fc gamma receptor IIa polymorphism in relation to Plasmodium falciparum malaria
- 2009
-
Doctoral thesis (other academic/artistic)abstract
- Immunity to asexual blood-stage of Plasmodium falciparum malaria is believed to be associated with protective antibodies of certain immunoglobulin classes and subclasses. This thesis addressed the importance of antibodies in relation to malaria infection and their effective interactions with Fc gamma receptor IIa (FcyRIIa) polymorphisms. Our data indicate that the frequency of FcyRIIa-R/R131 genotype was statistically significantly higher in Sudanese patients with severe malaria, while the FcyRIIa-H/H131 genotype showed a significant association with mild malaria. The levels of IgG1 and IgG3 subclass antibodies were statistically higher in the mild malaria patients. The Fulani ethnic group in West Africa has been shown to be relatively resistant to malaria. We investigated the possible impact of FcyRIIa polymorphisms in the Fulani and non-Fulani in Mali and Sudan, and analysed their malaria-reactive IgG subclass profiles. The FcyRIIa-H/H131 genotype and H131-allele were found to be prevalent in the Fulani while R131-allele was prevalent in non-Fulani. The Fulani had higher serum levels of IgG1-3, with higher proportion of IgG2 than the non-Fulani. Most clinico-epidemiology studies have been in areas with holo- and hyper-malaria endemicity. We have analysed antibody responses to a panel of six blood-stage antigens in relation to clinical malaria outcome in mesoendemic Sudan. Our results revealed a linear association with anti-AMA-1 IgG1 antibodies and reduced risk of severe malaria while a non-linear relationship with IgG3 antibodies was observed for MSP-2, MSP-3 and GLURP. In the combined final model, the highest levels of IgG1 subclass antibodies to AMA-1, GLURP-R0, and the highest levels of IgG3 subclass antibodies reactive to 3D7 MSP-2 were independently associated with a reduced risk of clinical malaria. Taken together, these data suggest a possible association between FcyRIIa-R/H131 and anti-malarial antibody responses in the clinical outcome of malaria.
|
|
| 2. |
- Nasr, Amre, 1975-
(author)
-
Single nucleotide polymorphisms related to immune responses in Plasmodium falciparum malaria
- 2008
-
Doctoral thesis (other academic/artistic)abstract
- The current research is directed towards dissection of host genetic factors involved in host immune response and the malaria disease outcome. A possible association between FcγRIIa polymorphism and anti-malarial antibody (A.M.A) responses were investigated in Sudanese patients in relation to clinical outcome of falciparum malaria. The frequency of the R/R131 genotype was significantly higher in patients with severe malaria as compared with mild malaria. A.M.A IgG3 was shown to be associated with reduced risk of clinical malaria in individuals carrying the H/H131 genotype. Low levels of IgG2 reactive with the Pf332-C231 antigen were associated with lower risk of severe malaria in individuals carrying the H131 allele. Fulani and Masaleit, two sympatric ethnic groups in Sudan, are characterized by marked differences in susceptibility to falciparum malaria. We investigated whether the two populations differ in the frequency of GM/KM allotypes. The distribution of GM/KM phenotypes differed significantly among the two groups, with Gm 6 being significantly lower among the Fulani, and the combined frequency of Km 1,3 and Gm 1,17 5,6,13,14 phenotypes was found to be higher among Masaleit. In interethnic study we investigated whether the two groups differ in the frequency of FcγRIIa and HbAS genotypes. The frequency of the H/H131, R/R13 and HbAS genotypes differed significantly among the two groups. Moreover, the Fulani showed higher levels of A.M.A IgG2 and lower IgG1 and IgG3 when compared to their sympatric non-Fulani neighbours.A tri-allelic SNP (C/T/A) in the CRP gene was investigated for possible ethnic associations. The A allele, which is associated with higher basal CRP levels, was found to be less frequent in the Fulani compared with non-Fulani ethnic groups both in Sudan and Mali. In conclusion, our results suggest possible associations between FcγRIIa, CRP genotypes, GM/KM allotypes, and anti-malarial antibody responses and the clinical outcome of falciparum malaria.
|
|
| 3. |
- Awah, Nancy, 1976-
(author)
-
Studies on Plasmodium falciparum asexual blood stage antigens : RAP-2/RSP-2 and Pf332 in focus
- 2011
-
Doctoral thesis (other academic/artistic)abstract
- The life cycle of the malaria parasite is very complex and provides a number of potential targets for vaccination. In this thesis, data on two plasmodial asexual blood stage antigens (RAP-2 and Pf332) are presented. A partial aim of the work presented herein was to investigate the mechanisms responsible for the destruction of erythroid cells in anaemia, and more specifically to define the role of the rhoptry associated protein (RAP)-2 and other members of the RAP complex, RAP-1 and -3 in processes resulting in anaemia. Antibodies to the RAP complex were shown to have the potential to mediate the destruction of RAP-2-tagged erythroid cells by phagocytosis or by complement activation and lysis. In addition, antibodies to RAP-1 and RAP-2 could induce the apoptotic death of RAP-2- tagged erythroblasts. The frequency and functionality of naturally occurring RAP-2 antibodies in the sera of anaemic and non-anaemic Cameroonian children were also investigated. All sera tested contained RAP-2-reactive antibodies by both immunofluorescence and flow cytometry. The anaemic group of children had higher levels of IgG than the non-anaemic ones, while the levels of IgM were similar. With respect to IgG subclasses, higher levels of IgG3 were seen in the non-anaemic individuals as compared to anaemic subjects. The non-anaemic individuals recognised a greater proportion of RAP-2-tagged RBCs and activated complement to a greater extent than the anaemic ones. Earlier studies observed that humans continuously exposed to malaria, recognised Pf332 extensively. Further studies revealed that Pf332 antibodies were able to inhibit parasite growth and cytoadherence in vitro. Making use of Pf332-C231, a sub-fragment of Pf332, we studied the effects/mode of action of C231-specific antibodies on P. falciparum parasite growth and development in vitro. The antibodies appeared to act mainly on late stage parasites by two main mechanisms: 1) through the induction of abnormal/pyknotic parasites, and, 2) RBC lysis (disintegration of RBCs), thus limiting parasite growth and development. The antibody isotype in this context was IgG. Following the removal of immune pressure, parasites resumed growth, albeit at a much slower rate. The results suggest that during natural infections, antibodies to C231 could play a role in parasite control. In summary, these data suggest that antibodies to both antigens could be instrumental in immune responses leading to disease control, but could also mediate pathology.
|
|
| 4. |
- Balogun, Halima A., 1978-
(author)
-
Immunological characteristics of recombinant fragments of the Plasmodium falciparum blood-stage antigen Pf332
- 2011
-
Doctoral thesis (other academic/artistic)abstract
- 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.
|
|
| 5. |
- Israelsson, Elisabeth, 1979-
(author)
-
Host genetic factors and antibody responses with potential involvement in the susceptibility to malaria
- 2008
-
Doctoral thesis (other academic/artistic)abstract
- The relatively lower susceptibility to malaria seen in the Fulani ethnic group in Africa, as compared to other sympatric ethnic groups, has been related to genetic regulation of the immune responses. This thesis aimed to describe important pathways related to the regulation of antibodies in the immune responses during a malaria infection. Our results suggest that the higher anti-malarial immune responses seen in the Fulani are not a general hyper-responsiveness in this group, but neither a malaria specific response. Fcγ receptors are important structures in the immune responses, and polymorphisms in these genes were associated with IgG subclass levels, P. falciparum parasitemia and haemoglobin levels, suggesting that these polymorphisms may be a contributing factor to the differential susceptibility to malaria. C-reactive protein levels rise immediately in response to inflammatory stimuli, and the -286 CRP polymorphism was indicated to influence parasite levels, suggesting a possible involvement in the lower susceptibility to malaria seen in the Fulani ethnic group. Several cytokines are important in maintaining the optimal parasite-neutralizing milieu in the host, and we investigated polymorphisms in some of these cytokine genes, in order to establish a possible influence of these on malaria susceptibility. Several of these polymorphisms showed associations with haemoglobin levels, IgG subclass antibody levels and parasitemia, suggesting that IL-1β, IL-6, IL-10 and TNF could affect the susceptibility to malaria and the severity of the malaria infection.Taken together, these data suggest that genetic factors have the ability to affect the antibody responses, and that several pathways can be affected. Moreover, the Fulani have a genetic predisposition for a higher inflammatory response during a malaria infection, which could lower their susceptibility to the disease. However, the control measures for this inflammation still have to be established and evaluated.
|
|
| 6. |
- Vasconcelos, Nina-Maria, 1975-
(author)
-
Vaccine development strategies applied to the Plasmodium falciparum malaria antigen 332
- 2006
-
Doctoral thesis (other academic/artistic)abstract
- 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.
|
|
| 7. |
- Xu, Lili, 1959-
(author)
-
Studies on malaria blood stage infection and host responses
- 2013
-
Doctoral thesis (other academic/artistic)abstract
- The challenges in controlling malaria infectious disease are increasing due to drug resistance and incomplete immunity induced by malaria infection. Moreover there is no effective vaccine available against malaria blood stage infection. Fortunately the completions of the genomic sequences of several Plasmodium species and their bioinformatic analyses have revealed gene homologies indicating the considerable homologies between the human parasite P. falciparum and the mouse parasite P. yoelii. We investigated intensively the presence of functionally and antigenically conserved domains between P. falciparum and P. yoelii at asexual blood-stages. We took advantage of P. yoelii infection to study malaria anemia in a mouse malaria model that focused on cytokines and the cells producing them. Moreover, we explored antibodies reactive with the intraerythrocytic parasite antigen Pf332 for their effect on parasite growth in vitro in cooperation with human monocytes. Taken together, the whole study unlocks a few windows of malaria infection in host responses and we may need to change our strategies in fighting against malaria parasites by enlarging our scope of choosing components as vaccine candidates to control the disease.
|
|
| 8. |
- Balogun, Halima Aramide, 1978-
(author)
-
Immunological characteristics of a C-terminal fragment of the Plasmodium falciparum blood-stage antigen Pf332
- 2006
-
Licentiate thesis (other academic/artistic)abstract
- Till date, there are no effective control strategies against the deadly disease of malaria, and millions of children across Africa, Oceania, Asia, and Latin America are at the mercy of this long term enemy of man every second that passes by. Other control measures combined with vaccination might help improve control strategy against malaria, but the development of vaccines face various challenges as well, due to the complexity of the parasites’ life cycle and other host factors. The asexual blood stage antigen Pf332 of Plasmodium falciparum, is expressed during the trophozoite stage, and transported from the parasitophorous membrane to the outer erythrocyte membrane during schizogony. Previous studies have suggested this antigen as a potential vaccine candidate, because Pf332-reactive human monoclonal antibody (mAb 33G2) inhibits parasite growth and cytoadherence in vitro. Elucidating and understanding the immunological capabilities of antigen Pf332, as a vaccine candidate was the aim of the studies presented in this thesis. In our first study we identified and characterized the immunogenicity of a non-repeat fragment of antigen Pf332, termed Pf332-C231, a 231 amino acids long fragment corresponding to 13 percent of the total protein. Various analyses carried out with this fragment reveal that recombinant C231 was immunogenic in rabbits. In addition, anti- C231 antibodies have in vitro inhibitory capabilities. In immunoflourescence and immunoblot assays, rabbit anti-C231 antibodies were able to recognize the native protein. In the other study, we examined the distribution of antibodies regarding recombinant C231 and crude P. falciparum extract in a malaria endemic area of Senegal. IgG antibody reactivity with crude P. falciparum antigen was detected in the sera of all the donors while many of the children lacked or had low levels of such antibodies against C231. The distribution of the anti-C231 antibodies in the different IgG subclasses differed from that shown by crude P. falciparum antigen. The crude P. falciparum antigen gives a higher IgG3 response than IgG2 for all age-groups, while C231 gave similar levels of IgG2 and IgG3. Correlation studies showed that the levels of anti-C231antibodies were associated with protection from clinical malaria, but this only reached significance with IgE. These findings further emphasize the inclusion of antigen Pf332 as a subunit vaccine candidate against P. falciparum malaria.
|
|
| 9. |
- Bolad, Ahmed Kamal, 1959-
(author)
-
Antibody responses in Plasmodium falciparum malaria and their relation to protection against the disease
- 2004
-
Doctoral thesis (other academic/artistic)abstract
- Protective immunity against Plasmodium falciparum may be obtained after repeated exposure to infection. Several studies indicate that immunity against the blood stages of the P. Falciparum infection is mainly antibody mediated. Protective antibodies may act either on their own, mediate antibody-dependent phagocytosis and/or cell-mediated neutralization of parasites. This thesis describes several aspects of humoral immune responses to P. falciparum infection in individuals of different age groups, different genetic background and with different degrees of malaria exposure.Several target antigens for antibody-mediated inhibition of parasite growth or invasion have been identified. One such antigen is Pf332, which appears on the surface of parasitized erythrocytes at late trophozoite and schizont stage. This surface exposure makes the antigen a possible target for opsonizing antibodies. We optimized an in vitro assay for studying cellmediated parasite neutralization in the presence of Pf332-reactive antibodies. Our data demonstrate that, Pf332 specific antibodies are able to inhibit parasite growth on their own and in cooperation with human monocytes.The P. falciparum parasites have evolved several mechanisms to evade the host neutralizing immune responses. In this thesis, we show that freshly isolated P. falciparum parasites from children living in a malaria endemic area of Burkina Faso were less sensitive for growth inhibition in vitro by autologous immunoglobulins (Ig) compared with heterologous ones. Analyses of two consecutive isolates taken 14 days apart, with regard to genotypes and sensitivity to growth inhibition in vitro, did not give any clear-cut indications on possible mechanisms leading to a reduced inhibitory activity in autologous parasite/antibody combinations. The frequent presence of persisting parasite clones in asymptomatic children indicates that the parasite possesses as yet undefined mechanisms to evade neutralizing immune responses.Transmission reducing measures such insecticide treated nets (ITNs) have been shown to be effective in reducing morbidity and mortality from malaria. However, concerns have been raised that ITNs usage could affect the acquisition of malaria immunity. We studied the effect of the use of insecticide treated curtains (ITC) on anti-malarial immune responses of children living in villages with ITC since birth. The use of ITC did neither affect the levels of parasite neutralizing immune responses nor the multiplicity of infection. These results indicate that the use of ITC does not interfere with the acquisition of anti-malarial immunity in children living in a malaria hyperendemic area.There is substantial evidence that the African Fulani tribe is markedly less susceptible to malaria infection compared to other sympatrically living ethnic tribes. We investigated the isotypic humoral responses against P. falciparum asexual blood stages in different ethnic groups living in sympatry in two countries exhibiting different malaria transmission intensities, Burkina Faso and Mali. We observed higher levels of the total malaria-specific-IgG and its cytophilic subclasses in individuals of the Fulani tribe as compared to non-Fulani individuals. Fulani individuals also showed higher levels of antibodies to measles antigen, indicating that the intertribal differences are not specific for malaria and might reflect a generally activated immune system in the Fulani.
|
|
| 10. |
|
|
