Your search keyword '"Reiling, L"' showing total 3 results

1. Low Levels of Human Antibodies to Gametocyte-Infected Erythrocytes Contrasts the PfEMP1-Dominant Response to Asexual Stages in P. falciparum Malaria

Author

Chan, J-A, Drew, DR, Reiling, L, Lisboa-Pinto, A, Dinko, B, Sutherland, CJ, Dent, AE, Chelimo, K, Kazura, JW, Boyle, MJ, Beeson, JG, Chan, J-A, Drew, DR, Reiling, L, Lisboa-Pinto, A, Dinko, B, Sutherland, CJ, Dent, AE, Chelimo, K, Kazura, JW, Boyle, MJ, and Beeson, JG

Abstract

Vaccines that target Plasmodium falciparum gametocytes have the potential to reduce malaria transmission and are thus attractive targets for malaria control. However, very little is known about human immune responses to gametocytes present in human hosts. We evaluated naturally-acquired antibodies to gametocyte-infected erythrocytes (gametocyte-IEs) of different developmental stages compared to other asexual parasite stages among naturally-exposed Kenyan residents. We found that acquired antibodies strongly recognized the surface of mature asexual-IEs, but there was limited reactivity to the surface of gametocyte-IEs of different stages. We used genetically-modified P. falciparum with suppressed expression of PfEMP1, the major surface antigen of asexual-stage IEs, to demonstrate that PfEMP1 is a dominant target of antibodies to asexual-IEs, in contrast to gametocyte-IEs. Antibody reactivity to gametocyte-IEs was similar to asexual-IEs lacking PfEMP1. Significant antibody reactivity to the surface of gametocytes was observed when outside of the host erythrocyte, including recognition of the major gametocyte antigen, Pfs230. This indicates that there is a deficiency of acquired antibodies to gametocyte-IEs despite the acquisition of antibodies to gametocyte antigens and asexual IEs. Our findings suggest that the acquisition of substantial immunity to the surface of gametocyte-IEs is limited, which may facilitate immune evasion to enable malaria transmission even in the face of substantial host immunity to malaria. Further studies are needed to understand the basis for the limited acquisition of antibodies to gametocytes and whether vaccine strategies can generate substantial immunity.

Published

2019

2. Differential Patterns of IgG Subclass Responses to Plasmodium falciparum Antigens in Relation to Malaria Protection and RTS,S Vaccination

Author

Dobano, C, Santano, R, Vidal, M, Jimenez, A, Jairoce, C, Ubillos, I, Dosoo, D, Aguilar, R, Williams, NA, Diez-Padrisa, N, Ayestaran, A, Valim, C, Asante, KP, Owusu-Agyei, S, Lanar, D, Chauhan, V, Chitnis, C, Dutta, S, Angov, E, Gamain, B, Coppel, RL, Beeson, JG, Reiling, L, Gaur, D, Cavanagh, D, Gyan, B, Nhabomba, AJ, Campo, JJ, Moncunill, G, Dobano, C, Santano, R, Vidal, M, Jimenez, A, Jairoce, C, Ubillos, I, Dosoo, D, Aguilar, R, Williams, NA, Diez-Padrisa, N, Ayestaran, A, Valim, C, Asante, KP, Owusu-Agyei, S, Lanar, D, Chauhan, V, Chitnis, C, Dutta, S, Angov, E, Gamain, B, Coppel, RL, Beeson, JG, Reiling, L, Gaur, D, Cavanagh, D, Gyan, B, Nhabomba, AJ, Campo, JJ, and Moncunill, G

Abstract

Naturally acquired immunity (NAI) to Plasmodium falciparum malaria is mainly mediated by IgG antibodies but the subclasses, epitope targets and effector functions have not been unequivocally defined. Dissecting the type and specificity of antibody responses mediating NAI is a key step toward developing more effective vaccines to control the disease. We investigated the role of IgG subclasses to malaria antigens in protection against disease and the factors that affect their levels, including vaccination with RTS,S/AS01E. We analyzed plasma and serum samples at baseline and 1 month after primary vaccination with RTS,S or comparator in African children and infants participating in a phase 3 trial in two sites of different malaria transmission intensity: Kintampo in Ghana and Manhiça in Mozambique. We used quantitative suspension array technology (qSAT) to measure IgG1-4 responses to 35 P. falciparum pre-erythrocytic and blood stage antigens. Our results show that the pattern of IgG response is predominantly IgG1 or IgG3, with lower levels of IgG2 and IgG4. Age, site and RTS,S vaccination significantly affected antibody subclass levels to different antigens and susceptibility to clinical malaria. Univariable and multivariable analysis showed associations with protection mainly for cytophilic IgG3 levels to selected antigens, followed by IgG1 levels and, unexpectedly, also with IgG4 levels, mainly to antigens that increased upon RTS,S vaccination such as MSP5 and MSP1 block 2, among others. In contrast, IgG2 was associated with malaria risk. Stratified analysis in RTS,S vaccinees pointed to novel associations of IgG4 responses with immunity mainly involving pre-erythrocytic antigens upon RTS,S vaccination. Multi-marker analysis revealed a significant contribution of IgG3 responses to malaria protection and IgG2 responses to malaria risk. We propose that the pattern of cytophilic and non-cytophilic IgG antibodies is antigen-dependent and more complex than initially thoug

Published

2019

3. Editorial: Advances on the Gametocyte Biology, Host Immunity and Vector Stages to Interrupt the Transmission of Malaria.

Author

Chan JA, Ngotho P, Amoah LE, Sollelis L, and Reiling L

Subjects

Biology, Humans, Malaria prevention & control, Malaria, Falciparum

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2022