Your search keyword '"whole organism vaccine"' showing total 5 results

1. Conservation of S20 as an Ineffective and Disposable IFNγ-Inducing Determinant of Plasmodium Sporozoites Indicates Diversion of Cellular Immunity

Author

Calvin Hon, Johannes Friesen, Alyssa Ingmundson, Diana Scheppan, Julius C. R. Hafalla, Katja Müller, and Kai Matuschewski

Subjects

malaria, Plasmodium, sporozoite, whole organism vaccine, antigen, CD8+ T cells, Microbiology, QR1-502

Abstract

Despite many decades of research to develop a malaria vaccine, only one vaccine candidate has been explored in pivotal phase III clinical trials. This candidate subunit vaccine consists of a portion of a single Plasmodium antigen, circumsporozoite protein (CSP). This antigen was initially identified in the murine malaria model and shown to contain an immunodominant and protective CD8+ T cell epitope specific to the H-2Kd (BALB/c)-restricted genetic background. A high-content screen for CD8+ epitopes in the H2Kb/Db (C57BL/6)-restricted genetic background, identified two distinct dominant epitopes. In this study, we present a characterization of one corresponding antigen, the Plasmodium sporozoite-specific protein S20. Plasmodium berghei S20 knockout sporozoites and liver stages developed normally in vitro and in vivo. This potent infectivity of s20(-) sporozoites permitted comparative analysis of knockout and wild-type parasites in cell-based vaccination. Protective immunity of irradiation-arrested s20(-) sporozoites in single, double and triple immunizations was similar to irradiated unaltered sporozoites in homologous challenge experiments. These findings demonstrate the presence of an immunogenic Plasmodium pre-erythrocytic determinant, which is not essential for eliciting protection. Although S20 is not needed for colonization of the mammalian host and for initiation of a blood infection, it is conserved amongst Plasmodium species. Malarial parasites express conserved, immunogenic proteins that are not required to establish infection but might play potential roles in diverting cellular immune responses.

Published

2021

2. Conservation of S20 as an Ineffective and Disposable IFNγ-Inducing Determinant of Plasmodium Sporozoites Indicates Diversion of Cellular Immunity.

Author

Hon, Calvin, Friesen, Johannes, Ingmundson, Alyssa, Scheppan, Diana, Hafalla, Julius C. R., Müller, Katja, and Matuschewski, Kai

Subjects

CELLULAR immunity, SPOROZOITES, PLASMODIUM, CIRCUMSPOROZOITE protein, PLASMODIUM berghei

Abstract

Despite many decades of research to develop a malaria vaccine, only one vaccine candidate has been explored in pivotal phase III clinical trials. This candidate subunit vaccine consists of a portion of a single Plasmodium antigen, circumsporozoite protein (CSP). This antigen was initially identified in the murine malaria model and shown to contain an immunodominant and protective CD8+ T cell epitope specific to the H-2K d (BALB/c)-restricted genetic background. A high-content screen for CD8+ epitopes in the H2K b /D b (C57BL/6)-restricted genetic background, identified two distinct dominant epitopes. In this study, we present a characterization of one corresponding antigen, the Plasmodium sporozoite-specific protein S20. Plasmodium berghei S20 knockout sporozoites and liver stages developed normally in vitro and in vivo. This potent infectivity of s20 (-) sporozoites permitted comparative analysis of knockout and wild-type parasites in cell-based vaccination. Protective immunity of irradiation-arrested s20 (-) sporozoites in single, double and triple immunizations was similar to irradiated unaltered sporozoites in homologous challenge experiments. These findings demonstrate the presence of an immunogenic Plasmodium pre-erythrocytic determinant, which is not essential for eliciting protection. Although S20 is not needed for colonization of the mammalian host and for initiation of a blood infection, it is conserved amongst Plasmodium species. Malarial parasites express conserved, immunogenic proteins that are not required to establish infection but might play potential roles in diverting cellular immune responses. [ABSTRACT FROM AUTHOR]

Published

2021

3. Comparative efficacy of pre-erythrocytic whole organism vaccine strategies against the malaria parasite

Author

Friesen, Johannes and Matuschewski, Kai

Subjects

*PLASMODIUM, *MALARIA vaccines, *ERYTHROCYTES, *DRUG development, *REVERSE transcriptase polymerase chain reaction, *BLOOD testing, *AZITHROMYCIN, *ANIMAL models in research

Abstract

Abstract: Despite major efforts over the past 50 years to develop a malaria vaccine, no product has been licensed yet. Irradiated sporozoites are the benchmark for an experimental live-attenuated malaria vaccine that induces potent protection against re-infection in humans and animal models. Lasting protection can also be elicited by parasite attenuation via tailored genetic modification or drug cover leading to renewed interest in whole-organism vaccination strategies. In this study, we systematically compared the protective efficacy of different whole-organism vaccination approaches in the Plasmodium berghei/C57bl/6 rodent malaria model. We applied blood stage parasitemia and quantitative RT-PCR of liver parasite loads as two complementary primary endpoints of a malaria challenge infection. We were able to demonstrate similar potency of genetic attenuation, i.e., uis3(−) and p36p(−) parasites, and prophylactic drug cover, i.e., azithromycin, pyrimethamine, primaquine and chloroquine, during sporozoite exposure in comparison to irradiated sporozoites. Importantly, when animals were covered with the antibiotic azithromycin during sporozoite exposure we observed superior protection. On the other end, immunizations with heat-killed and over-irradiated sporozoites failed to confer any detectable protection. Together, we show that systematic pre-clinical evaluation and quantification of vaccine efficacy is vital for identification of the most potent whole organism anti-malaria vaccine strategy. [Copyright &y& Elsevier]

Published

2011

4. Malaria vaccine research: lessons from 2008/9.

Author

Haque, Ashraful and Good, Michael F

Published

2009

5. Hitting malaria before it hurts: attenuated Plasmodium liver stages.

Author

Matuschewski, K.

Subjects

*MALARIA, *IMMUNITY, *PROTOZOAN diseases, *MOSQUITOES, *VACCINES

Abstract

Continuous natural exposure to Plasmodium transmission by infectious Anopheles mosquitoes leads to a gradual acquisition of immunological competence against malaria. The partial immunity, observed in adolescents and adults living in endemic areas, reduces morbidity and mortality without preventing parasite infection. In experimental animal models, long-lasting sterilizing immunity can be achieved with genetically attenuated Plasmodium liver stages. Can these findings be translated to accomplish sterile protection against natural malaria transmission in the high-risk group, young infants in sub-Saharan Africa? [ABSTRACT FROM AUTHOR]

Published

2007