Your search keyword '"Saul, Allan"' showing total 49 results

1. Atlas of group A streptococcal vaccine candidates compiled using large-scale comparative genomics

Author

Davies, Mark R., McIntyre, Liam, Mutreja, Ankur, Lacey, Jake A., Lees, John A., Towers, Rebecca J., Duchêne, Sebastián, Smeesters, Pierre R., Frost, Hannah R., Price, David J., Holden, Matthew T. G., David, Sophia, Giffard, Philip M., Worthing, Kate A., Seale, Anna C., Berkley, James A., Harris, Simon R., Rivera-Hernandez, Tania, Berking, Olga, Cork, Amanda J., Torres, Rosângela S. L. A., Lithgow, Trevor, Strugnell, Richard A., Bergmann, Rene, Nitsche-Schmitz, Patric, Chhatwal, Gusharan S., Bentley, Stephen D., Fraser, John D., Moreland, Nicole J., Carapetis, Jonathan R., Steer, Andrew C., Parkhill, Julian, Saul, Allan, Williamson, Deborah A., Currie, Bart J., Tong, Steven Y. C., Dougan, Gordon, and Walker, Mark J.

Abstract

Group A Streptococcus(GAS; Streptococcus pyogenes) is a bacterial pathogen for which a commercial vaccine for humans is not available. Employing the advantages of high-throughput DNA sequencing technology to vaccine design, we have analyzed 2,083 globally sampled GAS genomes. The global GAS population structure reveals extensive genomic heterogeneity driven by homologous recombination and overlaid with high levels of accessory gene plasticity. We identified the existence of more than 290 clinically associated genomic phylogroups across 22 countries, highlighting challenges in designing vaccines of global utility. To determine vaccine candidate coverage, we investigated all of the previously described GAS candidate antigens for gene carriage and gene sequence heterogeneity. Only 15 of 28 vaccine antigen candidates were found to have both low naturally occurring sequence variation and high (>99%) coverage across this diverse GAS population. This technological platform for vaccine coverage determination is equally applicable to prospective GAS vaccine antigens identified in future studies.

Published

2019

2. Quantitative proteomic analysis of Shigella flexneri and Shigella sonnei Generalized Modules for Membrane Antigens (GMMA) reveals highly pure preparations.

Author

Maggiore, Luana, Yu, Lu, Omasits, Ulrich, Rossi, Omar, Dougan, Gordon, Thomson, Nicholas R., Saul, Allan, Choudhary, Jyoti S., and Gerke, Christiane

Subjects

SHIGELLA flexneri, SHIGELLA sonnei, PROTEOMICS, BACTERIAL antigens, BACTERIAL vaccines, DRUG development

Abstract

Outer membrane blebs are naturally shed by Gram-negative bacteria and are candidates of interest for vaccines development. Genetic modification of bacteria to induce hyperblebbing greatly increases the yield of blebs, called Generalized Modules for Membrane Antigens (GMMA). The composition of the GMMA from hyperblebbing mutants of Shigella flexneri 2a and Shigella sonnei were quantitatively analyzed using high-sensitivity mass spectrometry with the label-free iBAQ procedure and compared to the composition of the solubilized cells of the GMMA-producing strains. There were 2306 proteins identified, 659 in GMMA and 2239 in bacteria, of which 290 (GMMA) and 1696 (bacteria) were common to both S. flexneri 2a and S. sonnei . Predicted outer membrane and periplasmic proteins constituted 95.7% and 98.7% of the protein mass of S. flexneri 2a and S. sonnei GMMA, respectively. Among the remaining proteins, small quantities of ribosomal proteins collectively accounted for more than half of the predicted cytoplasmic protein impurities in the GMMA. In GMMA, the outer membrane and periplasmic proteins were enriched 13.3-fold ( S. flexneri 2a) and 8.3-fold ( S. sonnei ) compared to their abundance in the parent bacteria. Both periplasmic and outer membrane proteins were enriched similarly, suggesting that GMMA have a similar surface to volume ratio as the surface to periplasmic volume ratio in these mutant bacteria. Results in S. flexneri 2a and S. sonnei showed high reproducibility indicating a robust GMMA-producing process and the low contamination by cytoplasmic proteins support the use of GMMA for vaccines. Data are available via ProteomeXchange with identifier PXD002517. [ABSTRACT FROM AUTHOR]

Published

2016

3. Click Chemistry Applied to the Synthesis of Salmonella Typhimurium O-Antigen Glycoconjugate Vaccine on Solid Phase with Sugar Recycling.

Author

Stefanetti, Giuseppe, Saul, Allan, MacLennan, Calman A., and Micoli, Francesca

Published

2015

4. Quantifying Recombinant Proteins and Their Degradation Products Using SDS-PAGE and Scanning Laser Densitometry.

Author

Walker, John M., Smales, C. Mark, James, David C., Miles, Aaron P., and Saul, Allan

Abstract

Numerous methods are widely used for the quantitation of proteins and their degradation products. Gel electrophoresis, followed by scanning laser densitometry, offers an accurate, sensitive, and reproducible technique that can be used at any stage during the production and purification of recombinant proteins. This technique offers many advantages over others for two main reasons: (1) proteolytic degradation is common among these proteins, and this method is able to accurately quantify degradation in both minute and large amounts; and (2) the common constituents of fermentation broths, refolding tanks, and purification processes do not interfere with the analysis. Analyses of a recombinant malarial protein at two different stages of purity will be used as examples to illustrate this method. [ABSTRACT FROM AUTHOR]

Published

2005

5. Extraction and Characterization of Vaccine Antigens from Water-in-Oil Adjuvant Formulations.

Author

Walker, John M., Smales, C. Mark, James, David C., Miles, Aaron P., and Saul, Allan

Abstract

Water-in-oil adjuvants are currently undergoing experimental testing in human vaccine trials (1‱10). Two such adjuvants are the squalene-based Montanide® ISA 720 and the mineral oil-based Montanide ISA 51 (11). Vaccines containing these adjuvants are intended to provide a lasting depot effect, with vaccine persisting at the injection site for many months (12). Because it is often convenient to formulate these vaccines well ahead of use, and because of the extended residence at the injection site, their stability must be established. Therefore, studies should be designed that will address stability at 4°C (intended storage temperature) and 37°C (body temperature) to ensure that the antigens remain intact and the vaccines consequently remain potent. With the addition of benzyl alcohol, the emulsion is broken, and the antigens are released and recoverable in the resulting aqueous layer. Storage at 4°C and 37°C of fresh formulations of ISA 720 and ISA 51 containing either of two recombinant malarial proteins, followed by extraction at various time points and analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), N-terminal sequencing, and Western blotting will be used to illustrate the methods involved in monitoring the stability of protein antigens in these water-in-oil formulations. [ABSTRACT FROM AUTHOR]

Published

2005

6. Determining Residual Host Cell Antigen Levels in Purified Recombinant Proteins by Slot Blot and Scanning Laser Densitometry.

Author

Walker, John M., Smales, C. Mark, James, David C., Miles, Aaron P., Daming Zhu, and Saul, Allan

Abstract

The production of recombinant proteins for therapeutic and vaccine uses necessitates the analysis of purified products for residual host cell antigens. Various assays to quantify these antigens in both in-process streams and purified bulk solutions have been described (1-3). Process-specific assays utilize those host cell antigens most likely to copurify with the protein of interest, whereas generic assays use all recoverable host cell antigens, thereby testing for the presence of any antigen during protein production and that might therefore be recovered with the purified protein. With limited utility of commercially available assay kits, we developed a fast, simple, quantitative, and highly sensitive method based on immunoblotting to accurately determine residual host cell antigen levels. Samples are applied directly to a membrane, and signals are measured by densitometry. This assay results in very low-background signals, providing accuracy and precision at the low nanogram/milliliter level, comparable to reported enzyme-linked immunosorbent assay (ELISA)-based methods. [ABSTRACT FROM AUTHOR]

Published

2005

7. Toll-Like Receptor Activation by Generalized Modules for Membrane Antigens from Lipid A Mutants of Salmonella entericaSerovars Typhimurium and Enteritidis

Author

Rossi, Omar, Caboni, Mariaelena, Negrea, Aurel, Necchi, Francesca, Alfini, Renzo, Micoli, Francesca, Saul, Allan, MacLennan, Calman A., Rondini, Simona, and Gerke, Christiane

Abstract

ABSTRACTInvasive nontyphoidal Salmonella(iNTS) disease is a neglected disease with high mortality in children and HIV-positive individuals in sub-Saharan Africa, caused primarily by Africa-specific strains of Salmonella entericaserovars Typhimurium and Enteritidis. A vaccine using GMMA (generalized modules for membrane antigens) from S.Typhimurium and S.Enteritidis containing lipid A modifications to reduce potential in vivoreactogenicity is under development. GMMA with penta-acylated lipid A showed the greatest reduction in the level of cytokine release from human peripheral blood monocytes from that for GMMA with wild-type lipid A. Deletion of the lipid A modification genes msbBand pagPwas required to achieve pure penta-acylation. Interestingly, ?msbB?pagPGMMA from S.Enteritidis had a slightly higher stimulatory potential than those from S.Typhimurium, a finding consistent with the higher lipopolysaccharide (LPS) content and Toll-like receptor 2 (TLR2) stimulatory potential of the former. Also, TLR5 ligand flagellin was found in SalmonellaGMMA. No relevant contribution to the stimulatory potential of GMMA was detected even when the flagellin protein FliC from S.Typhimurium was added at a concentration as high as 10% of total protein, suggesting that flagellin impurities are not a major factor for GMMA-mediated immune stimulation. Overall, the stimulatory potential of S.Typhimurium and S.Enteritidis ?msbB?pagPGMMA was close to that of ShigellasonneiGMMA, which are currently in phase I clinical trials.

Published

2016

8. Monoclonal Antibodies of a Diverse Isotype Induced by an O-Antigen Glycoconjugate Vaccine Mediate In Vitroand In VivoKilling of African Invasive Nontyphoidal Salmonella

Author

Goh, Yun Shan, Clare, Simon, Micoli, Francesca, Saul, Allan, Mastroeni, Pietro, and MacLennan, Calman A.

Abstract

ABSTRACTNontyphoidal Salmonella(NTS), particularly Salmonella entericaserovars Typhimurium and Enteritidis, is responsible for a major global burden of invasive disease with high associated case-fatality rates. We recently reported the development of a candidate O-antigen–CRM197glycoconjugate vaccine against S.Typhimurium. Here, using a panel of mouse monoclonal antibodies generated by the vaccine, we examined the relative efficiency of different antibody isotypes specific for the O:4 antigen of S. Typhimurium to effect in vitroand in vivokilling of the invasive African S. Typhimurium strain D23580. All O:4-specific antibody isotypes could mediate cell-free killing and phagocytosis of S. Typhimurium by mouse blood cells. Opsonization of Salmonellawith O:4-specific IgA, IgG1, IgG2a, and IgG2b, but not IgM, resulted in cell-dependent bacterial killing. At high concentrations, O:4-specific antibodies inhibited both cell-free complement-mediated and cell-dependent opsonophagocytic killing of S. Typhimurium in vitro. Using passive immunization in mice, the O:4-specific antibodies provided in vivofunctional activity by decreasing the bacterial load in the blood and tissues, with IgG2a and IgG2b being the most effective isotypes. In conclusion, an O-antigen–CRM197glycoconjugate vaccine can induce O-antigen-specific antibodies of different isotypes that exert in vitroand in vivokilling of S. Typhimurium.

Published

2015

9. Toll-like receptor agonists influence the magnitude and quality of memory T cell responses after prime-boost immunization in nonhuman primates.

Author

Wille-Reece, Ulrike, Flynn, Barbara J., Loré, Karin, Koup, Richard A., Miles, Aaron P., Saul, Allan, Kedl, Ross M., Mattapallil, Joseph J., Weiss, Walter R., Roederer, Mario, and Seder, Robert A.

Subjects

T cells, IMMUNIZATION, PRIMATES, HIV, ADENOVIRUSES, CD antigens

Abstract

There is a remarkable heterogeneity in the functional profile (quality) of T cell responses. Importantly, the magnitude and/or quality of a response required for protection may be different depending on the infection. Here, we assessed the capacity of different Toll like receptor (TLR)-binding compounds to influence T helper cell (Th)1 and CD8+ T cell responses when used as adjuvants in nonhuman primates (NHP) with HIV Gag as a model antigen. NHP were immunized with HIV Gag protein emulsified in Montanide ISA 51, an oil-based adjuvant, with or without a TLR7/8 agonist, a TLR8 agonist, or the TLR9 ligand cytosine phosphate guanosine oligodeoxynucleotides (CpG ODN), and boosted 12 wk later with a replication-defective adenovirus-expressing HIV-Gag (rAD-Gag). Animals vaccinated with HIV Gag protein/Montanide and CpG ODN or the TLR7/8 agonist had higher frequencies of Th1 responses after primary immunization compared to all other vaccine groups. Although the rAD-Gag boost did not elevate the frequency of Th1 memory cytokine responses, there was a striking increase in HIV Gag-specific CD8+ T cell responses after the boost in all animals that had received a primary immunization with any of the TLR adjuvants. Importantly, the presence and type of TLR adjuvant used during primary immunization conferred stability and dramatically influenced the magnitude and quality of the Th1 and CD8+ T cell responses after the rAD-Gag boost. These data provide insights for design prime-boost immunization regimens to optimize Th1 and CD8+ T cell responses. [ABSTRACT FROM AUTHOR]

Published

2006

10. Immunity to malaria after administration of ultra-low doses of red cells infected with Plasmodium falciparum.

Author

Pombo, David J, Lawrence, Gregor, Hirunpetcharat, Chakrit, Rzepczyk, Christine, Bryden, Michelle, Cloonan, Nicole, Anderson, Karen, Mahakunkijcharoen, Yuvadee, Martin, Laura B, Wilson, Danny, Elliott, Salenna, Elliott, Suzanne, Eisen, Damon P, Weinberg, J Brice, Saul, Allan, and Good, Michael F

Abstract

Background The ability of T cells, acting independently of antibodies, to control malaria parasite growth in people has not been defined. If such was shown to be effective, an additional vaccine strategy could be pursued. Our aim was to ascertain whether or not development of cell-mediated immunity to Plasmodium falciparum blood-stage infection could be induced in human beings by exposure to malaria parasites in very low density.Methods We enrolled five volunteers from the staff at our research institute who had never had malaria. We used a cryopreserved inoculum of red cells infected with P falciparum strain 3D7 to give them repeated subclinical infections of malaria that we then cured early with drugs, to induce cell-mediated immune responses. We tested for development of immunity by measurement of parasite concentrations in the blood of volunteers by PCR of the multicopy gene STEVOR and by following up the volunteers clinically, and by measuring antibody and cellular immune responses to the parasite.Findings After challenge and a extended period without drug cure, volunteers were protected against malaria as indicated by absence of parasites or parasite DNA in the blood, and absence of clinical symptoms. Immunity was characterised by absence of detectable antibodies that bind the parasite or infected red cells, but by the presence of a proliferative T-cell response, involving CD4+ and CD8+ T cells, a cytokine response, consisting of interferon γ but not interleukin 4 or interleukin 10, induction of high concentrations of nitric oxide synthase activity in peripheral blood mononuclear cells, and a drop in the number of peripheral natural killer T cells.Interpretation People can be protected against the erythrocytic stage of malaria by a strong cell-mediated immune response, in the absence of detectable parasite-specific antibodies, suggesting an additional strategy for development of a malaria vaccine [Copyright &y& Elsevier]

Published

2002

11. Evaluation of the Immunogenicity and Biological Activity of the Citrobacter freundiiVi-CRM197Conjugate as a Vaccine for Salmonella entericaSerovar Typhi

Author

Rondini, Simona, Micoli, Francesca, Lanzilao, Luisa, Hale, Christine, Saul, Allan J., and Martin, Laura B.

Abstract

ABSTRACTTyphoid fever remains a major health problem in developing countries. Young children are at high risk, and a vaccine effective for this age group is urgently needed. Purified capsular polysaccharide from Salmonella entericaserovar Typhi (Vi) is licensed as a vaccine, providing 50 to 70% protection in individuals older than 5 years. However, this vaccine is ineffective in infants. Vi conjugated to a carrier protein (i.e., an exoprotein A mutant from Pseudomonas aeruginosa[rEPA]) is highly immunogenic, provides long-term protection, and shows more than 90% protective efficacy in children 2 to 5 years old. Here, we describe an alternative glycoconjugate vaccine for S. Typhi, Vi-CRM197, where Vi was obtained from Citrobacter freundiiWR7011 and CRM197, the mutant diphtheria toxin protein, was used as the carrier. We investigated the optimization of growth conditions for Vi production from C. freundiiWR7011 and the immunogenicity of Vi-CRM197conjugates in mice. The optimal saccharide/protein ratio of the glycoconjugates was identified for the best antibody production. We also demonstrated the ability of this new vaccine to protect mice against challenge with Vi-positive Salmonella entericaserovar Typhimurium.

Published

2011

12. Mosquito stage, transmission blocking vaccines for malaria

Author

Saul, Allan

Abstract

This review highlights progress made in the development of vaccines aimed at the stages of malaria parasites found in mosquitoes that block the transmission of malaria within a community.

Published

2007

13. Immunity to Recombinant Plasmodium falciparumMerozoite Surface Protein 1 (MSP1): Protection in Aotus nancymaiMonkeys Strongly Correlates with Anti-MSP1 Antibody Titer and In Vitro Parasite-Inhibitory Activity

Author

Singh, Sanjay, Miura, Kazutoyo, Zhou, Hong, Muratova, Olga, Keegan, Brian, Miles, Aaron, Martin, Laura B., Saul, Allan J., Miller, Louis H., and Long, Carole A.

Abstract

ABSTRACTA number of malarial blood-stage candidate vaccines are currently being tested in human clinical trials, but our understanding of the relationship between clinical immunity and data obtained from in vitro assays remains inadequate. An in vitro assay which could reliably predict protective immunity in vivo would facilitate vaccine development. Merozoite surface protein1 (MSP1) is a leading blood-stage malaria vaccine candidate, and anti-MSP1 antibodies from individuals that are clinically immune to malaria inhibit the invasion of Plasmodiummerozoites into erythrocytes in vitro. Using expression in Escherichia coliand subsequent refolding, we have produced two allelic forms of MSP142(FVO and 3D7). Aotus nancymaimonkeys were immunized with MSP142-FVO, MSP142-3D7, or a combination of FVO and 3D7 allelic forms, (MSP142-C1) and were subsequently challenged with Plasmodium falciparumFVO parasites. Sera obtained prior to challenge were tested by standardized enzyme-linked immunosorbent assay (ELISA) to determine antibody titer, and immunoglobulin G (IgG) fractions were also obtained from the same sera; the IgG fractions were tested in an in vitro growth inhibition (GI) assay to evaluate biological activity of the antibodies. Regardless of the immunogen used, all monkeys that had >200,000 ELISA units against MSP142-FVO antigen before challenge controlled their infections. By contrast, all monkeys whose purified IgGs gave <60% inhibition activity in an in vitro GI assay with P. falciparumFVO required treatment for high parasitemia after challenge. There is a strong correlation between ELISA units (Spearman rank correlation of greater than 0.75) or GI activity (Spearman rank correlation of greater than 0.70) and protective immunity judged by various parameters (e.g., cumulative parasitemia or day of patency). These data indicate that, in this monkey model, the ELISA and GI assay values can significantly predict protective immunity induced by a blood-stage vaccine, and they support the use of these assays as part of evaluation of human clinical trials of MSP1-based vaccines.

Published

2006

14. Immunity to Recombinant Plasmodium falciparum Merozoite Surface Protein 1 (MSP1): Protection in Aotus nancymai Monkeys Strongly Correlates with Anti-MSP1 Antibody Titer and In Vitro Parasite-Inhibitory Activity

Author

Singh, Sanjay, Miura, Kazutoyo, Zhou, Hong, Muratova, Olga, Keegan, Brian, Miles, Aaron, Martin, Laura B., Saul, Allan J., Miller, Louis H., and Long, Carole A.

Abstract

A number of malarial blood-stage candidate vaccines are currently being tested in human clinical trials, but our understanding of the relationship between clinical immunity and data obtained from in vitro assays remains inadequate. An in vitro assay which could reliably predict protective immunity in vivo would facilitate vaccine development. Merozoite surface protein1 (MSP1) is a leading blood-stage malaria vaccine candidate, and anti-MSP1 antibodies from individuals that are clinically immune to malaria inhibit the invasion of Plasmodium merozoites into erythrocytes in vitro. Using expression in Escherichia coli and subsequent refolding, we have produced two allelic forms of MSP142 (FVO and 3D7). Aotus nancymai monkeys were immunized with MSP142-FVO, MSP142-3D7, or a combination of FVO and 3D7 allelic forms, (MSP142-C1) and were subsequently challenged with Plasmodium falciparum FVO parasites. Sera obtained prior to challenge were tested by standardized enzyme-linked immunosorbent assay (ELISA) to determine antibody titer, and immunoglobulin G (IgG) fractions were also obtained from the same sera; the IgG fractions were tested in an in vitro growth inhibition (GI) assay to evaluate biological activity of the antibodies. Regardless of the immunogen used, all monkeys that had >200,000 ELISA units against MSP142-FVO antigen before challenge controlled their infections. By contrast, all monkeys whose purified IgGs gave <60% inhibition activity in an in vitro GI assay with P. falciparum FVO required treatment for high parasitemia after challenge. There is a strong correlation between ELISA units (Spearman rank correlation of greater than 0.75) or GI activity (Spearman rank correlation of greater than 0.70) and protective immunity judged by various parameters (e.g., cumulative parasitemia or day of patency). These data indicate that, in this monkey model, the ELISA and GI assay values can significantly predict protective immunity induced by a blood-stage vaccine, and they support the use of these assays as part of evaluation of human clinical trials of MSP1-based vaccines.

Published

2006

15. Posttranslational Modification of Recombinant Plasmodium falciparum Apical Membrane Antigen 1: Impact on Functional Immune Responses to a Malaria Vaccine Candidate

Author

Giersing, Birgitte, Miura, Kazutoyo, Shimp, Richard, Wang, Jin, Zhou, Hong, Orcutt, Andrew, Stowers, Anthony, Saul, Allan, Miller, Louis H., Long, Carole, and Singh, Sanjay

Abstract

Recombinant apical membrane antigen 1 (AMA1) is a leading vaccine candidate for Plasmodium falciparum malaria, as antibodies against recombinant P. falciparum AMA1 (PfAMA1) interrupt merozoite invasion into erythrocytes. In order to investigate the role of posttranslational modification in modulating the functional immune response to recombinant AMA1, two separate alleles of PfAMA1 (FVO and 3D7), in which native N-glycosylation sites have been mutated, were produced using Escherichia coli and a Pichia pastoris expression system. Recombinant Pichia pastoris AMA1-FVO (PpAMA1-FVO) and PpAMA1-3D7 are O-linked glycosylated, and 45% of PpAMA1-3D7 is nicked, though all four recombinant molecules react with conformation-specific monoclonal antibodies. To address the immunological effect of O-linked glycosylation, we compared the immunogenicity of E. coli AMA1-FVO (EcAMA1-FVO) and PpAMA1-FVO antigens, since both molecules are intact. The effect of antigen nicking was then investigated by comparing the immunogenicity of EcAMA1-3D7 and PpAMA1-3D7. Our data demonstrate that there is no significant difference in the rabbit antibody titer elicited towards EcAMA1-FVO and PpAMA1-FVO or to EcAMA1-3D7 and PpAMA1-3D7. Furthermore, we have demonstrated that recombinant AMA1 (FVO or 3D7), whether expressed and refolded from E. coli or produced from the Pichia expression system, is equivalent and mimics the functionality of the native protein in in vitro growth inhibition assay experiments. We conclude that in the case of recombinant AMA1, the E. coli- and P. pastoris-derived antigens are immunologically and functionally equivalent and are unaffected by the posttranslational modification resulting from expression in these two systems.

Published

2005

16. Posttranslational Modification of Recombinant Plasmodium falciparumApical Membrane Antigen 1: Impact on Functional Immune Responses to a Malaria Vaccine Candidate

Author

Giersing, Birgitte, Miura, Kazutoyo, Shimp, Richard, Wang, Jin, Zhou, Hong, Orcutt, Andrew, Stowers, Anthony, Saul, Allan, Miller, Louis H., Long, Carole, and Singh, Sanjay

Abstract

ABSTRACTRecombinant apical membrane antigen 1 (AMA1) is a leading vaccine candidate for Plasmodium falciparummalaria, as antibodies against recombinant P. falciparumAMA1 (PfAMA1) interrupt merozoite invasion into erythrocytes. In order to investigate the role of posttranslational modification in modulating the functional immune response to recombinant AMA1, two separate alleles of PfAMA1 (FVO and 3D7), in which native N-glycosylation sites have been mutated, were produced using Escherichia coliand a Pichia pastorisexpression system. Recombinant Pichia pastorisAMA1-FVO (PpAMA1-FVO) and PpAMA1-3D7 are O-linked glycosylated, and 45% of PpAMA1-3D7 is nicked, though all four recombinant molecules react with conformation-specific monoclonal antibodies. To address the immunological effect of O-linked glycosylation, we compared the immunogenicity of E. coliAMA1-FVO (EcAMA1-FVO) and PpAMA1-FVO antigens, since both molecules are intact. The effect of antigen nicking was then investigated by comparing the immunogenicity of EcAMA1-3D7 and PpAMA1-3D7. Our data demonstrate that there is no significant difference in the rabbit antibody titer elicited towards EcAMA1-FVO and PpAMA1-FVO or to EcAMA1-3D7 and PpAMA1-3D7. Furthermore, we have demonstrated that recombinant AMA1 (FVO or 3D7), whether expressed and refolded from E. colior produced from the Pichiaexpression system, is equivalent and mimics the functionality of the native protein in in vitro growth inhibition assay experiments. We conclude that in the case of recombinant AMA1, the E. coli- and P. pastoris-derived antigens are immunologically and functionally equivalent and are unaffected by the posttranslational modification resulting from expression in these two systems.

Published

2005

17. Phase 1 Clinical Trial of Apical Membrane Antigen 1: an Asexual Blood-Stage Vaccine for Plasmodium falciparum Malaria

Author

Malkin, Elissa M., Diemert, David J., McArthur, Julie H., Perreault, John R., Miles, Aaron P., Giersing, Birgitte K., Mullen, Gregory E., Orcutt, Andrew, Muratova, Olga, Awkal, May, Zhou, Hong, Wang, Jin, Stowers, Anthony, Long, Carole A., Mahanty, Siddhartha, Miller, Louis H., Saul, Allan, and Durbin, Anna P.

Abstract

Apical membrane antigen 1 (AMA1), a polymorphic merozoite surface protein, is a leading blood-stage malaria vaccine candidate. A phase 1 trial was conducted with 30 malaria-naïve volunteers to assess the safety and immunogenicity of the AMA1-C1 malaria vaccine. AMA1-C1 contains an equal mixture of recombinant proteins based on sequences from the FVO and 3D7 clones of Plasmodium falciparum. The proteins were expressed in Pichia pastoris and adsorbed on Alhydrogel. Ten volunteers in each of three dose groups (5 µg, 20 µg, and 80 µg) were vaccinated in an open-label study at 0, 28, and 180 days. The vaccine was well tolerated, with pain at the injection site being the most commonly observed reaction. Anti-AMA1 immunoglobulin G (IgG) was detected by enzyme-linked immunosorbent assay (ELISA) in 15/28 (54%) volunteers after the second immunization and in 23/25 (92%) after the third immunization, with equal reactivity to both AMA1-FVO and AMA1-3D7 vaccine components. A significant dose-response relationship between antigen dose and antibody response by ELISA was observed, and the antibodies were predominantly of the IgG1 isotype. Confocal microscopic evaluation of sera from vaccinated volunteers demonstrated reactivity with P. falciparum schizonts in a pattern similar to native parasite AMA1. Antigen-specific in vitro inhibition of both FVO and 3D7 parasites was achieved with IgG purified from sera of vaccinees, demonstrating biological activity of the antibodies. To our knowledge, this is the first AMA1 vaccine candidate to elicit functional immune responses in malaria-naïve humans, and our results support the further development of this vaccine.

Published

2005

18. Phase 1 Clinical Trial of Apical Membrane Antigen 1: an Asexual Blood-Stage Vaccine for Plasmodium falciparumMalaria

Author

Malkin, Elissa M., Diemert, David J., McArthur, Julie H., Perreault, John R., Miles, Aaron P., Giersing, Birgitte K., Mullen, Gregory E., Orcutt, Andrew, Muratova, Olga, Awkal, May, Zhou, Hong, Wang, Jin, Stowers, Anthony, Long, Carole A., Mahanty, Siddhartha, Miller, Louis H., Saul, Allan, and Durbin, Anna P.

Abstract

ABSTRACTApical membrane antigen 1 (AMA1), a polymorphic merozoite surface protein, is a leading blood-stage malaria vaccine candidate. A phase 1 trial was conducted with 30 malaria-naïve volunteers to assess the safety and immunogenicity of the AMA1-C1 malaria vaccine. AMA1-C1 contains an equal mixture of recombinant proteins based on sequences from the FVO and 3D7 clones of Plasmodium falciparum. The proteins were expressed in Pichia pastorisand adsorbed on Alhydrogel. Ten volunteers in each of three dose groups (5 μg, 20 μg, and 80 μg) were vaccinated in an open-label study at 0, 28, and 180 days. The vaccine was well tolerated, with pain at the injection site being the most commonly observed reaction. Anti-AMA1 immunoglobulin G (IgG) was detected by enzyme-linked immunosorbent assay (ELISA) in 15/28 (54%) volunteers after the second immunization and in 23/25 (92%) after the third immunization, with equal reactivity to both AMA1-FVO and AMA1-3D7 vaccine components. A significant dose-response relationship between antigen dose and antibody response by ELISA was observed, and the antibodies were predominantly of the IgG1 isotype. Confocal microscopic evaluation of sera from vaccinated volunteers demonstrated reactivity with P. falciparumschizonts in a pattern similar to native parasite AMA1. Antigen-specific in vitro inhibition of both FVO and 3D7 parasites was achieved with IgG purified from sera of vaccinees, demonstrating biological activity of the antibodies. To our knowledge, this is the first AMA1 vaccine candidate to elicit functional immune responses in malaria-naïve humans, and our results support the further development of this vaccine.

Published

2005

19. Strain-Specific Humoral Response to a Polymorphic Malaria Vaccine

Author

Flück, Christian, Smith, Tom, Beck, Hans-Peter, Irion, Andrea, Betuela, Inoni, Alpers, Michael P., Anders, Robin, Saul, Allan, Genton, Blaise, and Felger, Ingrid

Abstract

ABSTRACTThe 3D7 form of the merozoite surface protein 2 (MSP2) of Plasmodium falciparumwas one of three subunits of the malaria vaccine Combination B that were tested in a phase I/IIb double-blind randomized placebo-controlled trial, which was undertaken with 120 Papua New Guinean children of 5 to 9 years of age. Because only one variant of the highly polymorphic MSP2 was used for vaccination, we examined whether the elicited response was directed against conserved or strain-specific epitopes. Postvaccination (week 12) titers of antibody against recombinantly expressed individual domains of MSP2 were measured by enzyme-linked immunosorbent assay and compared to baseline values. We found that vaccination with the 3D7 form of MSP2 induced a significant strain-specific humoral response directed against the repetitive and semiconserved family-specific part. The conserved N- and C-terminal domains were not immunogenic. Titers of antibody against the alternate FC27 family-specific domain showed a tendency to increase in vaccinated children, but there was no increase in antibodies against FC27-type 32-mer repeats. These results indicate that vaccination with one MSP2 variant mainly induced a strain-specific response, which can explain the selective effect of vaccination with combination B on the genotypes of breakthrough parasites. These findings support the inclusion of both family-specific domains (3D7 and FC27) in an improved vaccine formulation.

Published

2004

20. Human leukocyte antigen class II alleles influence levels of antibodies to the Plasmodium falciparum asexual-stage apical membrane antigen 1 but not to merozoite surface antigen 2 and merozoite surface protein 1.

Author

Johnson, Armead H, Leke, Rose G F, Mendell, Nancy R, Shon, Dewon, Suh, Young Ju, Bomba-Nkolo, Dennis, Tchinda, Viviane, Kouontchou, Samuel, Thuita, Lucy W, van der Wel, Anne Marie, Thomas, Alan, Stowers, Anthony, Saul, Allan, Zhou, Ainong, Taylor, Diane W, and Quakyi, Isabella A

Abstract

The apical membrane antigen 1 (AMA1), merozoite surface antigen 2 (MSA2), and merozoite surface protein 1 (MSP1) are asexual-stage proteins currently being evaluated for inclusion in a vaccine for Plasmodium falciparum. Accordingly, it is important to understand factors that control antibody responses to these antigens. Antibody levels in plasma from residents of Etoa, Cameroon, between the ages of 5 and 70 years, were determined using recombinant AMA1, MSA2, and the N-terminal region of MSP1 (MSP1-190L). In addition, antibody responses to four variants of the C-terminal region of MSP1 (MSP1(19)) were assessed. Results showed that all individuals produced antibodies to AMA1, MSA2, and MSP1-190L; however, a proportion of individuals never produced antibodies to the MSP1(19) variants, although the percentage of nonresponders decreased with age. The influence of age and human leukocyte antigen (HLA)-DRB1/DQB1 alleles on antibody levels was evaluated using two-way analysis of variance. Age was correlated with levels of antibodies to AMA1 and MSP1(19) but not with levels of antibodies to MSA2 and MSP1-190L. No association was found between a single HLA allele and levels of antibodies to MSA2, MSP1-190L, or any of the MSP1(19) variants. However, individuals positive for DRB1*1201 had higher levels of antibodies to the variant of recombinant AMA1 tested than did individuals of all other HLA types. Since the effect was seen across all age groups, HLA influenced the level but not the rate of antibody acquisition. This association for AMA1, combined with the previously reported association between HLA class II alleles and levels of antibodies to rhoptry-associated protein 1 (RAP1) and RAP2, indicates that HLA influences the levels of antibodies to three of the five vaccine candidate antigens that we have evaluated.

Published

2004

21. Human Leukocyte Antigen Class II Alleles Influence Levels of Antibodies to the Plasmodium falciparumAsexual-Stage Apical Membrane Antigen 1 but Not to Merozoite Surface Antigen 2 and Merozoite Surface Protein 1

Author

Johnson, Armead H., Leke, Rose G. F., Mendell, Nancy R., Shon, Dewon, Suh, Young Ju, Bomba-Nkolo, Dennis, Tchinda, Viviane, Kouontchou, Samuel, Thuita, Lucy W., van der Wel, Anne Marie, Thomas, Alan, Stowers, Anthony, Saul, Allan, Zhou, Ainong, Taylor, Diane W., and Quakyi, Isabella A.

Abstract

ABSTRACTThe apical membrane antigen 1 (AMA1), merozoite surface antigen 2 (MSA2), and merozoite surface protein 1 (MSP1) are asexual-stage proteins currently being evaluated for inclusion in a vaccine for Plasmodium falciparum. Accordingly, it is important to understand factors that control antibody responses to these antigens. Antibody levels in plasma from residents of Etoa, Cameroon, between the ages of 5 and 70 years, were determined using recombinant AMA1, MSA2, and the N-terminal region of MSP1 (MSP1-190L). In addition, antibody responses to four variants of the C-terminal region of MSP1 (MSP119) were assessed. Results showed that all individuals produced antibodies to AMA1, MSA2, and MSP1-190L; however, a proportion of individuals never produced antibodies to the MSP119variants, although the percentage of nonresponders decreased with age. The influence of age and human leukocyte antigen (HLA)-DRB1/DQB1 alleles on antibody levels was evaluated using two-way analysis of variance. Age was correlated with levels of antibodies to AMA1 and MSP119but not with levels of antibodies to MSA2 and MSP1-190L. No association was found between a single HLA allele and levels of antibodies to MSA2, MSP1-190L, or any of the MSP119variants. However, individuals positive for DRB1*1201 had higher levels of antibodies to the variant of recombinant AMA1 tested than did individuals of all other HLA types. Since the effect was seen across all age groups, HLA influenced the level but not the rate of antibody acquisition. This association for AMA1, combined with the previously reported association between HLA class II alleles and levels of antibodies to rhoptry-associated protein 1 (RAP1) and RAP2, indicates that HLA influences the levels of antibodies to three of the five vaccine candidate antigens that we have evaluated.

Published

2004

22. Biochemical and immunological characterization of bacterially expressed and refolded Plasmodium falciparum 42-kilodalton C-terminal merozoite surface protein 1.

Author

Singh, Sanjay, Kennedy, Michael C, Long, Carole A, Saul, Allan J, Miller, Louis H, and Stowers, Anthony W

Abstract

Protection against Plasmodium falciparum can be induced by vaccination in animal models with merozoite surface protein 1 (MSP1), which makes this protein an attractive vaccine candidate for malaria. In an attempt to produce a product that is easily scaleable and inexpensive, we expressed the C-terminal 42 kDa of MSP1 (MSP1(42)) in Escherichia coli, refolded the protein to its native form from insoluble inclusion bodies, and tested its ability to elicit antibodies with in vitro and in vivo activities. Biochemical, biophysical, and immunological characterization confirmed that refolded E. coli MSP1(42) was homogeneous and highly immunogenic. In a formulation suitable for human use, rabbit antibodies were raised against refolded E. coli MSP1(42) and tested in vitro in a P. falciparum growth invasion assay. The antibodies inhibited the growth of parasites expressing either homologous or heterologous forms of P. falciparum MSP1(42). However, the inhibitory activity was primarily a consequence of antibodies directed against the C- terminal 19 kDa of MSP1 (MSP1(19)). Vaccination of nonhuman primates with E. coli MSP1(42) in Freund's adjuvant protected six of seven Aotus monkeys from virulent infection with P. falciparum. The protection correlated with antibody-dependent mechanisms. Thus, this new construct, E. coli MSP1(42), is a viable candidate for human vaccine trials.

Published

2003

23. Biochemical and Immunological Characterization of Bacterially Expressed and Refolded Plasmodium falciparum42-Kilodalton C-Terminal Merozoite Surface Protein 1

Author

Singh, Sanjay, Kennedy, Michael C., Long, Carole A., Saul, Allan J., Miller, Louis H., and Stowers, Anthony W.

Abstract

ABSTRACTProtection against Plasmodium falciparumcan be induced by vaccination in animal models with merozoite surface protein 1 (MSP1), which makes this protein an attractive vaccine candidate for malaria. In an attempt to produce a product that is easily scaleable and inexpensive, we expressed the C-terminal 42 kDa of MSP1 (MSP142) in Escherichia coli, refolded the protein to its native form from insoluble inclusion bodies, and tested its ability to elicit antibodies with in vitro and in vivo activities. Biochemical, biophysical, and immunological characterization confirmed that refolded E. coliMSP142was homogeneous and highly immunogenic. In a formulation suitable for human use, rabbit antibodies were raised against refolded E. coliMSP142and tested in vitro in a P. falciparumgrowth invasion assay. The antibodies inhibited the growth of parasites expressing either homologous or heterologous forms of P. falciparumMSP142. However, the inhibitory activity was primarily a consequence of antibodies directed against the C- terminal 19 kDa of MSP1 (MSP119). Vaccination of nonhuman primates with E. coliMSP142in Freund's adjuvant protected six of seven Aotusmonkeys from virulent infection with P. falciparum. The protection correlated with antibody-dependent mechanisms. Thus, this new construct, E. coliMSP142, is a viable candidate for human vaccine trials.

Published

2003

24. Vaccination of monkeys with recombinant Plasmodium falciparum apical membrane antigen 1 confers protection against blood-stage malaria.

Author

Stowers, Anthony W, Kennedy, Michael C, Keegan, Brian P, Saul, Allan, Long, Carole A, and Miller, Louis H

Abstract

A major challenge facing malaria vaccine development programs is identifying efficacious combinations of antigens. To date, merozoite surface protein 1 (MSP1) is regarded as the leading asexual vaccine candidate. Apical membrane antigen 1 (AMA1) has been identified as another leading candidate for an asexual malaria vaccine, but without any direct in vivo evidence that a recombinant form of Plasmodium falciparum AMA1 would have efficacy. We evaluated the efficacy of a form of P. falciparum AMA1, produced in Pichia pastoris, by vaccinating Aotus vociferans monkeys and then challenging them with P. falciparum parasites. Significant protection from this otherwise lethal challenge with P. falciparum was observed. Five of six animals had delayed patency; two of these remained subpatent for the course of the infection, and two controlled parasite growth at <0.75% of red blood cells parasitized. The protection induced by AMA1 was superior to that obtained with a form of MSP1 used in the same trial. The protection induced by a combination vaccine of AMA1 and MSP1 was not superior to the protection obtained with AMA1 alone, although the immunity generated appeared to operate against both vaccine components.

Published

2002

25. In vitro studies with recombinant Plasmodium falciparum apical membrane antigen 1 (AMA1): production and activity of an AMA1 vaccine and generation of a multiallelic response.

Author

Kennedy, Michael C, Wang, Jin, Zhang, Yanling, Miles, Aaron P, Chitsaz, Farideh, Saul, Allan, Long, Carole A, Miller, Louis H, and Stowers, Anthony W

Abstract

Apical membrane antigen 1 (AMA1) is regarded as a leading malaria blood-stage vaccine candidate. While the overall structure of AMA1 is conserved in Plasmodium spp., numerous AMA1 allelic variants of P. falciparum have been described. The effect of AMA1 allelic diversity on the ability of a recombinant AMA1 vaccine to protect against human infection by different P. falciparum strains is unknown. We characterize two allelic forms of AMA1 that were both produced in Pichia pastoris at a sufficient economy of scale to be usable for clinical vaccine studies. Both proteins were used to immunize rabbits, singly and in combination, in order to evaluate their immunogenicity and the ability of elicited antibodies to block the growth of different P. falciparum clones. Both antigens, when used alone, elicited high homologous anti-AMA1 titers, with reduced strain cross-reactivity. Similarly, sera from rabbits immunized with a single antigen were capable of blocking the growth of homologous parasite strains at levels theoretically sufficient to clear parasite infections. However, heterologous inhibition was significantly reduced, providing experimental evidence that AMA1 allelic diversity is a result of immune pressure. Encouragingly, rabbits immunized with a combination of both antigens exhibited titers and levels of parasite inhibition as good as those of the single-antigen-immunized rabbits for each of the homologous parasite lines, and consequently exhibited a broadening of allelic diversity coverage.

Published

2002

26. Vaccination of Monkeys with Recombinant Plasmodium falciparumApical Membrane Antigen 1 Confers Protection against Blood-Stage Malaria

Author

Stowers, Anthony W., Kennedy, Michael C., Keegan, Brian P., Saul, Allan, Long, Carole A., and Miller, Louis H.

Abstract

ABSTRACTA major challenge facing malaria vaccine development programs is identifying efficacious combinations of antigens. To date, merozoite surface protein 1 (MSP1) is regarded as the leading asexual vaccine candidate. Apical membrane antigen 1 (AMA1) has been identified as another leading candidate for an asexual malaria vaccine, but without any direct in vivo evidence that a recombinant form of Plasmodium falciparumAMA1 would have efficacy. We evaluated the efficacy of a form of P. falciparumAMA1, produced in Pichia pastoris, by vaccinating Aotus vociferansmonkeys and then challenging them with P. falciparumparasites. Significant protection from this otherwise lethal challenge with P. falciparumwas observed. Five of six animals had delayed patency; two of these remained subpatent for the course of the infection, and two controlled parasite growth at <0.75% of red blood cells parasitized. The protection induced by AMA1 was superior to that obtained with a form of MSP1 used in the same trial. The protection induced by a combination vaccine of AMA1 and MSP1 was not superior to the protection obtained with AMA1 alone, although the immunity generated appeared to operate against both vaccine components.

Published

2002

27. In Vitro Studies with Recombinant Plasmodium falciparumApical Membrane Antigen 1 (AMA1): Production and Activity of an AMA1 Vaccine and Generation of a Multiallelic Response

Author

Kennedy, Michael C., Wang, Jin, Zhang, Yanling, Miles, Aaron P., Chitsaz, Farideh, Saul, Allan, Long, Carole A., Miller, Louis H., and Stowers, Anthony W.

Abstract

ABSTRACTApical membrane antigen 1 (AMA1) is regarded as a leading malaria blood-stage vaccine candidate. While the overall structure of AMA1 is conserved in Plasmodiumspp., numerous AMA1 allelic variants of P. falciparumhave been described. The effect of AMA1 allelic diversity on the ability of a recombinant AMA1 vaccine to protect against human infection by different P. falciparumstrains is unknown. We characterize two allelic forms of AMA1 that were both produced in Pichia pastorisat a sufficient economy of scale to be usable for clinical vaccine studies. Both proteins were used to immunize rabbits, singly and in combination, in order to evaluate their immunogenicity and the ability of elicited antibodies to block the growth of different P. falciparumclones. Both antigens, when used alone, elicited high homologous anti-AMA1 titers, with reduced strain cross-reactivity. Similarly, sera from rabbits immunized with a single antigen were capable of blocking the growth of homologous parasite strains at levels theoretically sufficient to clear parasite infections. However, heterologous inhibition was significantly reduced, providing experimental evidence that AMA1 allelic diversity is a result of immune pressure. Encouragingly, rabbits immunized with a combination of both antigens exhibited titers and levels of parasite inhibition as good as those of the single-antigen-immunized rabbits for each of the homologous parasite lines, and consequently exhibited a broadening of allelic diversity coverage.

Published

2002

28. Mutations in cytochrome b resulting in atovaquone resistance are associated with loss of fitness in Plasmodium falciparum.

Author

Peters, Jennifer M, Chen, Nanhua, Gatton, Michelle, Korsinczky, Michael, Fowler, Elizabeth V, Manzetti, Sergio, Saul, Allan, and Cheng, Qin

Abstract

Drug resistance in malarial parasites has become a major obstacle in the control of the disease. Strategies are urgently needed to control the development of resistance and to possibly reverse existing resistance. One key element required to reverse malaria drug resistance is for the parasites to "pay" a biological "cost" or suffer a loss of fitness when acquiring resistance to antimalarial drugs. Such a situation would be a disadvantage to the resistant parasites in the absence of drug pressure. We compared here the relative fitness of atovaquone-resistant Plasmodium falciparum K1 clones with single and double base mutations in their cytochrome b genes to their parent clones during erythrocytic stages in the absence of drug pressure. We found that the double amino acid mutation (M133I and G280D) is associated with a 5 to 9% loss of fitness and that the single amino acid change of M133I did not result in any detectable loss of fitness. Molecular modeling of the interaction of P. falciparum cytochrome b with ubiquinone led to the prediction that a loss of fitness of the malaria parasites would result from the G280D mutation due to its close proximity to the putative ubiquinone-binding site. This appears to have resulted in a weakening of the cytochrome b-ubiquinone complex, thereby causing the electron transport chain to become less efficient. Our results suggest that the prevalence of resistant parasites may decrease after the drug usage is discontinued.

Published

2002

29. Mutations in Cytochrome bResulting in Atovaquone Resistance Are Associated with Loss of Fitness in Plasmodium falciparum

Author

Peters, Jennifer M., Chen, Nanhua, Gatton, Michelle, Korsinczky, Michael, Fowler, Elizabeth V., Manzetti, Sergio, Saul, Allan, and Cheng, Qin

Abstract

ABSTRACTDrug resistance in malarial parasites has become a major obstacle in the control of the disease. Strategies are urgently needed to control the development of resistance and to possibly reverse existing resistance. One key element required to reverse malaria drug resistance is for the parasites to “pay” a biological “cost” or suffer a loss of fitness when acquiring resistance to antimalarial drugs. Such a situation would be a disadvantage to the resistant parasites in the absence of drug pressure. We compared here the relative fitness of atovaquone-resistant Plasmodium falciparumK1 clones with single and double base mutations in their cytochrome bgenes to their parent clones during erythrocytic stages in the absence of drug pressure. We found that the double amino acid mutation (M133I and G280D) is associated with a 5 to 9% loss of fitness and that the single amino acid change of M133I did not result in any detectable loss of fitness. Molecular modeling of the interaction of P. falciparumcytochrome bwith ubiquinone led to the prediction that a loss of fitness of the malaria parasites would result from the G280D mutation due to its close proximity to the putative ubiquinone-binding site. This appears to have resulted in a weakening of the cytochrome b-ubiquinone complex, thereby causing the electron transport chain to become less efficient. Our results suggest that the prevalence of resistant parasites may decrease after the drug usage is discontinued.

Published

2002

30. Aotus New World monkeys: model for studying malaria-induced anemia

Author

Egan, Andrea F., Fabucci, Maria Elena, Saul, Allan, Kaslow, David C., and Miller, Louis H.

Abstract

Falciparum malaria is a major cause of disease and death in African children and pregnant women, primarily due to severe anemia. We studied anemia in vaccinated Aotus monkeys during a second infection where the animals were considered to be semi-immune. Most animals had extremely low or undetectable levels of parasitemia; in some, anemia did not develop and reticulocytemia remained unchanged; in others, moderate to severe anemia developed with inappropriately low reticulocytemia indicating bone marrow dysfunction. Bone marrow rapidly responded after parasite clearance. The rapid drop in hematocrit despite extremely low to undetectable parasitemia indicated massive removal of uninfected red blood cells from the circulation that, in the presence of bone marrow dysfunction, led to severe anemia—the problem that occurs in African children. We demonstrate that Aotusmonkeys are a nonhuman primate model to gain insight into the pathogenesis of severe anemia in African children.

Published

2002

31. AotusNew World monkeys: model for studying malaria-induced anemia

Author

Egan, Andrea F., Fabucci, Maria Elena, Saul, Allan, Kaslow, David C., and Miller, Louis H.

Abstract

Falciparummalaria is a major cause of disease and death in African children and pregnant women, primarily due to severe anemia. We studied anemia in vaccinated Aotusmonkeys during a second infection where the animals were considered to be semi-immune. Most animals had extremely low or undetectable levels of parasitemia; in some, anemia did not develop and reticulocytemia remained unchanged; in others, moderate to severe anemia developed with inappropriately low reticulocytemia indicating bone marrow dysfunction. Bone marrow rapidly responded after parasite clearance. The rapid drop in hematocrit despite extremely low to undetectable parasitemia indicated massive removal of uninfected red blood cells from the circulation that, in the presence of bone marrow dysfunction, led to severe anemia—the problem that occurs in African children. We demonstrate that Aotusmonkeys are a nonhuman primate model to gain insight into the pathogenesis of severe anemia in African children.

Published

2002

32. A Robust Neutralization Test for Plasmodium falciparum Malaria

Author

Saul, Allan and Miller, Louis H.

Published

2001

33. Mutations in Plasmodium falciparumCytochrome bThat Are Associated with Atovaquone Resistance Are Located at a Putative Drug-Binding Site

Author

Korsinczky, Michael, Chen, Nanhua, Kotecka, Barbara, Saul, Allan, Rieckmann, Karl, and Cheng, Qin

Abstract

ABSTRACTAtovaquone is the major active component of the new antimalarial drug Malarone. Considerable evidence suggests that malaria parasites become resistant to atovaquone quickly if atovaquone is used as a sole agent. The mechanism by which the parasite develops resistance to atovaquone is not yet fully understood. Atovaquone has been shown to inhibit the cytochrome bc1(CYTbc1) complex of the electron transport chain of malaria parasites. Here we report point mutations in Plasmodium falciparumCYT bthat are associated with atovaquone resistance. Single or double amino acid mutations were detected from parasites that originated from a cloned line and survived various concentrations of atovaquone in vitro. A single amino acid mutation was detected in parasites isolated from a recrudescent patient following atovaquone treatment. These mutations are associated with a 25- to 9,354-fold range reduction in parasite susceptibility to atovaquone. Molecular modeling showed that amino acid mutations associated with atovaquone resistance are clustered around a putative atovaquone-binding site. Mutations in these positions are consistent with a reduced binding affinity of atovaquone for malaria parasite CYTb.

Published

2000

34. Interaction of HLA and Age on Levels of Antibody toPlasmodium falciparumRhoptry-Associated Proteins 1 and 2

Author

Johnson, Armead, Leke, Rose, Harun, Lucy, Ginsberg, Christina, Ngogang, Jeanne, Stowers, Anthony, Saul, Allan, and Quakyi, Isabella A.

Abstract

ABSTRACTThe Plasmodium falciparumrhoptry-associated proteins 1 and 2 (RAP1 and RAP2) are candidate antigens for a subunit malaria vaccine. The design of the study, which looks at the acquisition of immunity to malaria from childhood to old age, has allowed us to document the interaction of HLA and age on levels of antibody to specific malarial antigens. Antibodies reach maximum levels to RAP1 after the age of 15 but to RAP2 only after the age of 30. The effect of HLA-DRB1 and -DQB1 and age on levels of antibody to rRAP1 and rRAP2 was analyzed with a multiple regression model in which all HLA alleles and age were independent variables. DQB1*0301 and -*03032 showed an age-dependent association with levels of antibody to rRAP1, being significant in children 5 to 15 years (P< 0.001) but not in individuals over 15 years of age. DRB1*03011 showed an age-dependent association with antibody levels to rRAP2; however, this association was in adults over the age of 30 years (P< 0.01) but not in individuals under the age of 30 years. No associations were detected between DRB1 alleles and RAP1 antibody levels or between DQB1 alleles and RAP2 antibody levels. Thus, not only the HLA allele but also the age at which an interaction is manifested varies for different malarial antigens. The interaction may influence either the rate of acquisition of antibody or the final level of antibody acquired by adults.

Published

2000

35. Impact of Victoria's Stage 3 lockdown on COVID-19 case numbers.

Author

Saul, Allan, Scott, Nick, Crabb, Brendan S, Majumdar, Suman S, Coghlan, Benjamin, and Hellard, Margaret E

Abstract

Keywords: COVID-19; Epidemics; Prevention and control EN COVID-19 Epidemics Prevention and control 494 494 1 12/15/20 20201201 NES 201201 Stage 3 lockdown measures in Victoria reduced COVID-19 transmission, but more was required to control the epidemic Australia, like many other countries, had an initial rise in coronavirus disease 2019 (COVID-19) cases in March and April 2020; however, this was followed by a relatively sharp decline in May 2020 after federal and state governments introduced strict community controls. The ongoing high number of daily cases in Victoria led to concern in the community and the media about whether the Stage 3 measures before the mandatory use of mask had prevented COVID-19 transmission. Victoria faced a huge challenge to reduce transmissions to the level needed to get the COVID-19 epidemic under control. [Extracted from the article]

Published

2020

36. Evolution and Systematics ofAnopheles:Insights from a Molecular Phylogeny of Australasian Mosquitoes

Author

Foley, Desmond H, Bryan, Joan H, Yeates, David, and Saul, Allan

Abstract

Relationships among the genusAnophelesand its many sibling species-groups are obscure despite the importance of anophelines as the vectors of human malaria. For the first time, the interrelationships and the origin of Australasian members of the subgenusCelliaare investigated by a cladistic analysis of sequence variation within the mitochondrial cytochrome oxidase subunit II gene. Estimated divergence times between many Australasian and Oriental taxa predate the mid Miocene collision of Australasia and Southeast Asia. Phylogenetic analysis suggests that two-way exchanges with Oriental mosquitoes rather than only immigration may have been a characteristic of anopheline paleobiogeography in Australasia. The Australasian fauna is mostly included in a large clade. The medically important Punctulatus Group is monophyletic and appears derived from Oriental stock. Populations within this group from as far apart as Australia and Vanuatu were in contact in the recent past (i.e., 0.35–2.44 mya), supporting dispersal rather than vicariance explanations. Some support for the monophyly of the Myzomyia, Neomyzomyia, and Pyretophorus Series was found. However, the subgeneraAnophelesandCelliaand the Neocellia Series are paraphyletic, but branch support at these taxonomic levels was poor. The COII gene shows promise for questions concerning alpha taxonomy but appears to be of limited use for resolving deeper relationships within theAnopheles.

Published

1998

37. AN AUTOMATED ASSAY OF MEROZOITE INVASION OF ERYTHROCYTES USING HIGHLY SYNCHRONIZED PLASMODIUM FALCIPARUM CULTURES

Author

Myler, Peter, Saul, Allan, Mangan, Thomas, and Kidson, Chev

Abstract

SummaryPlasmodium falciparum cultures were synchronized using three lytic treatments with sorbitol. Schizonts from these cultures were used in a rapid, highly sensitive assay of invasion of erythrocytes by merozoites. The parasitaemias in recipient cells after invasion were determined by flow cytofluorimetry after staining with the dye 33258 Hoechst. Invasion of erythrocytes was shown to be reduced by serum from a patient with malaria. The assay is suitable for rapidly screening large numbers of samples, such as monoclonal antibodies.Australian Journal of Experimental Biology and Medical Science (1982) 60, 83–89; doi:10.1038/icb.1982.6

Published

1982

38. Preparative Scale Purification of Recombinant Proteins to Clinical Grade by Isotachophoresis

Author

Stowers, Anthony W., Spring, Kevin J., and Saul, Allan

Abstract

An electrophoretic procedure based on isotachophoresis has been developed for protein purification on a preparative scale in the 10 to 500 mg range. The system is simple, uses well understood physical properties, does not need ampholyte spacers and is able to produce sterile products of clinical grade. We demonstrate the applicability of this apparatus for the purification of denatured recombinant proteins and complex mixtures of proteins. The system may also be used for both cationic and anionic purification of proteins in their native form. The system is scalable from analytical to preparative protein loads at consistently high protein yields and purity levels. Total protein loads may vary as much as 1000 fold with the use of interchangeable columns of varying diameter and constant length. At both preparative and analytical scales concentration of products at greater than 20 mg/ml are obtainable. Toxicological considerations are addressed with assays for endotoxin, acrylamide and SDS concentrations, as well as the prevention of covalent protein modification.

Published

1995

39. Impact of Victoria’s Stage 3 lockdown on COVID‐19 case numbers

Author

Saul, Allan, Scott, Nick, Crabb, Brendan S, Majumdar, Suman S, Coghlan, Benjamin, and Hellard, Margaret E

Published

2020

40. A Plasmodium falciparumexo-antigen alters erythrocyte membrane deformability

Author

Naumann, Kellie M., Jones, Graham Lloyd, Saul, Allan, and Smith, Ross

Abstract

Here we describe a reduced membrane deformability of human erythrocytes when aspirated into 0.6 μm diameter pores in polycarbonate sieves, after exposure of uninfected cells to spent parasite-culture supernatant. This, taken in concert with a previous observation that intra-erythrocytic development of the parasite P. falciparumdecreases host localised membrane deformability, may indicate a biological role for such parasite-induced changes in the rheological properties of the erythrocyte.

Published

1991

41. A rapid method of concentrating proteins in small volumes with high recovery using sephadex G-25

Author

Saul, Allan and Don, Michele

Abstract

A method for concentrating small (10 to 500 μl) volumes of protein solutions by mixing in a microcentrifuge tube with measured volumes of dry Sephadex G-25 is described. The tube is centrifuged, and the protein solution concentrated up to fivefold passes through a small hole in the base of the tube and is collected. Recovery of protein is 90–95%.

Published

1984

42. Author Correction: Atlas of group A streptococcal vaccine candidates compiled using large-scale comparative genomics

Author

Davies, Mark, McIntyre, Liam, Mutreja, Ankur, Lacey, Jake, Lees, John, Towers, Rebecca, Duchêne, Sebastián, Smeesters, Pierre, Frost, Hannah, Price, David, Holden, Matthew, David, Sophia, Giffard, Philip, Worthing, Kate, Seale, Anna, Berkley, James, Harris, Simon, Rivera-Hernandez, Tania, Berking, Olga, Cork, Amanda, Torres, Rosângela, Lithgow, Trevor, Strugnell, Richard, Bergmann, Rene, Nitsche-Schmitz, Patric, Chhatwal, Gusharan, Bentley, Stephen, Fraser, John, Moreland, Nicole, Carapetis, Jonathan, Steer, Andrew, Parkhill, Julian, Saul, Allan, Williamson, Deborah, Currie, Bart, Tong, Steven, Dougan, Gordon, and Walker, Mark

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2019

43. Disappearance of pan-malarial antigen reactivity using the ICT Malaria P.f/ P.vTMkit parallels decline of patent parasitaemia as shown by microscopy

Author

Eisen, Damon P. and Saul, Allan

Published

2000

44. RHD Gene Mutations and the Weak D Phenotype: An Australian Blood Donor Study

Author

Cowley, Natalie M., Saul, Allan, and Hyland, Catherine A.

Published

2000

45. A Single Point Mutation at a Splice Site Generates a Silent RH50 Gene in a Composite Heterozygous Rh<SUB>null</SUB> Blood Donor

Author

Cowley, Natalie M., Saul, Allan, Cartron, Jean-Pierre, and Hyland, Catherine A.

Published

1999

46. Adaptation of a quackenbush hybridoma cell line to grow successfully in BALB/C mice

Author

Lord, Roger and Saul, Allan

Published

1990

47. RHESUS D GENOTYPING USING POLYMERASE CHAIN REACTION

Author

Wolter, Lindsay C., Hyland, Catherine A., and Saul, Allan

Published

1993

48. Ribosomal DNA Sequence Markers Differentiate Two Species of the Anopheles maculatus (Diptera: Culicidae) Complex in the Philippines

Author

Torres, Elizabeth P., Foley, Desmond H., and Saul, Allan

Abstract

The Anopheles maculatus Theobald complex includes important vectors of malaria. Based on chromosomal and morphological evidence, two species in this complex occur in the Philippines. Because separation of these species, An. dispar Rattanarithikul & Harbach and An. greeni Rattanarithikul & Harbach, is problematic due to the difficulty or unreliability of the identification methods currently available, we sought a molecular technique for identifying these two species. We sequenced two regions of nuclear ribosomal DNA; the second internal transcribed spacer (ITS2) and the third domain (D3) of the 28S gene, from An. maculatus sensu lato (s.l.) collected throughout the Philippines. Two sequence groups were identified that corresponded morphologically to An. dispar and An. greeni. Four percent of the 318–320 bp ITS2 and 2.5% of the 367 bp D3 differed between the two species. No evidence of intraspecific variation in sequences was found. From the sequence data, we developed a more reliable and easier method for identifying An. dispar and An. greeni, based on a HaeII restriction fragment-length polymorphism in a polymerase chain reaction amplified fragment of ITS2. This method will facilitate future vector studies, which will be necessary, as previous data collected on An. maculatus s.l. in the Philippines is unreliable given the multispecies nature of this taxon.

Published

2000

49. Aedes notoscriptus (Diptera: Culicidae) Survival and Dispersal Estimated by Mark-Release-Recapture in Brisbane, Queensland, Australia

Author

Watson, Tonya M., Saul, Allan, and Kay, Brian H.

Abstract

The survival and dispersal of adult Aedes notoscriptus (Skuse) were estimated in Brisbane, Queensland, Australia, where this species has been identified as a vector of Ross River and Barmah Forest viruses and shown to be orally susceptible to dengue virus types 1–4. Standard mark-release-recapture methods were used. Before the field study, laboratory trials showed that marking Ae. notoscriptus with fluorescent powder had no effect on survivorship. Female recapture rates of 10.6 and 2.3% over an 8-d period were achieved for two cohorts of marked Ae. notoscriptus released at the same field site. No males were recaptured over the 8-d period. The probability of daily survival was calculated using the Saul model as 0.77 and 0.79 for blue- and pink-marked females, respectively. For blue- and pink-marked females, the mean distance traveled was 105.2 and 179.9 m, and the maximum distance traveled was 195 and 238 m, respectively. The results indicate that protected harborage sites and shade influenced the distribution of Ae. notoscriptus within the study site.

Published

2000