Your search keyword '"Martin Burkhardt"' showing total 4 results

1. Structural and immunological differences in Plasmodium falciparum sexual stage transmission-blocking vaccines comprised of Pfs25-EPA nanoparticles

Author

Nicholas J. MacDonald, Kavita Singh, Karine Reiter, Vu Nguyen, Richard Shimp, Apostolos G. Gittis, Beth Chen, Martin Burkhardt, Baoshan Zhang, Zhixiong Wang, Raul Herrera, Mackenzie Moler, Duck-Yeon Lee, Sachy Orr-Gonzalez, Jessica Herrod, Lynn E. Lambert, Kelly M. Rausch, Olga Muratova, David S. Jones, Yimin Wu, Albert J. Jin, David N. Garboczi, Patrick E. Duffy, and David L. Narum

Subjects

Pharmacology, Infectious Diseases, Immunology, Pharmacology (medical)

Abstract

Development of a malaria vaccine that blocks transmission of different parasite stages to humans and mosquitoes is considered critical for elimination efforts. A vaccine using Pfs25, a protein on the surface of zygotes and ookinetes, is under investigation as a transmission-blocking vaccine (TBV) that would interrupt parasite passage from mosquitoes to humans. The most extensively studied Pfs25 TBVs use Pichia pastoris-produced recombinant forms of Pfs25, chemically conjugated to a recombinant carrier protein, ExoProtein A (EPA). The recombinant form of Pfs25 first used in humans was identified as Pfs25H, which contained a total of 14 heterologous amino acid residues located at the amino- and carboxyl-termini including a His6 affinity tag. A second recombinant Pfs25, identified as Pfs25M, was produced to remove the heterologous amino acid residues and conjugated to EPA (Pfs25M-EPA). Here, monomeric Pfs25M was characterized biochemically and biophysically for identity, purity, and integrity including protein structure to assess its comparability with Pfs25H. Although the biological activities of Pfs25H and Pfs25M, whether generated by monomeric forms or conjugated nanoparticles, appeared similar, fine-mapping studies with two transmission-blocking monoclonal antibodies detected structural and immunological differences. In addition, evaluation of antisera generated against conjugated Pfs25H or Pfs25M nanoparticles in nonhuman primates identified polyclonal IgG that recognized these structural differences.

Published

2023

2. Author Correction: A human monoclonal antibody blocks malaria transmission and defines a highly conserved neutralizing epitope on gametes

Author

Camila H. Coelho, Wai Kwan Tang, Martin Burkhardt, Jacob D. Galson, Olga Muratova, Nichole D. Salinas, Thiago Luiz Alves e Silva, Karine Reiter, Nicholas J. MacDonald, Vu Nguyen, Raul Herrera, Richard Shimp, David L. Narum, Miranda Byrne-Steele, Wenjing Pan, Xiaohong Hou, Brittany Brown, Mary Eisenhower, Jian Han, Bethany J. Jenkins, Justin Y. A. Doritchamou, Margery G. Smelkinson, Joel Vega-Rodríguez, Johannes Trück, Justin J. Taylor, Issaka Sagara, Sara A. Healy, Jonathan P. Renn, Niraj H. Tolia, and Patrick E. Duffy

Subjects

Multidisciplinary, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology

Published

2022

3. Author Correction: Allelic variants of full-length VAR2CSA, the placental malaria vaccine candidate, differ in antigenicity and receptor binding affinity

Author

Jonathan P. Renn, Justin Y. A. Doritchamou, Bergeline C. Nguemwo Tentokam, Robert D. Morrison, Matthew V. Cowles, Martin Burkhardt, Rui Ma, Almahamoudou Mahamar, Oumar Attaher, Bacary S. Diarra, Moussa Traore, Alassane Dicko, Niraj H. Tolia, Michal Fried, and Patrick E. Duffy

Subjects

Medicine (miscellaneous), General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Published

2022

4. Allelic variants of full-length VAR2CSA, the placental malaria vaccine candidate, differ in antigenicity and receptor binding affinity

Author

Jonathan P. Renn, Justin Y. A. Doritchamou, Bergeline C. Nguemwo Tentokam, Robert D. Morrison, Matthew V. Cowles, Martin Burkhardt, Rui Ma, Almahamoudou Mahamar, Oumar Attaher, Bacary S. Diarra, Moussa Traore, Alassane Dicko, Niraj H. Tolia, Michal Fried, and Patrick E. Duffy

Subjects

Protein vaccines, Antigenicity, Glycosylation, QH301-705.5, Placenta, Plasmodium falciparum, Medicine (miscellaneous), Antigens, Protozoan, Biology, Article, General Biochemistry, Genetics and Molecular Biology, law.invention, chemistry.chemical_compound, Immunogenicity, Vaccine, Syncytiotrophoblast, Antigen, Pregnancy, law, Malaria Vaccines, parasitic diseases, medicine, Antigenic variation, Humans, Malaria, Falciparum, Biology (General), Malaria vaccine, Molecular biology, Malaria, medicine.anatomical_structure, chemistry, embryonic structures, Recombinant DNA, Female, General Agricultural and Biological Sciences, Protein Binding

Abstract

Plasmodium falciparum-infected erythrocytes (IE) sequester in the placenta via surface protein VAR2CSA, which binds chondroitin sulfate A (CSA) expressed on the syncytiotrophoblast surface, causing placental malaria (PM) and severe adverse outcomes in mothers and their offspring. VAR2CSA belongs to the PfEMP1 variant surface antigen family; PfEMP1 proteins mediate IE adhesion and facilitate parasite immunoevasion through antigenic variation. Here we produced deglycosylated (native-like) and glycosylated versions of seven recombinant full-length VAR2CSA ectodomains and compared them for antigenicity and adhesiveness. All VAR2CSA recombinants bound CSA with nanomolar affinity, and plasma from Malian pregnant women demonstrated antigen-specific reactivity that increased with gravidity and trimester. However, allelic and glycosylation variants differed in their affinity to CSA and their serum reactivities. Deglycosylated proteins (native-like) showed higher CSA affinity than glycosylated proteins for all variants except NF54. Further, the gravidity-related increase in serum VAR2CSA reactivity (correlates with acquisition of protective immunity) was absent with the deglycosylated form of atypical M200101 VAR2CSA with an extended C-terminal region. Our findings indicate significant inter-allelic differences in adhesion and seroreactivity that may contribute to the heterogeneity of clinical presentations, which could have implications for vaccine design., Full-length VAR2CSA is a potential placental malaria vaccine candidate and in this study, Renn et al. compare antigenicity and receptor binding affinity of different allelic variants in blood samples from pregnant women. Their data show that inter-allelic differences may contribute to the heterogeneity of clinical presentations, which could have implications for vaccine design.

Published

2021