Your search keyword '"Antigens, Protozoan biosynthesis"' showing total 358 results

1. cAMP-dependent protein kinase regulates secretion of apical membrane antigen 1 (AMA1) in Plasmodium yoelii.

Author

Ishizaki T, Asada M, Hakimi H, Chaiyawong N, Kegawa Y, Yahata K, and Kaneko O

Subjects

Animals, Cyclic AMP-Dependent Protein Kinases metabolism, Female, Merozoites metabolism, Mice, Mice, Inbred BALB C, Mice, Inbred ICR, Plasmodium yoelii enzymology, Plasmodium yoelii metabolism, Protozoan Proteins biosynthesis, Protozoan Proteins metabolism, Antigens, Protozoan biosynthesis, Cyclic AMP-Dependent Protein Kinases genetics, Membrane Proteins biosynthesis, Plasmodium yoelii genetics, Protozoan Proteins genetics

Abstract

Malaria remains a heavy global burden on human health, and it is important to understand the molecular and cellular biology of the parasite to find targets for drug and vaccine development. The mouse malaria model is an essential tool to characterize the function of identified molecules; however, robust technologies for targeted gene deletions are still poorly developed for the widely used rodent malaria parasite, Plasmodium yoelii. To overcome this problem, we established a DiCre-loxP inducible knockout (iKO) system in P. yoelii, which showed more than 80% excision efficacy of the target locus and more than 90% reduction of locus transcripts 24 h (one cell cycle) after RAP administration. Using this developed system, cAMP-dependent protein kinase (PKAc) was inducibly disrupted and the phenotypes of the resulting PKAc-iKO parasites were analyzed. We found that PKAc-iKO parasites showed severe growth and erythrocyte invasion defects. We also found that disruption of PKAc impaired the secretion of AMA1 in P. yoelii, in contrast to a report showing no role of PKAc in AMA1 secretion in P. falciparum. This discrepancy may be related to the difference in the timing of AMA1 distribution to the merozoite surface, which occurs just after egress for P. falciparum, but after several minutes for P. yoelii. Secretions of PyEBL, Py235, and RON2 were not affected by the disruption of PKAc in P. yoelii. PyRON2 was already secreted to the merozoite surface immediately after merozoite egress, which is inconsistent with the current model that RON2 is injected into the erythrocyte cytosol. Further investigations are required to understand the role of RON2 exposed on the merozoite surface., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

2. Toxoplasma gondii Matrix Antigen 1 Is a Secreted Immunomodulatory Effector.

Author

Tomita T, Mukhopadhyay D, Han B, Yakubu R, Tu V, Mayoral J, Sugi T, Ma Y, Saeij JPJ, and Weiss LM

Subjects

Animals, Antigens, Protozoan analysis, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Cells, Cultured, Cytosol metabolism, Female, Humans, Immunologic Factors genetics, Mice, Mice, Inbred C57BL, Protein Transport, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Toxoplasma chemistry, Toxoplasma genetics, Toxoplasmosis parasitology, Antigens, Protozoan immunology, Cytosol chemistry, Immunologic Factors immunology, Protozoan Proteins immunology, Toxoplasma immunology, Toxoplasmosis immunology

Abstract

Our studies on novel cyst wall proteins serendipitously led us to the discovery that cyst wall and vacuolar matrix protein MAG1, first identified a quarter of a century ago, functions as a secreted immunomodulatory effector. MAG1 is a dense granular protein that is found in the parasitophorous vacuolar matrix in tachyzoite vacuoles and the cyst wall and matrix in bradyzoite vacuoles. In the current study, we demonstrated that MAG1 is secreted beyond the parasitophorous vacuole into the host cytosol in both tachyzoites and bradyzoites. Secretion of MAG1 gradually decreases as the parasitophorous vacuole matures, but prominent MAG1 puncta are present inside host cells even at 4 and 6 days following infection. During acute murine infection, Δ mag1 parasites displayed significantly reduced virulence and dissemination. In the chronic stage of infection, Δ mag1 parasites generated almost no brain cysts. To identify the mechanism behind the attenuated pathology seen with Δ mag1 parasites, various immune responses were screened in vitro using bone marrow-derived macrophages (BMDM). Infection of BMDM with Δ mag1 parasites induced a significant increase in interleukin 1β (IL-1β) secretion, which is a hallmark of inflammasome activation. Heterologous complementation of MAG1 in BMDM cells prevented this Δ mag1 parasite-induced IL-1β release, indicating that secreted MAG1 in host cytosol dampens inflammasome activation. Furthermore, knocking out GRA15 (an inducer of IL-1β release) in Δ mag1 parasites completely inhibited all IL-1β release by host cells following infection. These data suggest that MAG1 has a role as an immunomodulatory molecule and that by suppressing inflammasome activation, it would favor survival of the parasite and the establishment of latent infection. IMPORTANCE Toxoplasma gondii is an Apicomplexan that infects a third of humans, causing encephalitis in AIDS patients and intellectual disabilities in congenitally infected patients. We determined that one of the cyst matrix proteins, MAG1, which had been thought to be an innate structural protein, can be secreted into the host cell and suppress the host immune reaction. This particular immune reaction is initiated by another parasite-secreted protein, GRA15. The intricate balance of inflammasome activation by GRA15 and suppression by MAG1 protects mice from acute death while enabling parasites to disseminate and establish chronic cysts. Our finding contributes to our understanding of how parasites persist in the host and how T. gondii modulates the host immune system., (Copyright © 2021 Tomita et al.)

Published

2021

3. Validation of ELISA with recombinant antigens in serological diagnosis of canine Leishmania infantum infection.

Author

Fujimori M, de Almeida ADBPF, Barrouin-Melo SM, Cortez LRPB, Duthie MS, Hiramoto RM, de Pinho FA, Reed SG, Sousa VRF, Souza NF, Soares RM, Tolezano JE, Sanchez MCA, and Goto H

Subjects

Animals, Antigens, Protozoan biosynthesis, Brazil, Dogs, Enzyme-Linked Immunosorbent Assay methods, Leishmania infantum isolation & purification, Leishmaniasis, Visceral blood, Leishmaniasis, Visceral veterinary, Recombinant Proteins immunology, Sensitivity and Specificity, Serologic Tests, Antibodies, Protozoan blood, Dog Diseases diagnosis, Enzyme-Linked Immunosorbent Assay standards, Enzyme-Linked Immunosorbent Assay veterinary, Leishmania infantum immunology, Leishmaniasis, Visceral diagnosis

Abstract

Background: Dogs are the main peridomiciliary reservoir of Leishmania infantum thus the correct diagnosis of infection is essential for the control of the transmission and treatment as well. However, the diagnosis is based on serological assays that are not fully effective., Objective: We aimed to establish an effective serological assay for the diagnosis of L. infantum infected dogs using Leishmania-derived recombinant antigens., Methods: Leishmania derived rK39-, rK28-, rKR95-based enzyme-linked immunosorbent assay (ELISA) was standardized using symptomatic and asymptomatic L. infantum-infected dogs. Then 2,530 samples from inquiry in endemic areas for VL were evaluated and the results compared with recommended assays by the Brazilian Ministry of Health (MH algorithm). Further samples from a cohort of 30 dogs were searched., Findings: For rK39-, rK28- and rKR95-ELISA the sensitivity was around 97% and specificity 100%. The positivity of these three ELISA in the inquiry samples was 27-28%, around 10% higher than the assays currently in use. When cohort samples were searched, we observed likely false-negative results (> 65%) with supposedly negative samples that turned positive six months later with the assays in use (MH algorithm)., Main Conclusions: For the diagnosis of L. infantum-infected dogs, rK39-based ELISA showed better diagnostic performance than other assays in use in Brazil and worldwide.

Published

2021

4. Evaluation of a new live recombinant vaccine against cutaneous leishmaniasis in BALB/c mice.

Author

Salari S, Sharifi I, Keyhani AR, and Ghasemi Nejad Almani P

Subjects

Animals, Antibodies, Protozoan, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Cloning, Molecular, Cytokines metabolism, Escherichia coli genetics, Genes, Protozoan, Immunity, Humoral, Immunoglobulin G metabolism, Leishmania drug effects, Leishmania pathogenicity, Leishmania major drug effects, Leishmania major immunology, Leishmania major pathogenicity, Membrane Glycoproteins genetics, Membrane Glycoproteins immunology, Mice, Mice, Inbred BALB C immunology, Mice, Inbred BALB C parasitology, Parasite Load, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Protozoan Proteins immunology, Recombinant Proteins biosynthesis, Recombinant Proteins immunology, Vaccines, Synthetic biosynthesis, Vaccines, Synthetic immunology, Vaccines, Synthetic pharmacology, Leishmania immunology, Leishmaniasis Vaccines biosynthesis, Leishmaniasis Vaccines immunology, Leishmaniasis Vaccines pharmacology, Leishmaniasis, Cutaneous drug therapy, Leishmaniasis, Cutaneous immunology, Leishmaniasis, Cutaneous prevention & control, Vaccines, Live, Unattenuated biosynthesis, Vaccines, Live, Unattenuated immunology, Vaccines, Live, Unattenuated pharmacology

Abstract

Background: Leishmaniasis is a serious health problem in some parts of the world. In spite of the many known leishmaniasis control measures, the disease has continued to increase in endemic areas, and no effective vaccine has been discovered., Methods: In this study, Leishmania tarentulae was used as a living factory for the production of two LACK and KMP11 immunogenic antigens in the mice body, and safety profiles were investigated. The sequences of the KMP11 and LACK L. major antigens were synthesized in the pLEXSY-neo 2.1 plasmid and cloned into E. coli strain Top10, and after being linearized with the SwaI enzyme, they were transfected into the genome of L. tarentolae. The L. tarentolae-LACK/KMP11/EGFP in the stationary phase with CpG ODN as an adjuvant was used for vaccination in BALB/c mice. Vaccination was performed into the left footpad. Three weeks later, the booster was injected in the same manner. To examine the effectiveness of the injected vaccine, pathogenic L. major (MRHO/IR/75/ER) was injected into the right footpad of all mice three weeks following the booster vaccination. In order to assess humoral immunity, the levels of IgG1, and IgG2a antibodies before and 6 weeks after the challenge were studied in the groups. In addition, in order to investigate cellular immunity in the groups, the study measured IFN-γ, IL-5, TNF-α, IL-6 and IL-17 cytokines before, 3 weeks and 8 weeks after the challenge, and also the parasite load in the lymph node with real-time PCR., Results: The lowest level of the parasitic load was observed in the G1 group (mice vaccinated with L. tarentolae-LACK/KMP11/EGFP with CpG) in comparison with other groups (L. tarentolae-LACK/KMP11/EGFP +non-CpG (G2); L. tarentolae-EGFP + CpG (G3, control); L. tarentolae-EGFP + non-CpG (G4, control); and mice injected with PBS (G5, control). Moreover, the evaluation of immune response showed a delayed-type hypersensitivity towards Th1., Conclusions: According to the results of this study, the live recombinant vaccine of L. tarentolae-LACK/KMP11/EGFP with the CpG adjuvant reduced the parasitic load and footpad induration in infected mice. The long-term effects of this vaccine can be evaluated in volunteers as a clinical trial in future planning.

Published

2020

5. The effect of edelfosine on GRA1 and MIC3 expressions in acute toxoplasmosis.

Author

Tanzifi A, Khoshi A, Emami S, Sarvi S, Sharif M, Montazeri M, Moghbeli M, and Daryani A

Subjects

Animals, Antigens, Protozoan genetics, Blotting, Western, Brain metabolism, Cell Line, Chlorocebus aethiops, Eye metabolism, Female, Liver metabolism, Mice, Mice, Inbred BALB C, Protozoan Proteins genetics, Toxoplasma genetics, Vero Cells, Antigens, Protozoan biosynthesis, Antiparasitic Agents pharmacology, Phospholipid Ethers pharmacology, Protozoan Proteins biosynthesis, Toxoplasma drug effects, Toxoplasmosis, Animal drug therapy

Abstract

Phosphoinositide-dependent phospholipase-C (PI-PLC) triggers the calcium signaling pathway which plays an important role in dense granule and microneme secretion and pathogenesis of Toxoplasma gondii (T. gondii). There are limited data about the effects of phospholipid analogues against T. gondii. The current study assessed the effect of edelfosine, as a phospholipid analogue, on GRA1 and MIC3 expressions using in vitro and in vivo models of acute toxoplasmosis. Infected Vero cells were treated by edelfosine in two subgroups: 24 h following the cell infection and treatment at the same time of cell infection. Animal study was performed on forty mice in four groups including non-infected, infected untreated, infected edelfosine-treated, and infected pyrimethamine-treated. Gene and protein expression analyses were done using quantitative real-time PCR and western blot, respectively. Edelfosine significantly reduced the GRA1 (P < 0.01) and MIC3 (P < 0.01) mRNA and protein expressions in 24 h following the cell infection and at the same time of cell infection groups. In vivo study showed that the edelfosine significantly reduced the GRA1 expression in eye, and MIC3 expression in brain and liver. Moreover, the edelfosine-treated infected mice had significant higher survival rate compared with uninfected mice. The reducing effect of edelfosine on GRA1 and MIC3 mRNA and protein levels 24 h following the cell infection was more than treatment at the same time of cell infection group. Moreover, the effect of edelfosine on GRA1 and MIC3 expression in animal tissues was variable. These data showed that the edelfosine may decrease the T. gondii excretory/secretory antigens through inhibition of PI-PLC.

Published

2020

6. Antigenicity assessment of the Theileria equi merozoite antigen (EMA-2) expressed in Pichia pastoris in mice and horses.

Author

Vianna AM, Santos AC, Cunha RC, de Souza Stori de Lara AP, Weege GB, and Leivas Leite FP

Subjects

Analysis of Variance, Animals, Antibodies, Protozoan blood, Antibodies, Protozoan immunology, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Enzyme-Linked Immunosorbent Assay, Female, Fluorescent Antibody Technique, Horses, Immunoglobulin G blood, Immunoglobulin G immunology, Merozoites immunology, Mice, Mice, Inbred BALB C, Polymerase Chain Reaction, Random Allocation, Recombinant Proteins immunology, Antigens, Protozoan immunology, Pichia immunology, Theileria immunology

Abstract

Equine theileriosis is a severe equine disease caused by the protozoan Theileria equi, which is prevalent in tropical and subtropical areas. In this study, a recombinant equi merozoite antigen-2 (rEMA-2) of T. equi was used as an immunogen. Two groups of 10 mice each were divided into control and vaccinated groups. Sixty mares seronegative for theileriosis were divided in two groups, one vaccinated and another group as a control animal. Mice and mares of the vaccinated groups were inoculated with 150 μL of the vaccine containing 50 μg of rEMA-2 and 2 mL of the vaccine containing 200 μg of rEMA-2, respectively, at days 0 and 21. The immunogenicity of rEMA-2 was evaluated by ELISA and fluorescent antibody test (IFAT) using serum from vaccinated mice, mares and antigenicity in naturally infected horse. At every point throughout the ELISA study, there were significant differences between the vaccinated and control groups (p < 0.05). The vaccine induced 3- and 4-fold IgG increases in mice at the 14th and 28th day, respectively, compared to the control group. The horses' IgG dynamics showed a significant (p < 0.05) increase in the total IgG titer as early as day 7, which increased until day 28 at which time a more significant (p < 0.001) IgG titer was observed. In evaluating the isotypes, we observed a trend similar to that of total IgG, where IgG(T) (IgG3-5) were significantly (p < 0.05) more elevated than the other isotypes analyzed, followed by IgGb (IgG4-7) and IgGa (IgG1). Positive fluorescence was detected by IFAT, suggesting that the protein is immunogenic and conserves some epitopes identical to the native T. equi antigens present in the equine blood smear. Thus, our results suggest that rEMA-2 can be a promising vaccinal antigen., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

7. Evaluation of induction conditions for plasmid pQE-30 stability and 503 antigen of Leishmania i. chagasi expression in E. coli M15.

Author

Ribeiro VT, Asevedo EA, de Paiva Vasconcelos LTC, Filho MAO, de Araújo JS, de Macedo GR, de Sousa Júnior FC, and Dos Santos ES

Subjects

Antigens, Protozoan genetics, Escherichia coli genetics, Genomic Instability drug effects, Isopropyl Thiogalactoside metabolism, Plasmids, Recombinant Proteins genetics, Temperature, Antigens, Protozoan biosynthesis, Escherichia coli metabolism, Gene Expression, Leishmania genetics, Recombinant Proteins biosynthesis, Transcriptional Activation

Abstract

The present study aimed to evaluate the influence of induction conditions (IPTG concentration, temperature, and induction time) on the plasmid pQE-30 stability and 503 antigen expression of Leishmania i. chagasi in Escherichia coli M15. Batch cultures were performed at 37 °C and induced by the addition of different IPTG concentrations (0.01 to 1.5 mM). Subsequently, experiments were carried out at different temperatures (27 to 42 °C), evaluating the influence of induction time (0.5 to 6 h after the start of the culture). The results showed that IPTG toxicity caused a metabolic stress in the cells and, consequently, the microorganism growth reduced. The induction with IPTG may also be associated with the plasmid pQE-30 instability, due to metabolic burden imposed by the recombinant protein expression. The optimal conditions for 503 antigen expression of Leishmania i. chagasi in Escherichia coli M15 were an IPTG concentration of 1.0 mM, temperature of 37 °C, and induction time of 2 h. The maximum antigen concentration obtained was 0.119 ± 0.009 g/L, about seven times higher than the lowest concentration. Therefore, the results showed that 503 antigen can be produced in laboratory; however, it requires more studies to minimize the plasmid instability and improve to industrial scale.

Published

2019

8. Clinical expression and antigenic profiles of a Plasmodium vivax vaccine candidate: merozoite surface protein 7 (PvMSP-7).

Author

Cheng CW, Jongwutiwes S, Putaporntip C, and Jackson AP

Subjects

Adolescent, Adult, Africa, Aged, Aged, 80 and over, Alleles, Antibodies, Protozoan blood, Antigens, Protozoan genetics, Child, Child, Preschool, Female, Gene Expression Profiling, Humans, Infant, Infant, Newborn, Male, Membrane Proteins genetics, Microarray Analysis, Middle Aged, Plasmodium vivax immunology, Protozoan Proteins genetics, Sequence Analysis, RNA, Young Adult, Antigens, Protozoan biosynthesis, Antigens, Protozoan immunology, Malaria Vaccines immunology, Malaria, Vivax immunology, Malaria, Vivax prevention & control, Membrane Proteins biosynthesis, Membrane Proteins immunology, Protozoan Proteins biosynthesis, Protozoan Proteins immunology

Abstract

Background: Vivax malaria is the predominant form of malaria outside Africa, affecting about 14 million people worldwide, with about 2.5 billion people exposed. Development of a Plasmodium vivax vaccine is a priority, and merozoite surface protein 7 (MSP-7) has been proposed as a plausible candidate. The P. vivax genome contains 12 MSP-7 genes, which contribute to erythrocyte invasion during blood-stage infection. Previous analysis of MSP-7 sequence diversity suggested that not all paralogs are functionally equivalent. To explore MSP-7 functional diversity, and to identify the best vaccine candidate within the family, MSP-7 expression and antigenicity during bloodstream infections were examined directly from clinical isolates., Methods: Merozoite surface protein 7 gene expression was profiled using RNA-seq data from blood samples isolated from ten human patients with vivax malaria. Differential expression analysis and co-expression cluster analysis were used to relate PvMSP-7 expression to genetic markers of life cycle stage. Plasma from vivax malaria patients was also assayed using a custom peptide microarray to measure antibody responses against the coding regions of 12 MSP-7 paralogs., Results: Ten patients presented diverse transcriptional profiles that comprised four patient groups. Two MSP-7 paralogs, 7A and 7F, were expressed abundantly in all patients, while other MSP-7 genes were uniformly rare (e.g. 7J). MSP-7H and 7I were significantly more abundant in patient group 4 only, (two patients having experienced longer patency), and were co-expressed with a schizont-stage marker, while negatively associated with liver-stage and gametocyte-stage markers. Screening infections with a PvMSP-7 peptide array identified 13 linear B-cell epitopes in five MSP-7 paralogs that were recognized by plasma from all patients., Conclusions: These results show that MSP-7 family members vary in expression profile during blood infections; MSP-7A and 7F are expressed throughout the intraerythrocytic development cycle, while expression of other paralogs is focused on the schizont. This may reflect developmental regulation, and potentially functional differentiation, within the gene family. The frequency of B-cell epitopes among paralogs also varies, with MSP-7A and 7L consistently the most immunogenic. Thus, MSP-7 paralogs cannot be assumed to have equal potential as vaccines. This analysis of clinical infections indicates that the most abundant and immunogenic paralog is MSP-7A.

Published

2019

9. Expression of full-length Plasmodium falciparum P48/45 in P. berghei blood stages: A method to express and evaluate vaccine antigens.

Author

Othman AS, Lin JW, Franke-Fayard BM, Kroeze H, van Pul FJA, Chevalley-Maurel S, Ramesar J, Marin-Mogollon C, Jore MM, Morin MJ, Long CA, Sauerwein R, Birkett A, Miura K, Janse CJ, and Khan SM

Subjects

Animals, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Disease Models, Animal, Disease Transmission, Infectious prevention & control, Gene Expression, Malaria prevention & control, Membrane Proteins biosynthesis, Membrane Proteins genetics, Mice, Promoter Regions, Genetic, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Transgenes, Antigens, Protozoan immunology, Malaria Vaccines immunology, Membrane Proteins immunology, Plasmodium berghei genetics, Plasmodium falciparum genetics, Recombinant Proteins immunology

Abstract

The transmission-blocking vaccine candidate Pfs48/45 from the human malaria parasite Plasmodium falciparum is known to be difficult to express in heterologous systems, either as full-length protein or as correctly folded protein fragments that retain conformational epitopes. In this study we express full-length Pfs48/45 in the rodent parasite P. berghei. Pfs48/45 is expressed as a transgene under control of the strong P. berghei schizont-specific msp1 gene promoter (Pfs48/45@PbMSP1). Pfs48/45@PbMSP1 schizont-infected red blood cells produced full-length Pfs48/45 and the structural integrity of Pfs48/45 was confirmed using a panel of conformation-specific monoclonal antibodies that bind to different Pfs48/45 epitopes. Sera from mice immunized with transgenic Pfs48/45@PbMSP1 schizonts showed strong transmission-reducing activity in mosquitoes infected with P. falciparum using standard membrane feeding. These results demonstrate that transgenic rodent malaria parasites expressing human malaria antigens may be used as means to evaluate immunogenicity and functionality of difficult to express malaria vaccine candidate antigens., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018

10. Increased IL-27/IL-27R expression in association with the immunopathology of murine ocular toxoplasmosis.

Author

Tong X, Chen S, Zheng H, Huang S, and Lu F

Subjects

Animals, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Cell Degranulation immunology, Cell Line, Tumor, Cytokine Receptor gp130 genetics, Disease Models, Animal, Female, Humans, Interleukins genetics, Mast Cells immunology, Mastocytoma metabolism, Mice, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, RNA, Messenger biosynthesis, Receptors, Cytokine genetics, Receptors, Interleukin, Reverse Transcriptase Polymerase Chain Reaction, Signal Transduction, T-Lymphocytes metabolism, Toxoplasma genetics, Toxoplasma pathogenicity, Toxoplasmosis, Ocular immunology, Toxoplasmosis, Ocular parasitology, Cytokine Receptor gp130 metabolism, Interleukins metabolism, Mast Cells metabolism, Receptors, Cytokine metabolism, Toxoplasmosis, Ocular pathology

Abstract

Interleukin 27 (IL-27) is a member of the IL-6/IL-12 family, and IL-27 receptor (IL-27R) consists of WSX-1 (the IL-27Rα subunit) and the signal-transducing subunit gp130. Human and mouse mast cells (MCs) express the IL-27R. To explore the expressions of IL-27/IL-27R subunits (WSX-1 and gp130) during acute ocular toxoplasmosis (OT), we established mouse model by intraocular injection of 500 Toxoplasma gondii RH strain tachyzoites. Histopathological changes were analyzed, MCs were counted by toluidine blue staining, and tryptase + /IL-27 + MCs were examined by immunofluorescence double-staining in the eyes and cervical lymph nodes (CLNs) of T. gondii-infected mice. The mRNA expressions of IL-27p28, WSX-1, gp130, and tachyzoite specific surface antigen 1 (SAG1) in the eyes and CLNs of T. gondii-infected mice, and the expressions of WSX-1 and gp130 in the murine mastocytoma cell line P815 infected with T. gondii tachyzoites in vitro were examined by using quantitative real-time reverse transcription-polymerase chain reaction. Our results showed that, after T. gondii infection, severe histopathological changes, increased numbers of total MCs and degranulated MCs, elevated expressions of IL-27p28, WSX-1, and gp130 were found in the eyes and CLNs, and significant correlations between the levels of IL-27 and SAG1 existed in the eyes and CLNs of T. gondii-infected mice. In addition, increased levels of WSX-1 and gp130 were examined in T. gondii-infected P815 cells. Our data suggested that IL-27/IL-27R expression induced by T. gondii infection may regulate MC-mediated immune response during acute OT in mouse model.

Published

2018

11. Engineering the chloroplast of Chlamydomonas reinhardtii to express the recombinant PfCelTOS-Il2 antigen-adjuvant fusion protein.

Author

Shamriz S and Ofoghi H

Subjects

Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Chlamydomonas reinhardtii genetics, Chlamydomonas reinhardtii metabolism, Chloroplasts genetics, Chloroplasts metabolism, Malaria Vaccines biosynthesis, Malaria Vaccines genetics, Plasmodium falciparum genetics

Abstract

Malaria is an infectious disease having a large negative impact on economic growth. Vaccines are considered as a novel strategy to reduce the burden of malaria. Malaria parasite has a complex life cycle and attempts are being made to develop vaccines that target each stage of the life cycle. Oral vaccines seem to be more feasible to implement in poor countries, since they are relatively inexpensive, needle-free administrated, mostly stable at non-refrigerated conditions and painless. By using recombinant technology, suitable oral hosts could serve as antigen delivering vehicles in developing oral vaccines. Chlamydomonas reinhardtii offers beneficial attributes as oral recombinant protein expression platform. Moreover, C. reinhardtii chloroplast is an attractive platform for expressing malaria antigens because it is capable of folding complex proteins, including those requiring disulfide bond formation, while lacking the ability to glycosylate proteins; a valuable quality of any malaria protein expression system, since the Plasmodium parasite lacks N-linked glycosylation machinery. As a first step towards developing an oral vaccine candidate against malaria, here, we expressed a fusion protein consisting of PfCelTOS, a candidate for pre-erythrocytic and transmission-blocking vaccines, fused to human interleukin-2 (IL-2) as vaccine adjuvant in the chloroplast of C. reinhardtii. The effect of light and media on recombinant protein production and cell growth was then studied. Results demonstrated that expressed recombinant proteins accumulate as a soluble, properly folded and functional protein within algal chloroplasts. Moreover, results showed that the highest cell density can be achieved using mixotrophy mode. However, protein accumulation appears to be favored by cultivating in TAP medium in low light., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

12. Optimization of the 503 antigen induction strategy of Leishmania infantum chagasi expressed in Escherichia coli M15.

Author

Vasconcelos LTCP, Oliveira Filho MA, Ribeiro VT, Araújo JS, de Sousa Junior FC, Martins DRA, and Dos Santos ES

Subjects

Escherichia coli genetics, Humans, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins immunology, Recombinant Proteins isolation & purification, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Antigens, Protozoan isolation & purification, Escherichia coli metabolism, Gene Expression, Leishmania infantum genetics, Leishmania infantum immunology

Abstract

Leishmaniosis is a complex of diseases that can be fatal, if not given proper attention. Despite its relevance in the public health system, there is no vaccine capable of preventing the disease in humans so far and its treatment is expensive and aggressive to human health. The present study aims to optimize the induction parameters of the 503 Leishmania i. chagasi antigen expressed in recombinant Escherichia coli M15. The induction at different cell densities was evaluated in order to analyze the influence of the induction time on the yield of the protein of interest. In this segment, lactose and isopropyl-β-d-thiogalactopyranoside (IPTG) were used as inducer molecules, using various concentrations: 0.1 g/L, 1.0 g/L, and 10 g/L for lactose and 20 μM, 100 μM, 500 μM, and 1000 μM for IPTG. The results presented that the concentration of IPTG that obtained the higher antigen levels was that of 100 μM (0.087 g/L), a 10-fold lower concentration than was being previously used in this type of system and for lactose, it was 1 g/L (0.016 g/L). Thus, the induction with 100 μM allowed obtaining the antigen with a concentration 5.6 times higher than the lactose induction maximum concentration.

Published

2018

13. New strategy to improve quality control of Montenegro skin test at the production level.

Author

Guedes DC, Minozzo JC, Pasquali AKS, Faulds C, Soccol CR, and Thomaz-Soccol V

Subjects

Animals, Leishmania immunology, Male, Predictive Value of Tests, Quality Control, Sensitivity and Specificity, Antigens, Protozoan biosynthesis, Guinea Pigs immunology, Intradermal Tests standards, Leishmania braziliensis immunology, Leishmaniasis, Cutaneous diagnosis, Models, Animal

Abstract

Introduction: The production of the Montenegro antigen for skin test poses difficulties regarding quality control. Here, we propose that certain animal models reproducing a similar immune response to humans may be used in the quality control of Montenegro antigen production., Methods: Fifteen Cavia porcellus (guinea pigs) were immunized with Leishmania amazonensis or Leishmania braziliensis , and, after 30 days, they were skin tested with standard Montenegro antigen. To validate C. porcellus as an animal model for skin tests, eighteen Mesocricetus auratus (hamsters) were infected with L. amazonensis or L. braziliensis , and, after 45 days, they were skin tested with standard Montenegro antigen., Results: Cavia porcellus immunized with L. amazonensis or L. braziliensis , and hamsters infected with the same species presented induration reactions when skin tested with standard Montenegro antigen 48-72h after the test., Conclusions: The comparison between immunization methods and immune response from the two animal species validated C. porcellus as a good model for Montenegro skin test, and the model showed strong potential as an in vivo model in the quality control of the production of Montenegro antigen.

Published

2017

14. P. falciparum RH5-Basigin interaction induces changes in the cytoskeleton of the host RBC.

Author

Aniweh Y, Gao X, Hao P, Meng W, Lai SK, Gunalan K, Chu TT, Sinha A, Lescar J, Chandramohanadas R, Li HY, Sze SK, and Preiser PR

Subjects

Antibodies, Monoclonal immunology, Antigens, Protozoan biosynthesis, Carrier Proteins antagonists & inhibitors, Carrier Proteins immunology, Cell Line, Cytoskeleton parasitology, Cytoskeleton pathology, Erythrocytes parasitology, Host-Parasite Interactions physiology, Humans, Malaria, Falciparum parasitology, Plasmodium falciparum metabolism, Protozoan Proteins biosynthesis, Basigin metabolism, Calcium Signaling physiology, Carrier Proteins metabolism, Erythrocytes physiology, Merozoites pathogenicity, Plasmodium falciparum pathogenicity

Abstract

The successful invasion of Plasmodium is an essential step in their life cycle. The parasite reticulocyte-binding protein homologues (RHs) and erythrocyte-binding like proteins are two families involved in the invasion leading to merozoite-red blood cell (RBC) junction formation. Ca 2+ signaling has been shown to play a critical role in the invasion. RHs have been linked to Ca 2+ signaling, which triggers the erythrocyte-binding like proteins release ahead of junction formation, consistent with RHs performing an initial sensing function in identifying suitable RBCs. RH5, the only essential RHs, is a highly promising vaccine candidate. RH5-basigin interaction is essential for merozoite invasion and also important in determining host tropism. Here, we show that RH5 has a distinct function from the other RHs. We show that RH5-Basigin interaction on its own triggers a Ca 2+ signal in the RBC resulting in changes in RBC cytoskeletal proteins phosphorylation and overall alterations in RBC cytoskeleton architecture. Antibodies targeting RH5 that block the signal prevent invasion before junction formation consistent with the Ca 2+ signal in the RBC leading to rearrangement of the cytoskeleton required for invasion. This work provides the first time a functional context for the essential role of RH5 and will now open up new avenues to target merozoite invasion., (© 2017 John Wiley & Sons Ltd.)

Published

2017

15. Assessment and optimization of Theileria parva sporozoite full-length p67 antigen expression in mammalian cells.

Author

Tebaldi G, Williams LB, Verna AE, Macchi F, Franceschi V, Fry LM, Knowles DP, and Donofrio G

Subjects

Animals, Antibodies, Monoclonal immunology, Antigens, Protozoan immunology, Blotting, Western, Cattle, Enzyme-Linked Immunosorbent Assay, Goats, HEK293 Cells, Humans, Protozoan Proteins immunology, Recombinant Fusion Proteins immunology, Theileria parva, Antigens, Protozoan biosynthesis, Protozoan Proteins biosynthesis, Recombinant Fusion Proteins biosynthesis

Abstract

Delivery of various forms of recombinant Theileria parva sporozoite antigen (p67) has been shown to elicit antibody responses in cattle capable of providing protection against East Coast fever, the clinical disease caused by T. parva. Previous formulations of full-length and shorter recombinant versions of p67 derived from bacteria, insect, and mammalian cell systems are expressed in non-native and highly unstable forms. The stable expression of full-length recombinant p67 in mammalian cells has never been described and has remained especially elusive. In this study, p67 was expressed in human-derived cells as a full-length, membrane-linked protein and as a secreted form by omission of the putative transmembrane domain. The recombinant protein expressed in this system yielded primarily two products based on Western immunoblot analysis, including one at the expected size of 67 kDa, and one with a higher than expected molecular weight. Through treatment with PNGase F, our data indicate that the larger product of this mammalian cell-expressed recombinant p67 cannot be attributed to glycosylation. By increasing the denaturing conditions, we determined that the larger sized mammalian cell-expressed recombinant p67 product is likely a dimeric aggregate of the protein. Both forms of this recombinant p67 reacted with a monoclonal antibody to the p67 molecule, which reacts with the native sporozoite. Additionally, through this work we developed multiple mammalian cell lines, including both human and bovine-derived cell lines, transduced by a lentiviral vector, that are constitutively able to express a stable, secreted form of p67 for use in immunization, diagnostics, or in vitro assays. The recombinant p67 developed in this system is immunogenic in goats and cattle based on ELISA and flow cytometric analysis. The development of a mammalian cell system that expresses full-length p67 in a stable form as described here is expected to optimize p67-based immunization.

Published

2017

16. Production of recombinant PvDBPII, receptor binding domain of Plasmodium vivax Duffy binding protein, and evaluation of immunogenicity to identify an adjuvant formulation for vaccine development.

Author

Bhardwaj R, Shakri AR, Hans D, Gupta P, Fernandez-Becerra C, Del Portillo HA, Pandey G, and Chitnis CE

Subjects

Animals, Humans, Mice, Mice, Inbred BALB C, Plasmodium vivax immunology, Protein Domains, Recombinant Proteins biosynthesis, Recombinant Proteins immunology, Recombinant Proteins isolation & purification, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Antigens, Protozoan isolation & purification, Immunogenicity, Vaccine, Malaria Vaccines biosynthesis, Malaria Vaccines genetics, Malaria Vaccines immunology, Malaria Vaccines isolation & purification, Plasmodium vivax genetics, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Protozoan Proteins immunology, Protozoan Proteins isolation & purification, Receptors, Cell Surface biosynthesis, Receptors, Cell Surface genetics, Receptors, Cell Surface immunology, Receptors, Cell Surface isolation & purification

Abstract

Plasmodium vivax is dependent on interaction with the Duffy antigen receptor for chemokines (DARC) for invasion of human erythrocytes. The P. vivax Duffy binding protein (PvDBP) mediates interaction of P. vivax merozoites with DARC. The DARC receptor-binding domain lies in a conserved N-terminal cysteine-rich region of PvDBP referred to as region II (PvDBPII). PvDBPII is an attractive vaccine candidate since antibodies raised against PvDBPII block erythrocyte invasion by P. vivax. Here, we describe methods to produce recombinant PvDBPII in its correctly folded conformation. A synthetic gene optimized for expression of PvDBPII in Escherichia coli and fed batch fermentation process based on exponential feeding strategy was used to achieve high levels of expression of recombinant PvDBPII. Recombinant PvDBPII was isolated from inclusion bodies, refolded by rapid dilution and purified by ion exchange chromatography. Purified recombinant PvDBPII was characterized for identity, purity and functional activity using standardized release assays. Recombinant PvDBPII formulated with various human compatible adjuvants including glycosylpyranosyl lipid A-stable emulsion (GLA-SE) and alhydrogel was used for immunogenicity studies in small animals to downselect a suitable formulation for clinical development. Sera collected from immunized animals were tested for recognition of PvDBPII and inhibition of PvDBPII-DARC binding. GLA-SE formulations of PvDBPII yielded higher ELISA and binding inhibition titres compared to PvDBPII formulated with alhydrogel. These data support further development of a recombinant vaccine for P. vivax based on PvDBPII formulated with GLA-SE., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

17. Expression dynamics and physiologically relevant functional study of STEVOR in asexual stages of Plasmodium falciparum infection.

Author

Singh H, Madnani K, Lim YB, Cao J, Preiser PR, and Lim CT

Subjects

Antigens, Protozoan biosynthesis, Antigens, Surface biosynthesis, Cell Adhesion physiology, Cell Line, Erythrocytes parasitology, Humans, Malaria, Falciparum parasitology, Plasmodium falciparum genetics, Plasmodium falciparum metabolism, Protozoan Proteins biosynthesis, Rosette Formation, Antigens, Protozoan genetics, Antigens, Surface genetics, Cell Adhesion genetics, Plasmodium falciparum pathogenicity, Protozoan Proteins genetics

Abstract

The extensive modification of Plasmodium falciparum-infected erythrocytes by variant surface antigens plays a major role in immune evasion and malaria-induced pathology. Here, using high-resolution microscopy, we visualize the spatio-temporal expression dynamics of STEVOR, an important variant surface antigens family, in a stage-dependent manner. We demonstrate that it is exported to the cell surface where protein molecules cluster and preferentially localize in proximity to knobs. Quantitative evidence from our force measurements and microfluidic assays reveal that STEVOR can effectively mediate the formation of stable, robust rosettes under static and physiologically relevant flow conditions. Our results extend previously published studies in P. falciparum and emphasize the role of STEVOR in rosetting, an important contributor to disease pathology., (© 2016 John Wiley & Sons Ltd.)

Published

2017

18. Production of refolded Toxoplasma gondii recombinant SAG1-related sequence 3 (SRS3) and its use for serodiagnosis of human toxoplasmosis.

Author

Mirzadeh A, Saadatnia G, Golkar M, Babaie J, and Noordin R

Subjects

Enzyme-Linked Immunosorbent Assay methods, Escherichia coli genetics, Escherichia coli metabolism, Humans, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins immunology, Toxoplasma chemistry, Toxoplasma metabolism, Antibodies, Protozoan blood, Antibodies, Protozoan immunology, Antigens, Protozoan biosynthesis, Antigens, Protozoan chemistry, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Immunoglobulin G blood, Immunoglobulin G immunology, Protein Refolding, Toxoplasma genetics, Toxoplasma immunology, Toxoplasmosis blood, Toxoplasmosis diagnosis, Toxoplasmosis immunology

Abstract

SAG1-related sequence 3 (SRS3) is one of the major Toxoplasma gondii tachyzoite surface antigens and has been shown to be potentially useful for the detection of toxoplasmosis. This protein is highly conformational due to the presence of six disulfide bonds. To achieve solubility and antigenicity, SRS3 depends on proper disulfide bond formation. The aim of this study was to over-express the SRS3 protein with correct folding for use in serodiagnosis of the disease. To achieve this, a truncated SRS3 fusion protein (rtSRS3) was produced, containing six histidyl residues at both terminals and purified by immobilized metal affinity chromatography. The refolding process was performed through three methods, namely dialysis in the presence of chemical additives along with reduced/oxidized glutathione and drop-wise dilution methods with reduced/oxidized glutathione or reduced DTT/oxidized glutathione. Ellman's assay and ELISA showed that the protein folding obtained by the dialysis method was the most favorable, probably due to the correct folding. Subsequently, serum samples from individuals with chronic infection (n = 76), probable acute infection (n = 14), and healthy controls (n = 81) were used to determine the usefulness of the refolded rtSRS3 for Toxoplasma serodiagnosis. The results of the developed IgG-ELISA showed a diagnostic specificity of 91% and a sensitivity of 82.89% and 100% for chronic and acute serum samples, respectively. In conclusion, correctly folded rtSRS3 has the potential to be used as a soluble antigen for the detection of human toxoplasmosis., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

19. Baculovirus-expressed Plasmodium reichenowi EBA-140 merozoite ligand is host specific.

Author

Zerka A, Olechwier A, Rydzak J, Kaczmarek R, and Jaskiewicz E

Subjects

Amino Acid Sequence, Animals, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Antigens, Protozoan metabolism, Binding Sites, Carrier Proteins biosynthesis, Cell Line, Circular Dichroism, Membrane Proteins, N-Acetylneuraminic Acid metabolism, Pan troglodytes, Plasmodium falciparum genetics, Protein Binding, Protozoan Proteins biosynthesis, Receptors, Cell Surface biosynthesis, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Sf9 Cells, Surface Plasmon Resonance, Carrier Proteins genetics, Carrier Proteins metabolism, Erythrocytes metabolism, Glycophorins metabolism, Host Specificity genetics, Plasmodium falciparum metabolism, Protozoan Proteins genetics, Protozoan Proteins metabolism

Abstract

Plasmodium reichenowi, an ape malaria parasite is morphologically identical and genetically similar to Plasmodium falciparum, infects chimpanzees but not humans. Genomic studies revealed that all primate malaria parasites belong to Laverania subgenus. Laverania parasites exhibit strict host specificity, but the molecular mechanisms underlying these host restrictions remain unexplained. Plasmodium merozoites express multiple binding ligands that recognize specific receptors on erythrocytes, including micronemal proteins belonging to P. falciparum EBL family. It was shown that erythrocyte binding antigen-175 (EBA-175), erythrocyte binding ligand-1 (EBL-1), erythrocyte binding antigen-140 (EBA-140) recognize erythrocyte surface sialoglycoproteins - glycophorins A, B, C, respectively. EBA-140 merozoite ligand hijacks glycophorin C (GPC), a minor erythrocyte sialoglycoprotein, to invade the erythrocyte through an alternative invasion pathway. A homolog of P. falciparum EBA-140 protein was identified in P. reichenowi. The amino acid sequences of both EBA-140 ligands are very similar, especially in the conservative erythrocyte binding region (Region II). It has been suggested that evolutionary changes in the sequence of EBL proteins may be associated with Plasmodium host restriction. In this study we obtained, for the first time, the recombinant P. reichenowi EBA-140 ligand Region II using baculovirus expression vector system. We show that the ape EBA-140 Region II is host specific and binds to chimpanzee erythrocytes in the dose and sialic acid dependent manner. Further identification of the erythrocyte receptor for this ape ligand is of great interests, since it may reveal the molecular basis of host restriction of both P. reichenowi and its deadliest human counterpart, P. falciparum., (Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

20. Identification and characterization of an immunogenic antigen, enolase 2, among excretory/secretory antigens (ESA) of Toxoplasma gondii.

Author

Jiang W, Xue JX, Liu YC, Li T, Han XG, Wang SH, Chen YJ, Qi J, Yu SQ, and Wang Q

Subjects

Animals, Escherichia coli metabolism, Immunization, Mice, Mice, Inbred BALB C, Recombinant Proteins biosynthesis, Recombinant Proteins immunology, Recombinant Proteins isolation & purification, Recombinant Proteins pharmacology, Antibodies, Monoclonal, Murine-Derived immunology, Antibodies, Protozoan immunology, Antigens, Protozoan biosynthesis, Antigens, Protozoan immunology, Antigens, Protozoan isolation & purification, Antigens, Protozoan pharmacology, Phosphopyruvate Hydratase biosynthesis, Phosphopyruvate Hydratase immunology, Phosphopyruvate Hydratase isolation & purification, Phosphopyruvate Hydratase pharmacology, Protozoan Proteins biosynthesis, Protozoan Proteins immunology, Protozoan Proteins isolation & purification, Protozoan Proteins pharmacology, Toxoplasma enzymology, Toxoplasma immunology

Abstract

An immunogenic protein, enolase 2, was identified among the secreted excretory/secretory antigens (ESAs) from Toxoplasma gondii strain RH using immunoproteomics based on matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Enolase 2 was cloned, sequenced, and heterologously expressed. BLAST analysis revealed 75-96% similarity with enolases from other parasites. Immunoblotting demonstrated good immunoreactivity of recombinant T. gondii enolase (Tg-enolase 2) to T. gondii-infected animal serum. Purified Tg-enolase 2 was found to catalyze dehydration of 2-phospho-d-glycerate to phosphoenolpyruvate. In vitro studies revealed maximal activity at pH 7.5 and 37 °C, and activity was inhibited by K(+), Ni(2+), Al(3+), Na(+), Cu(2+) and Cr(3+). A monoclonal antibody against Tg-enolase 2 was prepared, 1D6, with the isotype IgG2a/κ. Western blotting revealed that 1D6 reacts with Tg-enolase 2 and native enolase 2, present among T. gondii ESAs. The indirect immunofluorescence assays showed that enolase 2 could be specifically detected on the growing T. gondii tachyzoites. Immunoelectron microscopy revealed the surface and intracellular locations of enolase 2 on T. gondii cells. In conclusion, our results clearly show that the enzymatic activity of T. gondii enolase 2 is ion dependent and that it could be influenced by environmental factors. We also provide evidence that enolase 2 is an important immunogenic protein of ESAs from T. gondii and that it is a surface-exposed protein with strong antigenicity and immunogenicity. Our findings indicate that enolase 2 could play important roles in metabolism, immunogenicity and pathogenicity and that it may serve as a novel drug target and candidate vaccine against T. gondii infection., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

21. Production, Quality Control, Stability and Pharmacotoxicity of a Malaria Vaccine Comprising Three Highly Similar PfAMA1 Protein Molecules to Overcome Antigenic Variation.

Author

Faber BW, Hellwig S, Houard S, Havelange N, Drossard J, Mertens H, Croon A, Kastilan R, Byrne R, van der Werff N, van der Eijk M, Thomas AW, Kocken CH, and Remarque EJ

Subjects

Amino Acid Sequence, Animals, Antibodies, Protozoan immunology, Antigens, Protozoan biosynthesis, Antigens, Protozoan chemistry, Antigens, Protozoan genetics, Female, Fermentation, Humans, Malaria Vaccines administration & dosage, Malaria Vaccines adverse effects, Malaria, Falciparum immunology, Malaria, Falciparum prevention & control, Male, Membrane Proteins biosynthesis, Membrane Proteins chemistry, Membrane Proteins genetics, Mice, Plasmodium falciparum genetics, Plasmodium falciparum immunology, Protein Stability, Protozoan Proteins biosynthesis, Protozoan Proteins chemistry, Protozoan Proteins genetics, Quality Control, Rabbits, Recombinant Proteins, Antigenic Variation, Antigens, Protozoan immunology, Malaria Vaccines biosynthesis, Malaria Vaccines immunology, Membrane Proteins immunology, Protozoan Proteins immunology

Abstract

Plasmodium falciparum apical membrane antigen 1 (PfAMA1) is a leading asexual blood stage vaccine candidate for malaria. In preparation for clinical trials, three Diversity Covering (DiCo) PfAMA1 ectodomain proteins, designed to overcome the intrinsic polymorphism that is present in PfAMA1, were produced under Good Manufacturing Practice (GMP) in Pichia pastoris. Using identical methodology, the 3 strains were cultivated in 70-L scale fed-batch fermentations and PfAMA1-DiCos were purified by two chromatography steps, an ultrafiltration/diafiltration procedure and size exclusion chromatography, resulting in highly pure (>95%) PfAMA1-DiCo1, PfAMA1 DiCo2 and PfAMA1 DiCo3, with final yields of 1.8, 1.9 and 1.3 gram, respectively. N-terminal determinations showed that approximately 50% of each of the proteins lost 12 residues from their N-terminus, in accordance with SDS-PAGE (2 main bands) and MS-data. Under reducing conditions a site of limited proteolytic cleavage within a disulphide bonded region became evident. The three proteins quantitatively bound to the mAb 4G2 that recognizes a conformational epitope, suggesting proper folding of the proteins. The lyophilized Drug Product (1:1:1 mixture of PfAMA1-DiCo1, DiCo2, DiCo3) fulfilled all pre-set release criteria (appearance, dissolution rate, identity, purity, protein content, moisture content, sub-visible particles, immuno-potency (after reconstitution with adjuvant), abnormal toxicity, sterility and endotoxin), was stable in accelerated and real-time stability studies at -20°C for over 24 months. When formulated with adjuvants selected for clinical phase I evaluation, the Drug Product did not show adverse effect in a repeated-dose toxicity study in rabbits. The Drug Product has entered a phase Ia/Ib clinical trial., Competing Interests: I have read the journal's policy and four of the authors of this manuscript (BWF, AWT, CHMK and EJR) have the following competing interest: They hold a patent on the products described in this paper (patent US8741305 B2 (Jun 3, 2014), entitled "Protein Composition for Inducing an Immune Response in a Vertebrate Comprising a Plurality of Protein Variants Covering the Heterogeneity of a Single Antigen, AMA1". This does not alter our adherence to PLOS ONE policies on sharing data and materials. One of the authors (RB) is employed by a commercial company (Nova Laboratories Ltd.). This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2016

22. Use of ELISA based on NcSRS2 of Neospora caninum expressed in Pichia pastoris for diagnosing neosporosis in sheep and dogs.

Author

Pinheiro AF, Borsuk S, Berne ME, Pinto Lda S, Andreotti R, Roos T, Roloff BC, and Leite FP

Subjects

Animals, Antigens, Protozoan biosynthesis, Antigens, Protozoan immunology, Antigens, Surface biosynthesis, Antigens, Surface immunology, Dog Diseases diagnosis, Dogs, Pichia metabolism, Protozoan Infections, Animal diagnosis, Protozoan Proteins biosynthesis, Protozoan Proteins immunology, Sheep, Sheep Diseases diagnosis, Antigens, Protozoan blood, Antigens, Surface blood, Dog Diseases blood, Dog Diseases parasitology, Enzyme-Linked Immunosorbent Assay, Neospora immunology, Protozoan Infections, Animal blood, Protozoan Proteins blood, Sheep Diseases blood, Sheep Diseases parasitology

Abstract

Neosporosis is a disease caused by the protozoon Neospora caninum that leads to significant economic losses in many countries. In the present study, we report on use of the recombinant protein NcSRS2 of N. caninum expressed in Pichia pastoris in an indirect immunoenzymatic assay (ELISA) for diagnosing neosporosis infection in sheep and dogs. We observed that the ELISA test yielded specificity of 94.5% and sensitivity of 100% for sheep and specificity of 93.3% and sensitivity of 100% for dogs. We observed that the sensitivity was higher than shown by the indirect fluorescent antibody test, and this was confirmed by means of Western blot. The results from this study suggest that the recombinant protein expressed in P. pastoris is a suitable antigen for use in immunodiagnosis to detect N. caninum in two important species exposed to this parasitosis.

Published

2015

23. Immunogenicity and antigenicity of Plasmodium vivax merozoite surface protein 10.

Author

Cheng Y, Wang B, Sattabongkot J, Lim CS, Tsuboi T, and Han ET

Subjects

Animals, Antibodies, Protozoan blood, Antigens, Protozoan administration & dosage, Antigens, Protozoan biosynthesis, Female, Humans, Immune Sera, Immunization, Immunoglobulin G blood, Malaria Vaccines administration & dosage, Malaria, Vivax blood, Malaria, Vivax immunology, Merozoites chemistry, Merozoites immunology, Mice, Mice, Inbred BALB C, Protozoan Proteins administration & dosage, Protozoan Proteins biosynthesis, Recombinant Proteins administration & dosage, Recombinant Proteins biosynthesis, Recombinant Proteins immunology, Antigens, Protozoan immunology, Malaria Vaccines immunology, Malaria, Vivax prevention & control, Plasmodium vivax immunology, Protozoan Proteins immunology

Abstract

Among the proteins involved in the invasion by merozoite, the glycosylphosphatidylinositol-anchored proteins (GPI-APs) are suggested as potential vaccine candidates because of their localization to apical organelles and the surface; these candidates are predicted to play essential roles during invasion. As a GPI-AP, Plasmodium vivax merozoite surface protein 10 (PvMSP-10) induces high antibody titers. However, such high antibody titers have shown no protective efficacy for animals challenged with P. vivax parasites in a previous study. To adequately evaluate the immunogenicity and further characterize PvMSP-10 in order to understand its vaccine potential, we assessed its immunogenicity by immunizing BALB/c mice with cell-free expressed recombinant PvMSP-10 protein. The antigenicity of MSP-10 was analyzed, and we found 42% sensitivity and 95% specificity using serum samples from P. vivax-infected Korean patients. The IgG1 and IgG3 were the predominant immunoreactive antibodies against PvMSP-10 in vivax patient sera, and IgG1 and IgG3 and Th1-type cytokines were predominantly secreted in PvMSP-10-immunized mice. We conclude that the immunogenicity and antigenicity of MSP-10 may serve as a potential vaccine against vivax malaria.

Published

2014

24. In vitro evaluation of a soluble Leishmania promastigote surface antigen as a potential vaccine candidate against human leishmaniasis.

Author

Chamakh-Ayari R, Bras-Gonçalves R, Bahi-Jaber N, Petitdidier E, Markikou-Ouni W, Aoun K, Moreno J, Carrillo E, Salotra P, Kaushal H, Negi NS, Arevalo J, Falconi-Agapito F, Privat A, Cruz M, Pagniez J, Papierok GM, Rhouma FB, Torres P, Lemesre JL, Chenik M, and Meddeb-Garnaoui A

Subjects

Adaptive Immunity, Animals, Antigens, Protozoan biosynthesis, Antigens, Surface biosynthesis, Antigens, Surface chemistry, Antigens, Surface immunology, Granzymes blood, Humans, Immunity, Humoral, Interferon-gamma blood, Interleukin-10 blood, Leishmaniasis blood, Leishmaniasis immunology, Mice, Phenotype, Protozoan Vaccines biosynthesis, Solubility, Tumor Necrosis Factor-alpha blood, Antigens, Protozoan chemistry, Antigens, Protozoan immunology, Leishmania immunology, Leishmaniasis prevention & control, Protozoan Vaccines chemistry, Protozoan Vaccines immunology

Abstract

PSA (Promastigote Surface Antigen) belongs to a family of membrane-bound and secreted proteins present in several Leishmania (L.) species. PSA is recognized by human Th1 cells and provides a high degree of protection in vaccinated mice. We evaluated humoral and cellular immune responses induced by a L. amazonensis PSA protein (LaPSA-38S) produced in a L. tarentolae expression system. This was done in individuals cured of cutaneous leishmaniasis due to L. major (CCLm) or L. braziliensis (CCLb) or visceral leishmaniasis due to L. donovani (CVLd) and in healthy individuals. Healthy individuals were subdivided into immune (HHR-Lm and HHR-Li: Healthy High Responders living in an endemic area for L. major or L. infantum infection) or non immune/naive individuals (HLR: Healthy Low Responders), depending on whether they produce high or low levels of IFN-γ in response to Leishmania soluble antigen. Low levels of total IgG antibodies to LaPSA-38S were detected in sera from the studied groups. Interestingly, LaPSA-38S induced specific and significant levels of IFN-γ, granzyme B and IL-10 in CCLm, HHR-Lm and HHR-Li groups, with HHR-Li group producing TNF-α in more. No significant cytokine response was observed in individuals immune to L. braziliensis or L. donovani infection. Phenotypic analysis showed a significant increase in CD4+ T cells producing IFN-γ after LaPSA-38S stimulation, in CCLm. A high positive correlation was observed between the percentage of IFN-γ-producing CD4+ T cells and the released IFN-γ. We showed that the LaPSA-38S protein was able to induce a mixed Th1 and Th2/Treg cytokine response in individuals with immunity to L. major or L. infantum infection indicating that it may be exploited as a vaccine candidate. We also showed, to our knowledge for the first time, the capacity of Leishmania PSA protein to induce granzyme B production in humans with immunity to L. major and L. infantum infection.

Published

2014

25. Application of wheat germ cell-free protein expression system for novel malaria vaccine candidate discovery.

Author

Arumugam TU, Ito D, Takashima E, Tachibana M, Ishino T, Torii M, and Tsuboi T

Subjects

Cell Extracts, Cell-Free System, Humans, Triticum, Antigens, Protozoan biosynthesis, Antigens, Protozoan immunology, Drug Discovery methods, Malaria Vaccines immunology, Malaria Vaccines isolation & purification, Protein Biosynthesis

Abstract

Malaria causes about 216 million clinical cases and 0.7 million deaths annually. One promising route to address malaria is vaccination. However, so far, not even a single licensed malaria vaccine has been developed. Even the effectiveness of RTS,S, the world's most advanced malaria vaccine candidate (MVC) in clinical trials, is less than 50% efficacy against the disease. This backdrop indicates that the search for a truly effective vaccine is far from over and galvanizes us to expand the arsenal of promising MVC antigens to include in a next generation subunit vaccine. In our previous proof of principle studies, we have found that the wheat germ cell-free protein synthesis system (WGCFS) is one of the optimal tools for synthesis of quality malaria proteins and hence the identification of novel MVCs. This review summarizes the initial progresses so far made regarding the identification of novel MVCs using WGCFS.

Published

2014

26. A novel adjuvant-free H fusion system for the production of recombinant immunogens in Escherichia coli: Its application to a 12 kDa antigen from Cryptosporidium parvum.

Author

Costa SJ, Silva P, Almeida A, Conceição A, Domingues L, and Castro A

Subjects

Amino Acid Sequence, Animals, Antibodies, Protozoan blood, Base Sequence, Cryptosporidium parvum genetics, DNA, Protozoan genetics, DNA, Protozoan isolation & purification, Escherichia coli genetics, Escherichia coli metabolism, Mice, Molecular Sequence Data, Oocysts immunology, Antigens, Protozoan biosynthesis, Gene Fusion, Recombinant Proteins biosynthesis

Abstract

The production of recombinant antigens in Escherichia coli and specific polyclonal antibodies for diagnosis and therapy is still a challenge for world-wide researchers. Several different strategies have been explored to improve both antigen and antibody production, all of them depending on a successful expression and immunogenicity of the antigen. Gene fusion technology attempted to address these challenges: fusion partners have been applied to optimize recombinant antigen production in E. coli, and to increase protein immunogenicity. Taking a 12-kDa surface adhesion antigen from Cryptosporidium parvum (CP12) by example, the novel H fusion partner was presented in this work as an attractive option for the development of recombinant immunogens and its adjuvant-free immunization. The H tag (of only 1 kDa) efficiently triggered a CP12-specific immune response, and it also improved the immunization procedure without requiring co-administration of adjuvants. Moreover, polyclonal antibodies raised against the HCP12 fusion antigen detected native antigen structures displayed on the surface of C. parvum oocysts. The H tag proved to be an advanced strategy and promising technology for the diagnosis and therapy of C. parvum infections in animals and humans, allowing a rapid and simple recombinant production of the CP12 antigen.

Published

2013

27. Identification and expression of maebl, an erythrocyte-binding gene, in Plasmodium gallinaceum.

Author

Martinez C, Marzec T, Smith CD, Tell LA, and Sehgal RN

Subjects

Amino Acid Sequence, Animals, Antigens, Protozoan genetics, Chickens, Cluster Analysis, Computational Biology, Conserved Sequence, Molecular Sequence Data, Phylogeny, Plasmodium gallinaceum genetics, Plasmodium gallinaceum isolation & purification, Polymerase Chain Reaction, Poultry Diseases parasitology, Protozoan Proteins genetics, Receptors, Cell Surface genetics, Sequence Alignment, Sequence Analysis, DNA, Virulence Factors genetics, Antigens, Protozoan biosynthesis, Gene Expression Profiling, Plasmodium gallinaceum pathogenicity, Protozoan Proteins biosynthesis, Receptors, Cell Surface biosynthesis, Virulence Factors biosynthesis

Abstract

Avian malaria is of significant ecological importance and serves as a model system to study broad patterns of host switching and host specificity. The erythrocyte invasion mechanism of the malaria parasite Plasmodium is mediated, in large part, by proteins of the erythrocyte-binding-like (ebl) family of genes. However, little is known about how these genes are conserved across different species of Plasmodium, especially those that infect birds. Using bioinformatical methods in conjunction with polymerase chain reaction (PCR) and genetic sequencing, we identified and annotated one member of the ebl family, merozoite apical erythrocyte-binding ligand (maebl), from the chicken parasite Plasmodium gallinaceum. We then detected the expression of maebl in P. gallinaceum by PCR analysis of cDNA isolated from the blood of infected chickens. We found that maebl is a conserved orthologous gene in avian, mammalian, and rodent Plasmodium species. The duplicate extracellular binding domains of MAEBL, responsible for erythrocyte binding, are the most conserved regions. Our combined data corroborate the conservation of maebl throughout the Plasmodium genus and may help elucidate the mechanisms of erythrocyte invasion in P. gallinaceum and the host specificity of Plasmodium parasites.

Published

2013

28. Heterologous expression of the C-terminal antigenic domain of the malaria vaccine candidate Pfs48/45 in the green algae Chlamydomonas reinhardtii.

Author

Jones CS, Luong T, Hannon M, Tran M, Gregory JA, Shen Z, Briggs SP, and Mayfield SP

Subjects

Antibodies, Protozoan immunology, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Biotechnology methods, Malaria Vaccines genetics, Malaria Vaccines immunology, Membrane Glycoproteins genetics, Membrane Glycoproteins immunology, Protein Binding, Protozoan Proteins genetics, Protozoan Proteins immunology, Technology, Pharmaceutical methods, Vaccines, Synthetic biosynthesis, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Antigens, Protozoan biosynthesis, Chlamydomonas reinhardtii genetics, Gene Expression, Malaria Vaccines biosynthesis, Membrane Glycoproteins biosynthesis, Protozoan Proteins biosynthesis

Abstract

Malaria is a widespread and infectious disease that is a leading cause of death in many parts of the world. Eradication of malaria has been a major world health goal for decades, but one that still remains elusive. Other diseases have been eradicated using vaccination, but traditional vaccination methods have thus far been unsuccessful for malaria. Infection by Plasmodium species, the causative agent of malaria, is currently treated with drug-based therapies, but an increase in drug resistance has led to the need for new methods of treatment. A promising strategy for malaria treatment is to combine transmission blocking vaccines (TBVs) that prevent spread of disease with drug-based therapies to treat infected individuals. TBVs can be developed against surface protein antigens that are expressed during parasite reproduction in the mosquito. When the mosquito ingests blood from a vaccinated individual harboring the Plasmodium parasite, the antibodies generated by vaccination prevent completion of the parasites life-cycle. Animal studies have shown that immunization with Pfs48/45 results in the production of malaria transmission blocking antibodies; however, the development of this vaccine candidate has been hindered by poor expression in both prokaryotic and eukaryotic hosts. Recently, the chloroplast of Chlamydomonas reinhardtii has been used to express complex recombinant proteins. In this study, we show that the C-terminal antigenic region of the Pfs48/45 antigen can be expressed in the chloroplast of the green algae C. reinhardtii and that this recombinant protein has a conformation recognized by known transmission blocking antibodies. Production of this protein in algae has the potential to scale to the very large volumes required to meet the needs of millions at risk for contracting malaria.

Published

2013

29. First-trimester Plasmodium falciparum infections display a typical "placental" phenotype.

Author

Doritchamou J, Bertin G, Moussiliou A, Bigey P, Viwami F, Ezinmegnon S, Fievet N, Massougbodji A, Deloron P, and Tuikue Ndam N

Subjects

Adolescent, Adult, Animals, Antigens, Protozoan biosynthesis, Child, Child, Preschool, Female, Flow Cytometry, Gene Expression Profiling, Humans, Malaria pathology, Male, Pregnancy, Pregnancy Complications, Infectious pathology, Transcription, Genetic, Young Adult, Malaria parasitology, Placenta parasitology, Plasmodium falciparum pathogenicity, Pregnancy Complications, Infectious parasitology, Pregnancy Trimester, First

Abstract

Background: Plasmodium falciparum-infected erythrocytes (IEs) adhere to host cell receptors, allowing parasites to sequester into deep vascular beds of various organs. This defining phenomenon of malaria pathogenesis is key to the severe clinical complications associated with cerebral and placental malaria. The principal ligand associated with the binding to chondroitin sulfate A (CSA) that allows placental sequestration of IEs is a P. falciparum erythrocyte membrane protein 1 (PfEMP1) family member encoded by the var2csa gene., Methods: Here, we investigated the transcription pattern of var genes by real-time polymerase chain reaction, the expression of VAR2CSA, protein by flow cytometry, and the CSA-binding ability of IEs collected at different stages of pregnancy using a static-based Petri dish assay., Results: Through comparison with the profiles of isolates from nonpregnant hosts, we report several lines of evidence showing that parasites infecting women during pregnancy preferentially express VAR2CSA protein, and that selection for the capacity to adhere to CSA via VAR2CSA expression occurs early in pregnancy., Conclusions: Our data suggest that the placental tropism of P. falciparum is already established in the first trimester of pregnancy, with consequent implications for the development of the pathology associated with placental malaria.

Published

2012

30. Real-time RT-PCR on SAG1 and BAG1 gene expression during stage conversion in immunosuppressed mice infected with Toxoplasma gondii Tehran strain.

Author

Selseleh M, Modarressi MH, Mohebali M, Shojaee S, Eshragian MR, Selseleh M, Azizi E, and Keshavarz H

Subjects

Animals, Brain parasitology, Female, Immunocompromised Host, Life Cycle Stages, Lung parasitology, Mice, Real-Time Polymerase Chain Reaction, Toxoplasma physiology, Toxoplasmosis, Animal, Antigens, Protozoan biosynthesis, Gene Expression, Heat-Shock Proteins biosynthesis, Protozoan Proteins biosynthesis, Toxoplasma genetics

Abstract

Toxoplasmic encephalitis is caused by reactivation of bradyzoites to rapidly dividing tachyzoites of the apicomplexan parasite Toxoplasma gondii in immunocompromised hosts. Diagnosis of this life-threatening disease is problematic, because it is difficult to discriminate between these 2 stages. Toxoplasma PCR assays using gDNA as a template have been unable to discriminate between an increase or decrease in SAG1 and BAG1 expression between the active tachyzoite stage and the latent bradyzoite stage. In the present study, real-time RT-PCR assay was used to detect the expression of bradyzoite (BAG1)- and tachyzoite-specific genes (SAG1) during bradyzoite/tachyzoite stage conversion in mice infected with T. gondii Tehran strain after dexamethasone sodium phosphate (DXM) administration. The conversion reaction was observed in the lungs and brain tissues of experimental mice, indicated by SAG1 expression at day 6 after DXM administration, and continued until day 14. Bradyzoites were also detected in both organs throughout the study; however, it decreased at day 14 significantly. It is suggested that during the reactivation period, bradyzoites not only escape from the cysts and reinvade neighboring cells as tachyzoites, but also converted to new bradyzoites. In summary, the real-time RT-PCR assay provided a reliable, fast, and quantitative way of detecting T. gondii reactivation in an animal model. Thus, this method may be useful for diagnosing stage conversion in clinical specimens of immunocompromised patients (HIV or transplant patients) for early identification of tachyzoite-bradyzoite stage conversion.

Published

2012

31. The profile of snoRNA-derived microRNAs that regulate expression of variant surface proteins in Giardia lamblia.

Author

Li W, Saraiya AA, and Wang CC

Subjects

Antigens, Surface biosynthesis, Binding Sites, Computational Biology, Gene Expression Profiling, Genes, Reporter, Genome, Protozoan, Open Reading Frames, Antigens, Protozoan biosynthesis, Gene Expression Regulation, Giardia lamblia genetics, Giardia lamblia immunology, MicroRNAs genetics, Protozoan Proteins biosynthesis, RNA, Small Nucleolar genetics

Abstract

In the current investigation, we analysed all the known small nucleolar RNAs (snoRNAs) in the deeply branching protozoan parasite Giardia lamblia for potential microRNAs (miRNAs) that might be derived from them. Two putative miRNAs have since been identified by Northern blot, primer extension, 3' RACE and co-immunoprecipitation with Giardia Argonaute (GlAgo), and designated miR6 and miR10. Giardia Dicer (GlDcr) is capable of processing the snoRNAs into the corresponding miRNAs in vitro. Potential miR6 and miR10 binding sites in Giardia genome were predicted bio-informatically. A miR6 binding site was found at the 3' untranslated regions (UTR) of 44 variant surface protein (vsp) genes, whereas a miR10 binding site was identified at the 3' end of 159 vsp open-reading frames. Thirty-three of these vsp genes turned out to contain binding sites for both miR6 and miR10. A reporter mRNA tagged with the 3' end of vsp1267, which contains the target sites for both miRNAs, was translationally repressed by both miRNAs in Giardia. Episomal expression of an N-terminal c-myc tagged VSP1267 was found significantly repressed by introducing either miR6 or miR10 into the cells and the repressive effects were additive. When the 2'-O-methyl antisense oligos (ASOs) of either miR6 or miR10 was introduced, however, there was an enhancement of tagged VSP1267 expression suggesting an inhibition of the repressive effects of endogenous miR6 or miR10 by the ASOs. Of the total 220 vsp genes in Giardia, we have now found 178 of them carrying putative binding sites for all the miRNAs that have been currently identified, suggesting that miRNAs are likely the regulators of VSP expression in Giardia., (© 2012 Blackwell Publishing Ltd.)

Published

2012

32. Plant expressed coccidial antigens as potential vaccine candidates in protecting chicken against coccidiosis.

Author

Sathish K, Sriraman R, Subramanian BM, Rao NH, Kasa B, Donikeni J, Narasu ML, and Srinivasan VA

Subjects

Animals, Antibodies, Protozoan blood, Antibody Formation, Antigens, Protozoan biosynthesis, Chickens parasitology, Coccidiosis immunology, Coccidiosis prevention & control, Eimeria immunology, Immunity, Cellular, Interferon-gamma immunology, Male, Oocysts, Plants, Genetically Modified metabolism, Poultry Diseases immunology, Poultry Diseases parasitology, Weight Gain, Antigens, Protozoan immunology, Chickens immunology, Coccidiosis veterinary, Poultry Diseases prevention & control, Protozoan Vaccines immunology, Nicotiana metabolism

Abstract

Coccidiosis is a disease caused by intracellular parasites belonging to the genus Eimeria. In the present study, we transiently expressed two coccidial antigens EtMIC1 and EtMIC2 as poly histidine-tagged fusion proteins in tobacco. We have evaluated the protective efficacy of plant expressed EtMIC1 as monovalent and as well as bi-valent formulation where EtMIC1 and EtMIC2 were used in combination. The protective efficacy of these formulations was evaluated using homologous challenge in chickens. We observed better serum antibody response, weight gain and reduced oocyst shedding in birds immunized with EtMIC1 and EtMIC2 as bivalent formulation compared to monovalent formulation. However, IFN-γ response was not significant in birds immunized with EtMIC1 compared to the birds immunized with EtMIC2. Our results indicate the potential use of these antigens as vaccine candidates., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

33. Ex vivo drug sensitivity profiles of Plasmodium falciparum field isolates from Cambodia and Thailand, 2005 to 2010, determined by a histidine-rich protein-2 assay.

Author

Tyner SD, Lon C, Se Y, Bethell D, Socheat D, Noedl H, Sea D, Satimai W, Schaecher K, Rutvisuttinunt W, Fukuda MM, Chaorattanakawee S, Yingyuen K, Sundrakes S, Chaichana P, Saingam P, Buathong N, Sriwichai S, Chann S, Timmermans A, Saunders DL, and Walsh DS

Subjects

Adolescent, Adult, Aged, Cambodia, Child, Child, Preschool, Enzyme-Linked Immunosorbent Assay methods, Female, Humans, Inhibitory Concentration 50, Male, Middle Aged, Parasitic Sensitivity Tests methods, Plasmodium falciparum isolation & purification, Thailand, Young Adult, Antigens, Protozoan biosynthesis, Antimalarials pharmacology, Drug Resistance, Malaria, Falciparum parasitology, Plasmodium falciparum drug effects, Protozoan Proteins biosynthesis

Abstract

Background: In vitro drug susceptibility assay of Plasmodium falciparum field isolates processed "immediate ex vivo" (IEV), without culture adaption, and tested using histidine-rich protein-2 (HRP-2) detection as an assay, is an expedient way to track drug resistance., Methods: From 2005 to 2010, a HRP-2 in vitro assay assessed 451 P. falciparum field isolates obtained from subjects with malaria in western and northern Cambodia, and eastern Thailand, processed IEV, for 50% inhibitory concentrations (IC50) against seven anti-malarial drugs, including artesunate (AS), dihydroartemisinin (DHA), and piperaquine., Results: In western Cambodia, from 2006 to 2010, geometric mean (GM) IC50 values for chloroquine, mefloquine, quinine, AS, DHA, and lumefantrine increased. In northern Cambodia, from 2009-2010, GM IC50 values for most drugs approximated the highest western Cambodia GM IC50 values in 2009 or 2010., Conclusions: Western Cambodia is associated with sustained reductions in anti-malarial drug susceptibility, including the artemisinins, with possible emergence, or spread, to northern Cambodia. This potential public health crisis supports continued in vitro drug IC50 monitoring of P. falciparum isolates at key locations in the region.

Published

2012

34. Evidence for in vitro and in vivo expression of the conserved VAR3 (type 3) plasmodium falciparum erythrocyte membrane protein 1.

Author

Wang CW, Lavstsen T, Bengtsson DC, Magistrado PA, Berger SS, Marquard AM, Alifrangis M, Lusingu JP, Theander TG, and Turner L

Subjects

Adolescent, Animals, Antibodies, Protozoan blood, Child, Child, Preschool, Erythrocytes parasitology, Humans, Infant, Male, Real-Time Polymerase Chain Reaction, Tanzania, Young Adult, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Gene Expression Profiling, Plasmodium falciparum genetics, Protozoan Proteins biosynthesis, Protozoan Proteins genetics

Abstract

Background: Members of the Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1) adhesion antigen family are major contributors to the pathogenesis of P. falciparum malaria infections. The PfEMP1-encoding var genes are among the most diverse sequences in nature, but three genes, var1, var2csa and var3 are found conserved in most parasite genomes. The most severe forms of malaria disease are caused by parasites expressing a subset of antigenically conserved PfEMP1 variants. Thus the ubiquitous and conserved VAR3 PfEMP1 is of particular interest to the research field. Evidence of VAR3 expression on the infected erythrocyte surface has never been presented, and var3 genes have been proposed to be transcribed and expressed differently from the rest of the var gene family members., Methods: In this study, parasites expressing VAR3 PfEMP1 were generated using anti-VAR3 antibodies and the var transcript and PfEMP1 expression profiles of the generated parasites were investigated. The IgG reactivity by plasma from children living in malaria-endemic Tanzania was tested to parasites and recombinant VAR3 protein. Parasites from hospitalized children were isolated and the transcript level of var3 was investigated., Results: Var3 is transcribed and its protein product expressed on the surface of infected erythrocytes. The VAR3-expressing parasites were better recognized by children´s IgG than a parasite line expressing a Group B var gene. Two in 130 children showed increased recognition of parasites expressing VAR3 and to the recombinant VAR3 protein after a malaria episode and the isolated parasites showed high levels of var3 transcripts., Conclusions: Collectively, the presented data suggest that var3 is transcribed and its protein product expressed on the surface of infected erythrocytes in the same manner as seen for other var genes both in vitro and in vivo. Only very few children exhibit seroconversion to VAR3 following a malaria episode requiring hospitalization, supporting the previous conclusion drawn from var3 transcript analysis of parasites collected from children hospitalized with malaria, that VAR3 is not associated with severe anaemia or cerebral malaria syndromes in children.

Published

2012

35. Toxoplasma gondii antigens: recovery analysis of tachyzoites cultivated in Vero cell maintained in serum free medium.

Author

da Costa-Silva TA, da Silva Meira C, Frazzatti-Gallina N, and Pereira-Chioccola VL

Subjects

Animals, Antigens, Protozoan analysis, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Base Sequence, Chlorocebus aethiops, Culture Media, Serum-Free, DNA, Protozoan chemistry, DNA, Protozoan isolation & purification, Enzyme-Linked Immunosorbent Assay, Female, Humans, Immune Sera immunology, Mice, Molecular Sequence Data, Polymerase Chain Reaction, Protozoan Proteins genetics, Sequence Alignment, Serial Passage, Specific Pathogen-Free Organisms, Toxoplasma genetics, Toxoplasma growth & development, Vero Cells, Antigens, Protozoan biosynthesis, Toxoplasma immunology

Abstract

Vero cells have been used successfully in Toxoplasma gondii maintenance. Medium supplementation for culture cells with fetal bovine serum is necessary for cellular growth. However, serum in these cultures presents disadvantages, such as the potential to induce hypersensitivity, variability of serum batches, possible presence of contaminants, and the high cost of good quality serum. Culture media formulated without any animal derived components, designed for serum-free growth of cell lines have been used successfully for different virus replication. The advantages of protozoan parasite growth in cell line cultures using serum-free medium remain poorly studied. Thus, this study was designed to determine whether T. gondii tachyzoites grown in Vero cell cultures in serum-free medium, after many passages, are able to maintain the same antigenic proprieties as those maintained in experimental mice. The standardization of Vero cell culture in serum-free medium for in vitro T. gondii tachyzoite production was performed establishing the optimal initial cell concentration for the confluent monolayer formation, which was 1×10(6) Vero cell culture as initial inoculum. The total confluent monolayer formatted after 96 h and the best amount of harvested tachyzoites was 2.1×10(7) using parasite inoculum of 1.5×10(6) after 7 days post-infection. The infectivity of tachyzoites released from Vero cells maintained in serum-free medium was evaluated using groups of Swiss mice infected with cell-culture tachyzoites. The parasite concentrations were similar to those for mice infected with tachyzoites collected from other infected mice. The data from both in vivo and in vitro experiments showed that in at least 30 culture cell passages, the parasites maintained the same infectivity as maintained in vivo. Another question was to know whether in the several continued passages, immunogenic progressive loss could occur. The nucleotide sequences studied were the same between the different passages, which could mean no change in their viability in the lysate antigen. Thus, the antigen production by cell culture has clear ethical and cost-saving advantages. Moreover, the use of culture media formulated without any human or animal derived components, designed for serum-free growth of cell lines, successfully produced tachyzoites especially for antigen production., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

36. Algae-produced Pfs25 elicits antibodies that inhibit malaria transmission.

Author

Gregory JA, Li F, Tomosada LM, Cox CJ, Topol AB, Vinetz JM, and Mayfield S

Subjects

Amino Acid Sequence, Animals, Antigens, Protozoan biosynthesis, Malaria, Falciparum prevention & control, Plasmodium falciparum metabolism, Protozoan Proteins biosynthesis, Chlamydomonas reinhardtii metabolism, Chloroplasts metabolism, Malaria Vaccines biosynthesis, Protozoan Proteins immunology

Abstract

Subunit vaccines are significantly more expensive to produce than traditional vaccines because they are based primarily on recombinant proteins that must be purified from the expression system. Despite the increased cost, subunit vaccines are being developed because they are safe, effective, and can elicit antibodies that confer protection against diseases that are not currently vaccine-preventable. Algae are an attractive platform for producing subunit vaccines because they are relatively inexpensive to grow, genetically tractable, easily scaled to large volumes, have a short generation time, and are devoid of inflammatory, viral, or prion contaminants often present in other systems. We tested whether algal chloroplasts can produce malaria transmission blocking vaccine candidates, Plasmodium falciparum surface protein 25 (Pfs25) and 28 (Pfs28). Antibodies that recognize Pfs25 and Pfs28 disrupt the sexual development of parasites within the mosquito midgut, thus preventing transmission of malaria from one human host to the next. These proteins have been difficult to produce in traditional recombinant systems because they contain tandem repeats of structurally complex epidermal growth factor-like domains, which cannot be produced in bacterial systems, and because they are not glycosylated, so they must be modified for production in eukaryotic systems. Production in algal chloroplasts avoids these issues because chloroplasts can fold complex eukaryotic proteins and do not glycosylate proteins. Here we demonstrate that algae are the first recombinant system to successfully produce an unmodified and aglycosylated version of Pfs25 or Pfs28. These antigens are structurally similar to the native proteins and antibodies raised to these recombinant proteins recognize Pfs25 and Pfs28 from P. falciparum. Furthermore, antibodies to algae-produced Pfs25 bind the surface of in-vitro cultured P. falciparum sexual stage parasites and exhibit transmission blocking activity. Thus, algae are promising organisms for producing cysteine-disulfide-containing malaria transmission blocking vaccine candidate proteins.

Published

2012

37. Approaches towards DNA vaccination against a skin ciliate parasite in fish.

Author

von Gersdorff Jørgensen L, Sigh J, Kania PW, Holten-Andersen L, Buchmann K, Clark T, Rasmussen JS, Einer-Jensen K, and Lorenzen N

Subjects

Animals, Antibodies, Protozoan blood, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Aquaculture, Cells, Cultured, Ciliophora Infections immunology, Ciliophora Infections prevention & control, Fish Diseases immunology, Gene Expression, HEK293 Cells, Humans, Hymenostomatida genetics, Hymenostomatida immunology, Muscle, Skeletal immunology, Muscle, Skeletal metabolism, Oncorhynchus mykiss parasitology, Parasite Load, Skin Diseases, Parasitic immunology, Skin Diseases, Parasitic prevention & control, Spleen immunology, Spleen metabolism, Transfection, Vaccination, Vaccines, DNA administration & dosage, Ciliophora Infections veterinary, Fish Diseases prevention & control, Oncorhynchus mykiss immunology, Skin Diseases, Parasitic veterinary

Abstract

Rainbow trout (Oncorhynchus mykiss) were immunized with plasmid DNA vaccine constructs encoding selected antigens from the parasite Ichthyophthirius multifiliis. Two immobilization antigens (I-ags) and one cysteine protease were tested as genetic vaccine antigen candidates. Antigenicity was evaluated by immunostaining of transfected fish cells using I-ag specific mono- and polyclonal antibodies. I. multifiliis specific antibody production, regulation of immune-relevant genes and/or protection in terms of parasite burden or mortality was measured to evaluate the induced immune response in vaccinated fish. Apart from intramuscular injection, needle free injection and gene gun delivery were tested as alternative administration techniques. For the I-ags the complement protein fragment C3d and the termini of the viral haemorrhagic septicaemia virus glyco(G)protein (VHSV G) were tested as opsonisation and cellular localisation mediators, respectively, while the full length viral G protein was tested as molecular adjuvant. Expression of I-ags in transfected fish cells was demonstrated for several constructs and by immunohistochemistry it was possible to detect expression of a secreted form of the Iag52B in the muscle cells of injected fish. Up-regulations of mRNA coding for IgM, MHC I, MHC II and TCR β, respectively, were observed in muscle tissue at the injection site in selected trials. In the spleen up-regulations were found for IFN-γ and IL-10. The highest up-regulations were seen following co-administration of I-ag and cysteine protease plasmid constructs. This correlated with a slight elevation of an I. multifiliis specific antibody response. However, in spite of detectable antigen expression and immune reactions, none of the tested vaccination strategies provided significant protection. This might suggest an insufficiency of DNA vaccination alone to trigger protective mechanisms against I. multifiliis or that other or additional parasite antigens are required for such a vaccine to be successful.

Published

2012

38. The MASP family of Trypanosoma cruzi: changes in gene expression and antigenic profile during the acute phase of experimental infection.

Author

dos Santos SL, Freitas LM, Lobo FP, Rodrigues-Luiz GF, Mendes TA, Oliveira AC, Andrade LO, Chiari E, Gazzinelli RT, Teixeira SM, Fujiwara RT, and Bartholomeu DC

Subjects

Animals, Antibodies, Protozoan blood, Antigens, Protozoan biosynthesis, Antigens, Protozoan immunology, Cell Line, Disease Models, Animal, Epithelial Cells parasitology, Gene Expression Profiling, Humans, Immunoglobulin G blood, Immunoglobulin M blood, Membrane Proteins biosynthesis, Membrane Proteins immunology, Mice, Myoblasts parasitology, Protozoan Proteins immunology, Chagas Disease parasitology, Gene Expression Regulation, Host-Parasite Interactions, Protozoan Proteins biosynthesis, Trypanosoma cruzi genetics

Abstract

Background: Trypanosoma cruzi is the etiological agent of Chagas disease, a debilitating illness that affects millions of people in the Americas. A major finding of the T. cruzi genome project was the discovery of a novel multigene family composed of approximately 1,300 genes that encode mucin-associated surface proteins (MASPs). The high level of polymorphism of the MASP family associated with its localization at the surface of infective forms of the parasite suggests that MASP participates in host-parasite interactions. We speculate that the large repertoire of MASP sequences may contribute to the ability of T. cruzi to infect several host cell types and/or participate in host immune evasion mechanisms., Methods: By sequencing seven cDNA libraries, we analyzed the MASP expression profile in trypomastigotes derived from distinct host cells and after sequential passages in acutely infected mice. Additionally, to investigate the MASP antigenic profile, we performed B-cell epitope prediction on MASP proteins and designed a MASP-specific peptide array with 110 putative epitopes, which was screened with sera from acutely infected mice., Findings and Conclusions: We observed differential expression of a few MASP genes between trypomastigotes derived from epithelial and myoblast cell lines. The more pronounced MASP expression changes were observed between bloodstream and tissue-culture trypomastigotes and between bloodstream forms from sequential passages in acutely infected mice. Moreover, we demonstrated that different MASP members were expressed during the acute T. cruzi infection and constitute parasite antigens that are recognized by IgG and IgM antibodies. We also found that distinct MASP peptides could trigger different antibody responses and that the antibody level against a given peptide may vary after sequential passages in mice. We speculate that changes in the large repertoire of MASP antigenic peptides during an infection may contribute to the evasion of host immune responses during the acute phase of Chagas disease.

Published

2012

39. Development of quantitative receptor-ligand binding assay for use as a tool to estimate immune responses against Plasmodium vivax Duffy binding protein Region II.

Author

Shakri AR, Rizvi MM, and Chitnis CE

Subjects

Animals, Antibodies, Blocking analysis, Antibodies, Blocking immunology, Antigens, Protozoan biosynthesis, Antigens, Protozoan isolation & purification, Binding Sites, Cells, Cultured, HEK293 Cells, Humans, Immune Sera immunology, Ligands, Mice, Mice, Inbred BALB C, Protozoan Proteins biosynthesis, Protozoan Proteins isolation & purification, Rabbits, Receptors, Cell Surface biosynthesis, Receptors, Cell Surface isolation & purification, Recombinant Proteins biosynthesis, Recombinant Proteins immunology, Recombinant Proteins isolation & purification, Antibodies, Protozoan analysis, Antibodies, Protozoan immunology, Antigen-Antibody Reactions immunology, Antigens, Protozoan immunology, Protozoan Proteins immunology, Receptors, Cell Surface immunology

Abstract

Antibodies generated against Region II of Plasmodium vivax Duffy binding protein (PvRII) can block binding of this parasite ligand to its receptor, the Duffy antigen receptor for chemokines (DARC), and prevent erythrocyte infection by the parasite. An in vitro functional assay that can serve as an immune correlate of an antigen activity is an important tool to guide vaccine development. We describe here the development of a quantitative binding assay and its use to study immune responses against PvRII. The assay was used to test anti-PvRII mouse sera, and was found a useful tool for quantitative estimation of anti-PvRII blocking antibodies.

Published

2012

40. Optimization of the expression of surface antigen SAG1/2 of Toxoplasma gondii in the yeast Pichia pastoris.

Author

Thiruvengadam G, Init I, Fong MY, and Lau YL

Subjects

Ammonium Sulfate chemistry, Antigens, Protozoan genetics, Antigens, Protozoan isolation & purification, Carbon metabolism, Chromatography, Affinity, Cloning, Molecular, Culture Media chemistry, Dialysis, Fractional Precipitation, Hydrogen-Ion Concentration, Methanol metabolism, Protozoan Proteins genetics, Protozoan Proteins isolation & purification, Recombinant Fusion Proteins biosynthesis, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins isolation & purification, Sensitivity and Specificity, Serologic Tests methods, Temperature, Toxoplasmosis diagnosis, Antigens, Protozoan biosynthesis, Gene Expression, Pichia genetics, Protozoan Proteins biosynthesis

Abstract

Surface antigens are the most abundant proteins found on the surface of the parasite Toxoplasma gondii. Surface antigen 1 (SAG1) and Surface antigen 2 (SAG2) remain the most important and extensively studied surface proteins. These antigens have been identified to play a role in host cell invasion, immune modulation, virulence attenuation. Recombinant SAG1/2 was cloned and expressed in yeast Pichia pastoris. We describe here optimization of critical parameters involved in high yield expression of the recombinant SAG1/2. Our results suggest that recombinant SAG1/2 were best expressed at 30ºC, pH 6 and 1% methanol as the carbon source by X33 Pichia cells. Additional optimizations included the downstream process such as ammonium sulphate precipitation and dialysis. The fusion protein was purified using Ni-NTA purification system with 80% recovery. The purified protein was 100% specific and sensitive in detection of toxoplasmosis.

Published

2011

41. Var Gene promoter activation in clonal Plasmodium falciparum isolates follows a hierarchy and suggests a conserved switching program that is independent of genetic background.

Author

Enderes C, Kombila D, Dal-Bianco M, Dzikowski R, Kremsner P, and Frank M

Subjects

Base Sequence, Molecular Sequence Data, Organisms, Genetically Modified, Promoter Regions, Genetic, RNA, Protozoan, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, RNA, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Plasmodium falciparum genetics, Plasmodium falciparum immunology, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Transcription, Genetic

Abstract

Antigenic variation of Plasmodium falciparum is mediated by a mutually exclusive expression mechanism that limits expression to an individual member of the multicopy var gene family. This process determines the antigenic and adhesive phenotype of the infected red blood cell. Previously, we showed that var gene switching is influenced by chromosomal position. Here, we address whether var gene transcription follows a general conserved pattern in long-term laboratory parasites and in recently culture-adapted field parasites. Activation of the var gene family was monitored in biological replicates in each parasite isolate every 3-5 generations for up to 3 months. We used transgenic parasites carrying a drug-selectable marker at a defined var locus to characterize var gene activation after the exclusive expression of the transgene. Transgenic parasites exhibited a repeatable hierarchy of var gene activation and a fluctuating transcriptional activity of the transgenic var locus. Transcriptional profiling of wild-type laboratory and field parasites showed a universal bias toward transcription of UpsC var genes and a fluctuating transcriptional activity of the dominant var promoter. The data suggest the existence of an intrinsic var gene transcription program that is independent of genetic background.

Published

2011

42. Transgenic Neospora caninum strains constitutively expressing the bradyzoite NcSAG4 protein proved to be safe and conferred significant levels of protection against vertical transmission when used as live vaccines in mice.

Author

Marugán-Hernández V, Ortega-Mora LM, Aguado-Martínez A, Jiménez-Ruíz E, and Alvarez-García G

Subjects

Animals, Antigens, Protozoan biosynthesis, Coccidiosis transmission, Female, Mice, Neospora genetics, Organisms, Genetically Modified genetics, Organisms, Genetically Modified immunology, Pregnancy, Pregnancy Complications, Parasitic immunology, Protozoan Proteins biosynthesis, Protozoan Vaccines administration & dosage, Survival Analysis, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated immunology, Antigens, Protozoan immunology, Coccidiosis prevention & control, Gene Expression, Infectious Disease Transmission, Vertical prevention & control, Neospora immunology, Protozoan Proteins immunology, Protozoan Vaccines immunology

Abstract

At present, there is no effective treatment or vaccine to prevent vertical transmission or abortion associated with Neospora caninum infection in cattle. Different vaccine formulations have been assayed, and live vaccines have shown the most promising results in terms of protection. Previously, transgenic N. caninum tachyzoites expressing the bradyzoite stage-specific NcSAG4 antigen in a constitutive manner (Nc-1 SAG4(c)) were obtained and showed a reduced persistence of parasite in inoculated mice. Thus, the present study evaluates the Nc-1 SAG4(c)1.1 and Nc-1 SAG4(c)2.1 transgenic strains and the Nc-1 wild-type (WT) strain to determine their protective efficacy against vertical transmission and cerebral neosporosis in mice. Consequently, dams were immunized twice with 5 × 10(5) tachyzoites of each strain and challenged with 2 × 10(6) tachyzoites of a heterologous and virulent isolate at 7-10 days of gestation. The Nc-1 SAG4(c)1.1 strain offered less protection than the other transgenic strain (Nc-1 SAG4(c)2.1) or their ancestor (Nc-1 WT). Indeed, 40%, 7% and 5.6% of the postnatal deaths corresponded to pups from dams vaccinated with Nc-1 SAG4(c)1.1, Nc-1 SAG4(c)2.1 and Nc-1 (WT) strains, respectively. In comparison, the non-immunized challenge group had a 100% mortality rate. In addition, mice were protected against congenital transmission; vertical transmission rates were 45%, 11.1% and 10.8% in the Nc-1 SAG4(c)1.1, Nc-1 SAG4(c)2.1 and Nc-1 WT immunized groups, respectively, vs. 94.9% in the non-vaccinated infected group. However, this protection against the postnatal mortality and the vertical transmission was not associated with a consistent Th1 or Th2-type immune response. Nonetheless, the Nc-1 SAG4(c)2.1 strain appears to be the best candidate for use as a live vaccine, as evidenced by results demonstrating its high levels of protection against vertical transmission and its lower persistence in mice, making this transgenic strain safer than Nc-1 WT., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

43. Generation and evaluation of A2-expressing Lactococcus lactis live vaccines against Leishmania donovani in BALB/c mice.

Author

Yam KK, Hugentobler F, Pouliot P, Stern AM, Lalande JD, Matlashewski G, Olivier M, and Cousineau B

Subjects

Animal Structures parasitology, Animals, Antibodies, Protozoan blood, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Disease Models, Animal, Female, Injections, Subcutaneous, Leishmania donovani immunology, Leishmania donovani pathogenicity, Leishmaniasis Vaccines administration & dosage, Leishmaniasis Vaccines genetics, Leishmaniasis, Visceral immunology, Mice, Mice, Inbred BALB C, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Antigens, Protozoan immunology, Genetic Vectors, Lactococcus lactis genetics, Leishmaniasis Vaccines immunology, Leishmaniasis, Visceral prevention & control, Protozoan Proteins immunology

Abstract

Leishmaniasis is a parasitic disease affecting over 12 million individuals worldwide. As current treatments are insufficient, the development of an effective vaccine is a priority. This study generated and assessed the efficacy of Leishmania vaccines engineered from the non-colonizing, non-pathogenic Gram-positive bacterium Lactococcus lactis. A truncated, codon-optimized version of the A2 antigen from Leishmania donovani was engineered for expression in Lactococcus lactis in three different subcellular compartments: in the cytoplasm, secreted outside the cell or anchored to the cell wall. These three A2-expressing Lactococcus lactis strains were tested for their ability to generate A2-specific immune responses and as live vaccines against visceral Leishmania donovani infection in BALB/c mice. Subcutaneous immunization with live Lactococcus lactis expressing A2 anchored to the cell wall effectively induced high levels of antigen-specific serum antibodies. It was demonstrated that Lactococcus lactis-based vaccines are a feasible approach in the generation of live vaccines against leishmaniasis. The Lactococcus lactis strains generated in this study provide an excellent foundation for further studies on live bacterial vaccines against leishmaniasis and other pathogens.

Published

2011

44. A plant-produced Pfs230 vaccine candidate blocks transmission of Plasmodium falciparum.

Author

Farrance CE, Rhee A, Jones RM, Musiychuk K, Shamloul M, Sharma S, Mett V, Chichester JA, Streatfield SJ, Roeffen W, van de Vegte-Bolmer M, Sauerwein RW, Tsuboi T, Muratova OV, Wu Y, and Yusibov V

Subjects

Animals, Anopheles parasitology, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Humans, Malaria Vaccines genetics, Plants, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Rabbits, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins immunology, Antigens, Protozoan immunology, Complement System Proteins immunology, Malaria Vaccines immunology, Malaria, Falciparum prevention & control, Malaria, Falciparum transmission, Plants, Genetically Modified genetics, Protozoan Proteins immunology

Abstract

Plasmodium falciparum is transmitted to a new host after completing its sexual cycle within a mosquito. Developing vaccines against the parasite sexual stages is a critical component in the fight against malaria. We are targeting multiple proteins of P. falciparum which are found only on the surfaces of the sexual forms of the parasite and where antibodies against these proteins have been shown to block the progression of the parasite's life cycle in the mosquito and thus block transmission to the next human host. We have successfully produced a region of the Pfs230 antigen in our plant-based transient-expression system and evaluated this vaccine candidate in an animal model. This plant-produced protein, 230CMB, is expressed at approximately 800 mg/kg in fresh whole leaf tissue and is 100% soluble. Administration of 230CMB with >90% purity induces strong immune responses in rabbits with high titers of transmission-blocking antibodies, resulting in a greater than 99% reduction in oocyst counts in the presence of complement, as determined by a standard membrane feeding assay. Our data provide a clear perspective on the clinical development of a Pfs230-based transmission-blocking malaria vaccine.

Published

2011

45. N-terminal prodomain of Pfs230 synthesized using a cell-free system is sufficient to induce complement-dependent malaria transmission-blocking activity.

Author

Tachibana M, Wu Y, Iriko H, Muratova O, MacDonald NJ, Sattabongkot J, Takeo S, Otsuki H, Torii M, and Tsuboi T

Subjects

Animals, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Cell-Free System, Malaria Vaccines genetics, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Rabbits, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins immunology, Anopheles parasitology, Antigens, Protozoan immunology, Complement System Proteins immunology, Malaria Vaccines immunology, Malaria, Falciparum prevention & control, Malaria, Falciparum transmission, Protozoan Proteins immunology

Abstract

The aim of a malaria transmission-blocking vaccine is to block the development of malaria parasites in the mosquito and thus prevent subsequent infection of the human host. Previous studies have demonstrated that the gametocyte/gamete surface protein Pfs230 can induce transmission-blocking immunity and have evaluated Escherichia coli-produced Pfs230 as a transmission-blocking vaccine candidate. In this study, we used the wheat germ cell-free expression system to produce N-terminal fragments of Pfs230 and evaluated the transmission-blocking activity of antisera raised against the recombinant Pfs230 protein. The rabbit antisera reacted to the surface of cultured gametocytes and gametes of the Plasmodium falciparum NF54 line, recognized the 360-kDa form of parasite-produced Pfs230 by Western blot assay, and reduced the infectivity of NF54 parasites to Anopheles stefensi mosquitoes in the presence of complement in a standard membrane feeding assay. Thus, our data demonstrate that the N-terminal pro domain of Pfs230 is sufficient to induce complement-dependent transmission-blocking activity against P. falciparum.

Published

2011

46. Plasmodium vivax: comparison of immunogenicity among proteins expressed in the cell-free systems of Escherichia coli and wheat germ by suspension array assays.

Author

Rui E, Fernandez-Becerra C, Takeo S, Sanz S, Lacerda MV, Tsuboi T, and del Portillo HA

Subjects

Adult, Antigens, Protozoan isolation & purification, Cell-Free System, Escherichia coli metabolism, Humans, Protozoan Proteins isolation & purification, Triticum metabolism, Antibodies, Protozoan blood, Antigens, Protozoan biosynthesis, Antigens, Protozoan immunology, Plasmodium vivax immunology, Protozoan Proteins biosynthesis, Protozoan Proteins immunology

Abstract

Background: In vitro cell-free systems for protein expression with extracts from prokaryotic (Escherichia coli) or eukaryotic (wheat germ) cells coupled to solid matrices have offered a valid approach for antigen discovery in malaria research. However, no comparative analysis of both systems is presently available nor the usage of suspension array technologies, which offer nearly solution phase kinetics., Methods: Five Plasmodium vivax antigens representing leading vaccine candidates were expressed in the E. coli and wheat germ cell-free systems at a 50 μl scale. Products were affinity purified in a single-step and coupled to luminex beads to measure antibody reactivity of human immune sera., Results: Both systems readily produced detectable proteins; proteins produced in wheat germ, however, were mostly soluble and intact as opposed to proteins produced in E. coli, which remained mostly insoluble and highly degraded. Noticeably, wheat germ proteins were recognized in significantly higher numbers by sera of P. vivax patients than identical proteins produced in E. coli., Conclusions: The wheat germ cell-free system offers the possibility of expressing soluble P. vivax proteins in a small-scale for antigen discovery and immuno-epidemiological studies using suspension array technology.

Published

2011

47. Transcription of var genes other than var2csa in Plasmodium falciparum parasites infecting Mozambican pregnant women.

Author

Rovira-Vallbona E, Dobaño C, Bardají A, Cisteró P, Romagosa C, Serra-Casas E, Quintó L, Bassat Q, Sigaúque B, Alonso PL, Ordi J, Menéndez C, and Mayor A

Subjects

Adolescent, Adult, Animals, Antigens, Protozoan genetics, Blood parasitology, Child, Preschool, Female, Gene Expression Profiling, Humans, Infant, Infant, Newborn, Middle Aged, Placenta parasitology, Plasmodium falciparum isolation & purification, Pregnancy, Protozoan Proteins genetics, Reverse Transcriptase Polymerase Chain Reaction, Young Adult, Antigens, Protozoan biosynthesis, Malaria, Falciparum parasitology, Plasmodium falciparum genetics, Pregnancy Complications, Infectious parasitology, Protozoan Proteins biosynthesis, Transcription, Genetic

Abstract

Background: Increased susceptibility to Plasmodium falciparum infection during pregnancy has been attributed to the accumulation of infected erythrocytes in the placenta. This phenomenon is mediated by a var gene coding for VAR2CSA, which adheres to chondroitin sulphate A. However, the contribution of parasites transcribing other var genes to maternal infections has not been well characterized., Methods: Transcription of var2csa and var groups A, B, and C was measured by real-time polymerase chain reaction in 30 placental and 21 peripheral P. falciparum isolates from pregnant women and in 42 isolates from nonpregnant adults and children. Associations of infections with non-var2csa isolates with maternal parasitemia and immune responses were assessed., Results: Placental parasites showed the highest levels of var2csa. ABC var genes were transcribed by 20 (67%) of 30 placental isolates and were associated with higher parasitemia compared with infections by parasites only transcribing var2csa (P = .004). Peripheral isolates from pregnant women transcribed ABC var genes at levels similar to those of parasites infecting nonpregnant adults with clinical malaria (P[varA] = .420, P[varB] = .808, and P[varC] = .619)., Conclusions: Transcripts of var2csa are abundant in pregnancy-associated P. falciparum infections; however, ABC var types are also common, especially in peripheral blood, with transcription levels similar to those of infections out of pregnancy. These findings are of interest for the design of malaria vaccines for pregnant women.

Published

2011

48. Murine immune responses to a Plasmodium vivax-derived chimeric recombinant protein expressed in Brassica napus.

Author

Lee C, Kim HH, Choi KM, Chung KW, Choi YK, Jang MJ, Kim TS, Chung NJ, Rhie HG, Lee HS, Sohn Y, Kim H, Lee SJ, and Lee HW

Subjects

Administration, Oral, Animals, Antibodies, Protozoan blood, Antigens, Protozoan biosynthesis, Antigens, Protozoan genetics, Antigens, Protozoan immunology, Brassica napus genetics, Codon, Enzyme-Linked Immunosorbent Assay methods, Gene Expression, Genetic Vectors, Immunoglobulin G blood, Malaria Vaccines administration & dosage, Malaria Vaccines biosynthesis, Malaria Vaccines genetics, Male, Merozoite Surface Protein 1 biosynthesis, Merozoite Surface Protein 1 genetics, Mice, Mice, Inbred BALB C, Molecular Weight, Plant Tumor-Inducing Plasmids, Plasmodium vivax genetics, Protozoan Proteins biosynthesis, Protozoan Proteins genetics, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins immunology, Sensitivity and Specificity, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic biosynthesis, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Brassica napus metabolism, Malaria Vaccines immunology, Merozoite Surface Protein 1 immunology, Plasmodium vivax immunology, Protozoan Proteins immunology

Abstract

Background: To develop a plant-based vaccine against Plasmodium vivax, two P. vivax candidate proteins were chosen. First, the merozoite surface protein-1 (MSP-1), a major asexual blood stage antigen that is currently considered a strong vaccine candidate. Second, the circumsporozoite protein (CSP), a component of sporozoites that contains a B-cell epitope., Methods: A synthetic chimeric recombinant 516 bp gene encoding containing PvMSP-1, a Pro-Gly linker motif, and PvCSP was synthesized; the gene, named MLC, encoded a total of 172 amino acids. The recombinant gene was modified with regard to codon usage to optimize gene expression in Brassica napus. The Ti plasmid inducible gene transfer system was used for MLC chimeric recombinant gene expression in B. napus. Gene expression was confirmed by polymerase chain reaction (PCR), beta-glucuronidase reporter gene (GUS) assay, and Western blot., Results: The MLC chimeric recombinant protein expressed in B. napus had a molecular weight of approximately 25 kDa. It exhibited a clinical sensitivity of 84.21% (n=38) and a clinical specificity of 100% (n=24) as assessed by enzyme-linked immunosorbent assay (ELISA). Oral immunization of BALB/c mice with MLC chimeric recombinant protein successfully induced antigen-specific IgG1 production. Additionally, the Th1-related cytokines IL-12 (p40), TNF, and IFN-γ were significantly increased in the spleens of the BALB/c mice., Conclusions: The chimeric MLC recombinant protein produced in B. napus has potential as both as an antigen for diagnosis and as a valuable vaccine candidate for oral immunization against vivax malaria.

Published

2011

49. Reduced functional avidity promotes central and effector memory CD4 T cell responses to tumor-associated antigens.

Author

Caserta S, Kleczkowska J, Mondino A, and Zamoyska R

Subjects

Adenocarcinoma enzymology, Adenocarcinoma immunology, Amino Acid Sequence, Animals, Antigens, Protozoan biosynthesis, CD4-Positive T-Lymphocytes enzymology, CD4-Positive T-Lymphocytes parasitology, CD8-Positive T-Lymphocytes cytology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes parasitology, Cell Adhesion genetics, Cell Adhesion immunology, Cell Line, Tumor, Cells, Cultured, Leishmania major immunology, Mammary Neoplasms, Experimental enzymology, Mammary Neoplasms, Experimental immunology, Mice, Mice, Inbred BALB C, Mice, Knockout, Mice, Mutant Strains, Mice, Transgenic, Models, Immunological, Molecular Sequence Data, Protozoan Proteins antagonists & inhibitors, Protozoan Proteins biosynthesis, Antigens, Neoplasm immunology, CD4-Positive T-Lymphocytes immunology, Immunologic Memory genetics

Abstract

The effect of TCR signals on the differentiation of memory T cells is poorly defined. Conventional wisdom suggests that high-avidity interactions are best for the selection of vaccine Ag candidates or T cell specificities for adoptive T cell therapy to stimulate robust responses. However, in conditions of Ag persistence, high-avidity clones might exhaust and fail to form long-lived protective memory. We have manipulated the functional avidity of CD4 T cells by reducing expression of Lck, a key kinase involved in TCR triggering. Using a mouse model, we followed tetramer-positive T cells responding to a tumor Ag expressed by an adenocarcinoma. We show that reducing the functional avidity increased effector-effector memory responses and improved the generation of self-renewing, recirculating, tumor Ag-specific memory phenotype CD4 T cells. Moreover, such cells together with wild type CD8 T cells were better able to control tumor growth. Mechanistically, reducing Lck prolonged IL-2 production and cell turnover in the central memory population while reducing expression of exhaustion markers in the face of chronic Ag. Our data indicate that, in situations of persistent Ag challenge, generating T cells with reduced functional avidity may elicit more effective immune responses.

Published

2010

50. The stage-regulated HASPB and SHERP proteins are essential for differentiation of the protozoan parasite Leishmania major in its sand fly vector, Phlebotomus papatasi.

Author

Sádlová J, Price HP, Smith BA, Votýpka J, Volf P, and Smith DF

Subjects

Animals, Gene Expression Profiling, Gene Knockout Techniques, Genes, Essential, Genetic Complementation Test, Organisms, Genetically Modified, Antigens, Protozoan biosynthesis, Leishmania major growth & development, Phlebotomus parasitology, Protozoan Proteins biosynthesis

Abstract

The stage-regulated HASPB and SHERP proteins of Leishmania major are predominantly expressed in cultured metacyclic parasites that are competent for macrophage uptake and survival. The role of these proteins in parasite development in the sand fly vector has not been explored, however. Here, we confirm that expression of HASPB is detected only in vector metacyclic stages, correlating with the expression of metacyclic-specific lipophosphoglycan and providing the first definitive protein marker for this infective sand fly stage. Similarly, SHERP is expressed in vector metacyclics but is also detected at low levels in the preceding short promastigote stage. Using genetically modified parasites lacking or complemented for the LmcDNA16 locus on chromosome 23 that contains the HASP and SHERP genes, we further show that the presence of this locus is essential for parasite differentiation to the metacyclic stage in Phlebotomus papatasi. While wild-type and complemented parasites transform normally in late-stage infections, generating metacyclic promastigotes and colonizing the sand fly stomodeal valve, null parasites accumulate at the earlier elongated nectomonad stage of development within the abdominal and thoracic midgut of the sand fly. Complementation with HASPB or SHERP alone suggests that HASPB is the dominant effector molecule in this process., (© 2010 Blackwell Publishing Ltd.)

Published

2010