Identification of Schistosoma mansoni candidate antigens for diagnosis of schistosomiasis

The development of a more sensitive diagnostic test for schistosomiasis is needed to overcome the limitations of the use of stool examination in low endemic areas. Using parasite antigens in enzyme linked immunosorbent assay is a promising strategy, however a more rational selection of parasite antigens is necessary. In this study we performed in silico analysis of the Schistosoma mansoni genome, using SchistoDB database and bioinformatic tools for screening immunogenic antigens. Based on evidence of expression in all parasite life stage within the definitive host, extracellular or plasmatic membrane localization, low similarity to human and other helminthic proteins and presence of predicted B cell epitopes, six candidates were selected: a glycosylphosphatidylinositol-anchored 200 kDa protein, two putative cytochrome oxidase subunits, two expressed proteins and one hypothetical protein. The recognition in unidimensional and bidimensional Western blot of protein with similar molecular weight and isoelectric point to the selected antigens by sera from S. mansoni infected mice indicate a good correlation between these two approaches in selecting immunogenic proteins.

Mycobacterium leprae virulence-associated peptides are indicators of exposure to M. leprae in Brazil, Ethiopia and Nepal

Silent transmission of Mycobacterium leprae, as evidenced by stable leprosy incidence rates in various countries, remains a health challenge despite the implementation of multidrug therapy worldwide. Therefore, the development of tools for the early diagnosis of M. leprae infection should be emphasised in leprosy research. As part of the continuing effort to identify antigens that have diagnostic potential, unique M. leprae peptides derived from predicted virulence-associated proteins (group IV.A) were identified using advanced genome pattern programs and bioinformatics. Based on human leukocyte antigen (HLA)-binding motifs, we selected 21 peptides that were predicted to be promiscuous HLA-class I T-cell epitopes and eight peptides that were predicted to be HLA-class II restricted T-cell epitopes for field-testing in Brazil, Ethiopia and Nepal. High levels of interferon (IFN)-γ were induced when peripheral blood mononuclear cells (PBMCs) from tuberculoid/borderline tuberculoid leprosy patients located in Brazil and Ethiopia were stimulated with the ML2055 p35 peptide. PBMCs that were isolated from healthy endemic controls living in areas with high leprosy prevalence (EChigh) in Ethiopia also responded to the ML2055 p35 peptide. The Brazilian EChigh group recognised the ML1358 p20 and ML1358 p24 peptides. None of the peptides were recognised by PBMCs from healthy controls living in non-endemic region. In Nepal, mixtures of these peptides induced the production of IFN-γ by the PBMCs of leprosy patients and EChigh. Therefore, the M. leprae virulence-associated peptides identified in this study may be useful for identifying exposure to M. leprae in population with differing HLA polymorphisms.

Genetic polymorphisms in the glutamate-rich protein of Plasmodium falciparum field isolates from a malaria-endemic area of Brazil

The genetic diversity displayed by Plasmodium falciparum, the most deadly Plasmodium species, is a significant obstacle for effective malaria vaccine development. In this study, we identified genetic polymorphisms in P. falciparum glutamate-rich protein (GLURP), which is currently being tested in clinical trials as a malaria vaccine candidate, from isolates found circulating in the Brazilian Amazon at variable transmission levels. The study was performed using samples collected in 1993 and 2008 from rural villages situated near Porto Velho, in the state of Rondônia. DNA was extracted from 126 P. falciparum-positive thick blood smears using the phenol-chloroform method and subjected to a nested polymerase chain reaction protocol with specific primers against two immunodominant regions of GLURP, R0 and R2. Only one R0 fragment and four variants of the R2 fragment were detected. No differences were observed between the two time points with regard to the frequencies of the fragment variants. Mixed infections were uncommon. Our results demonstrate conservation of GLURP-R0 and limited polymorphic variation of GLURP-R2 in P. falciparum isolates from individuals living in Porto Velho. This is an important finding, as genetic polymorphisms in B and T-cell epitopes could have implications for the immunological properties of the antigen.

Mycobacterium tuberculosis epitope-specific interferon-g production in healthy Brazilians reactive and non-reactive to tuberculin skin test

The interferon (IFN)-γ response to peptides can be a useful diagnostic marker of Mycobacterium tuberculosis (MTB) latent infection. We identified promiscuous and potentially protective CD4+ T-cell epitopes from the most conserved regions of MTB antigenic proteins by scanning the MTB antigenic proteins GroEL2, phosphate-binding protein 1 precursor and 19 kDa antigen with the TEPITOPE algorithm. Seven peptide sequences predicted to bind to multiple human leukocyte antigen (HLA)-DR molecules were synthesised and tested with IFN-γ enzyme-linked immunospot (ELISPOT) assays using peripheral blood mononuclear cells (PBMCs) from 16 Mantoux tuberculin skin test (TST)-positive and 16 TST-negative healthy donors. Eighty-eight percent of TST-positive donors responded to at least one of the peptides, compared to 25% of TST-negative donors. Each individual peptide induced IFN-γ production by PBMCs from at least 31% of the TST-positive donors. The magnitude of the response against all peptides was 182 ± 230 x 106 IFN-γ spot forming cells (SFC) among TST-positive donors and 36 ± 62 x 106 SFC among TST-negative donors (p = 0.007). The response to GroEL2 (463-477) was only observed in the TST-positive group. This combination of novel MTB CD4 T-cell epitopes should be tested in a larger cohort of individuals with latent tuberculosis (TB) to evaluate its potential to diagnose latent TB and it may be included in ELISPOT-based IFN-γ assays to identify individuals with this condition.

Plasmodium vivax antigen discovery based on alpha-helical coiled coil protein motif.

Protein α-helical coiled coil structures that elicit antibody responses, which block critical functions of medically important microorganisms, represent a means for vaccine development. By using bioinformatics algorithms, a total of 50 antigens with α-helical coiled coil motifs orthologous to Plasmodium falciparum were identified in the P. vivax genome. The peptides identified in silico were chemically synthesized; circular dichroism studies indicated partial or high α-helical content. Antigenicity was evaluated using human sera samples from malaria-endemic areas of Colombia and Papua New Guinea. Eight of these fragments were selected and used to assess immunogenicity in BALB/c mice. ELISA assays indicated strong reactivity of serum samples from individuals residing in malaria-endemic regions and sera of immunized mice, with the α-helical coiled coil structures. In addition, ex vivo production of IFN-γ by murine mononuclear cells confirmed the immunogenicity of these structures and the presence of T-cell epitopes in the peptide sequences. Moreover, sera of mice immunized with four of the eight antigens recognized native proteins on blood-stage P. vivax parasites, and antigenic cross-reactivity with three of the peptides was observed when reacted with both the P. falciparum orthologous fragments and whole parasites. Results here point to the α-helical coiled coil peptides as possible P. vivax malaria vaccine candidates as were observed for P. falciparum. Fragments selected here warrant further study in humans and non-human primate models to assess their protective efficacy as single components or assembled as hybrid linear epitopes.

HLA Class I alleles associated with HCV polymorphisms and response to antiviral therapy in HCV genotype 1-infected patients

Aims: The adaptive immune response against hepatitis C virus (HCV) is significantly shaped by the host's composition of HLA alleles. Thus, the HLA phenotype is a critical determinant of viral evolution during adaptive immune pressure. Potential associations of HLA class I alleles with polymorphisms of HCV immune escape variants are largely unknown. Methods: Direct sequence analysis of the genes encoding the HCV proteins E2, NS3 and NS5B in a cohort of 159 patients with chronic HCV genotype 1 infection who were treated with pegylated interferon-alfa 2b and ribavirin in a prospective controlled trial for 48 weeks was exhibited. HLA class I genotyping was performed by strand-specific reverse hybridization with the INNO-LiPA line probe assays for HLA-A and HLA-B and by strand-specific PCR-SSP. We analyzed each amino acid position of HCV proteins using an extension of Fisher's exact test for associations with HLA alleles. In addition, associations of specific HLA alleles with inflammatory activity, liver fibrosis, HCV RNA viral load and virologic treatment outcome were investigated. Results: Separate analyses of HCV subtype 1a and 1b isolates revealed substantially different patterns of HLA-restricted polymorphisms between subtypes. Only one polymorphism within NS5B (V2758x) was significantly associated with HLA B*15 in HCV genotype 1b infected patients (adjusted p=0,048). However, a number of HLA class I-restricted polymorphisms within novel putative HCV CD8+ T cell epitopes (genotype 1a: HLA-A*11 GTRTIASPK1086-1094 [NS3], HLA-B*07 WPAPQGARSL1111-1120 [NS3]; genotype 1b: HLA-A*24 HYAPRPCGI488-496 [E2], HLA-B*44 GENETDVLL530-538 [E2], HLA-B*15 RVFTEAMTRY2757-2766 [NS5B]) were observed with high predicted epitope binding scores assessed by the web-based software SYFPEITHI (>21). Most of the identified putative epitopes were overlapping with already otherwise published epitopes, indicating a high immunogenicity of the accordant HCV protein region. In addition, certain HLA class I alleles were associated with inflammatory activity, stage of liver fibrosis, and sustained virologic response to antiviral therapy. Conclusions: HLA class I restricted HCV sequence polymorphisms are rare. HCV polymorphisms identified within putative HCV CD8+ T cell epitopes in the present study differ in their genomic distribution between genotype 1a and 1b isolates, implying divergent adaptation to the host's immune pressure on the HCV subtype level.

High frequency of functionally active Melan-a-specific T cells in a patient with progressive immunoproteasome-deficient melanoma.

Tumor-reactive T cells play an important role in cancer immunosurveillance. Applying the multimer technology, we report here an unexpected high frequency of Melan-A-specific CTLs in a melanoma patient with progressive lymph node metastases, consisting of 18 and 12.8% of total peripheral blood and tumor-infiltrating CD8+ T cells, respectively. Melan-A-specific CTLs revealed a high cytolytic activity against allogeneic Melan-A-expressing target cells but failed to kill the autologous tumor cells. Loading of the tumor cells with Melan-A peptide reversed the resistance to killing, suggesting impaired function of the MHC class I antigen processing and presentation pathway. Mutations of the coding region of the HLA-A2 binding Melan-A26-35 peptide or down-regulation of the MHC class I heavy chain, the antigenic peptide TAP, and tapasin could be excluded. However, PCR and immunohistochemical analysis revealed a deficiency of the immunoproteasomes low molecular weight protein 2 and low molecular weight protein 7 in the primary tumor cells, which affects the quantity and quality of generated T-cell epitopes and might explain the resistance to killing. This is supported by our data, demonstrating that the resistance to killing can be partially reversed by pre-exposure of the tumor cells to IFN-gamma, which is known to induce the immunoproteasomes. Overall, this is the first report of an extremely high frequency of tumor-specific CTLs that exhibit competent T-cell-effector functions but fail to lyse the autologous tumor cells. Immunotherapeutic approaches should not only focus on the induction of a robust antitumor immune response, but should also have to target tumor immune escape mechanisms.

Antibody-mediated and cellular immune responses induced in naive volunteers by vaccination with long synthetic peptides derived from the Plasmodium vivax circumsporozoite protein.

Plasmodium vivax circumsporozoite (CS) protein is a leading malaria vaccine candidate. We describe the characterization of specific immune responses induced in 21 malaria-naive volunteers vaccinated with long synthetic peptides derived from the CS protein formulated in Montanide ISA 720. Both antibody- and cell-mediated immune responses were analyzed. Antibodies were predominantly of IgG1 and IgG3 isotypes, recognized parasite proteins on the immunofluorescent antibody test, and partially blocked sporozoite invasion of hepatoma cell lines in vitro. Peripheral blood mononuclear cells from most volunteers (94%) showed IFN-γ production in vitro upon stimulation with both long signal peptide and short peptides containing CD8+ T-cell epitopes. The relatively limited sample size did not allow conclusions about HLA associations with the immune responses observed. In summary, the inherent safety and tolerability together with strong antibody responses, invasion blocking activity, and the IFN-γ production induced by these vaccine candidates warrants further testing in a phase II clinical trial.

Proteasome-assisted identification of a SSX-2-derived epitope recognized by tumor-reactive CTL infiltrating metastatic melanoma.

The tumor Ag SSX-2 (HOM-MEL-40) was found by serological identification of Ags by recombinant expression cloning and was shown to be a cancer/testis Ag expressed in a wide variety of tumors. It may therefore represent a source of CD8(+) T cell epitopes useful for specific immunotherapy of cancer. To identify potential SSX-2-derived epitopes that can be recognized by CD8(+) T cells, we used an approach that combined: 1) the in vitro proteasomal digestion of precursor peptides overlapping the complete SSX-2 sequence; 2) the prediction of SSX-2-derived peptides with an appropriate HLA-A2 binding score; and 3) the analysis of a tumor-infiltrated lymph node cell population from an HLA-A2(+) melanoma patient with detectable anti-SSX-2 serum Abs. This strategy allowed us to identify peptide SSX-2(41-49) as an HLA-A2-restricted epitope. SSX2(41-49)-specific CD8(+) T cells were readily detectable in the tumor-infiltrated lymph node population by multimer staining, and CTL clones isolated by multimer-guided cell sorting were able to lyse HLA-A2(+) tumor cells expressing SSX-2.

Comparison of Immunogenicity in Rhesus Macaques of Transmitted-Founder, HIV-1 Group M Consensus, and Trivalent Mosaic Envelope Vaccines Formulated as a DNA Prime, NYVAC, and Envelope Protein Boost.

An effective human immunodeficiency virus type 1 (HIV-1) vaccine must induce protective antibody responses, as well as CD4(+) and CD8(+) T cell responses, that can be effective despite extraordinary diversity of HIV-1. The consensus and mosaic immunogens are complete but artificial proteins, computationally designed to elicit immune responses with improved cross-reactive breadth, to attempt to overcome the challenge of global HIV diversity. In this study, we have compared the immunogenicity of a transmitted-founder (T/F) B clade Env (B.1059), a global group M consensus Env (Con-S), and a global trivalent mosaic Env protein in rhesus macaques. These antigens were delivered using a DNA prime-recombinant NYVAC (rNYVAC) vector and Env protein boost vaccination strategy. While Con-S Env was a single sequence, mosaic immunogens were a set of three Envs optimized to include the most common forms of potential T cell epitopes. Both Con-S and mosaic sequences retained common amino acids encompassed by both antibody and T cell epitopes and were central to globally circulating strains. Mosaics and Con-S Envs expressed as full-length proteins bound well to a number of neutralizing antibodies with discontinuous epitopes. Also, both consensus and mosaic immunogens induced significantly higher gamma interferon (IFN-γ) enzyme-linked immunosorbent spot assay (ELISpot) responses than B.1059 immunogen. Immunization with these proteins, particularly Con-S, also induced significantly higher neutralizing antibodies to viruses than B.1059 Env, primarily to tier 1 viruses. Both Con-S and mosaics stimulated more potent CD8-T cell responses against heterologous Envs than did B.1059. Both antibody and cellular data from this study strengthen the concept of using in silico-designed centralized immunogens for global HIV-1 vaccine development strategies. IMPORTANCE: There is an increasing appreciation for the importance of vaccine-induced anti-Env antibody responses for preventing HIV-1 acquisition. This nonhuman primate study demonstrates that in silico-designed global HIV-1 immunogens, designed for a human clinical trial, are capable of eliciting not only T lymphocyte responses but also potent anti-Env antibody responses.

Influence of PTPN2 and pre-existing immunity on the generation of effector and memory CD8 T cells

Notre système immunitaire joue un rôle important pour la protection envers les maladies infectieuses. Au cours d'une réponse à une infection primaire, des cellules B et des cellules T spécifiques, dirigées contre le pathogène en question, sont générées et certaines d'entre elles deviennent des cellules dites mémoires. Leur fonction est de nous protéger contre une nouvelle infection avec le même pathogène, une infection secondaire. Dans certaines situations, comme c'est par exemple le cas avec la grippe, les pathogènes ne sont pas toujours complètement identiques et les cellules mémoires ne sont pas à même d'assurer leur rôle protecteur et d'empêcher une réinfection. Pourtant, on ne sait à l'heure actuelle que très peu comment une immunité acquise, mais non protectrice, influence le développement d'une réponse immunitaire ultérieure. Dans la première partie de cette thèse, nous avons étudié comment les cellules T mémoires cytotoxiques altèrent la réponse de cellules T cytotoxiques nouvellement induites. Au cours d'une réaction immunitaire dirigée contre une infection primaire, un vaste répertoire de lymphocytes T est créé, constitué de cellules T possédant divers degrés d'affinité pour le pathogène. Lors d'une infection secondaire, seules les cellules T ayant une forte affinité pour le pathogène participent à la réponse. Nous avons pu démontrer que ce phénomène de restriction du répertoire des cellules T est principalement causé par les cellules T mémoires qui sont à même de reconnaître un antigène pathogénique présent dans les deux infections. Dans un deuxième projet, nous avons étudié comment l'absence de PTPN2 influence la réponse des cellules T. Chez l'homme, une mutation dans le gène de PTPN2 est associée à des maladies auto-immunes et résulte en une activité réduite de cette phosphatase dans les lymphocytes T. Nous avons montré que la baisse d'activité de la phosphatase PTNP2 conduit à une meilleure expansion des cellules T ayant une qualité comparable à des cellules T auto-antigène spécifiques. De plus, nous avons observé que la survie de ces cellules T effectues ayant une phosphatase diminuée est nettement améliorée. Cela peut conduire à une réponse immunitaire plus efficace ou, éventuellement, à une pathologie auto-immune plus grave. En outre, nos résultats montrent qu'en manipulant l'activité de cette phosphatase, il est possible d'augmenter l'efficacité du transfert des cellules T dans un hôte receveur. Un tel transfert de cellules T est pratiqué chez des patients atteints de tumeurs. Nos travaux suggèrent que la manipulation de la phosphatase PTPN2 pourrait donc représenter une approche thérapeutique novatrice et prometteuse. -- Notre système immunitaire joue un rôle important pour la protection contre les maladies. Les cellules T CD8+ ont une importance primordiale pour le contrôle d'infections primaires causées par des virus ou bactéries, mais également contre certaines tumeurs. Par conséquent, mieux comprendre les exigences nécessaires à l'induction de bonnes réponses des cellules T CD8 pourrait nous permettre de construire des vaccins contre les pathogènes contre lesquels nous n'avons pour l'instant pas de vaccins mais aussi d'améliorer les réactions immunitaires dirigées anti-tumorales. Dans la première partie de cette thèse, nous avons étudié l'influence qu'une immunité préexistante a sur la réponse des cellules T CD8. Nous sommes souvent exposés à des pathogènes qui sont similaires mais pas identiques à ceux que nous avons rencontrés auparavant. De telles infections hétérologues ne sont pas l'objet de beaucoup d'études et certains exemples indiquent même qu'une immunité préexistante partielle peut mener à une aggravation de la maladie. Nous avons étudié le répertoire des lymphocytes T CD8 qui sont générés lors d'une rencontre avec un nouvel antigène, et ce en comparant infection primaire et secondaire. En utilisant le modèle expérimental d'infections à Listeria monocytogenes, nous avons pu montrer que lors d'une infection primaire, un répertoire diversifié comprenant des cellules T CD8 de forte et faible affinité est constitué. Au contraire, dans le cas d'une infection secondaire, le répertoire des cellules T est fortement limité et seulement les lymphocytes T de forte affinité sont impliqués dans la réponse immunitaire. Nous avons pu démontrer que ces Rangements sont provoqués par des cellules T CD8 mémoires capables de reconnaître un antigène présent dans les deux infections. Cette augmentation du seuil d'activation des cellules effectrices est majoritairement causée par les lymphocytes T CD8 mémoires non transférables. Ces observations indiquent que les vaccins visant à induire des cellules T anti-tumorales de faible affinité seraient inefficaces si le vaccin contient des épitopes contre lesquels il existe une mémoire immunologique. Les réponses immunitaires conduites par les cellules T contre les antigènes tumoraux dépendent des cellules T CD8 de faible réactivité contre les antigènes tumoraux puisque les cellules à forte réactivité sont éliminées par les mécanismes de tolérance. Nous basant sur l'existence dans la littérature de preuves indiquant que PTPN2 influence la réponse des cellules T de faible affinité, nous nous sommes intéressés à comprendre comment PTPN2 impacte les réponses des cellules T CD8 en général. Nous avons remarqué que des cellules T CD8 déficientes en PTPN2 exhibent une meilleure capacité à proliférer suite à une faible ou courte stimulation du récepteur des lymphocytes T. La phase effectrice est prolongée et la contraction retardée résultant ainsi à globalement plus de cellules effectrices. Ce phénomène est également accompagné d'une meilleure survie des cellules effectrices de différentiation terminale. Une fois transférées dans un nouvel hôte receveur, les cellules effectrices terminales KLRG1+CD127- déficientes en phosphatase PTPN2 peuvent survivre et se transformer en cellules mémoires CD127+ fonctionnelles. De façon inattendue, nous avons découvert que l'élimination de PTPN2 améliore l'efficacité du transfert et la formation des cellules mémoires ainsi que leur capacité protectrice. Manipuler l'activité de cette phosphatase apparaît donc comme une approche intéressante et prometteuse pour la thérapie cellulaire par transfert adoptif de lymphocytes T. Nos observations montrent que la manipulation d'un facteur intrinsèque, l'absence de PTPN2, peut, dans certaines circonstances, améliorer la réponse des cellules T. Une meilleure connaissance des mécanismes contrôlant la réponse des lymphocytes T CD8 pourrait donc permettre la manipulation de ces derniers et conduire à des réponses immunitaires plus vigoureuses. Si ces réponses sont déclenchées par l'utilisation de vaccins, il est nécessaire de considérer l'historique d'une exposition préalable à des agents pathogènes ou à des vaccins puisque celle-ci peut, comme nous l'avons démontré, influencer le répertoire des cellules T recrutées dans la réponse immunitaire et, par conséquent, modifier l'aptitude de notre système immunitaire à faire face à une infection. -- Our immune system plays an important role in the protection from disease. CD8 T cells are critical for the control of primary infections with most viruses and certain bacteria as well as against some tumors. Therefore, better knowledge of CD8 T cell responses might enable us to generate vaccines against pathogens for which currently no vaccines are available or to improve anti-tumor immune responses. In the first part of this thesis we addressed the issue how previously acquired immunity impacts on the response of CD8 T cells. We are often exposed to pathogens that are related but not identical to the previously encountered ones. Such heterologous infections are not well studied and there are some indications that partial pre-existing immunity may in some cases even lead to an enhancement of disease. We specifically studied the T cell repertoire of CD8 T cells that are responding to a newly encountered antigen in secondary compared to primary infections. Using the experimental model of Listeria monocytogenes infections, we showed that in primary infections a wide repertoire including high and low affinity CD8 T cells is recruited into the immune response. In contrast to this, in secondary infections, the T cell repertoire is severely restricted and only T cells of high affinity are responding. We were able to pinpoint this difference to the presence of memory CD8 T cells that recognize an antigen that is shared between the two subsequent infections. This increase in the activation threshold was most effectively mediated via non-transferable memory CD8 T cells. This would argue that vaccines targeting low affinity tumor-specific T cells would fail if the vaccine contains previously encountered CD8 T cell epitopes. T cell mediated immune responses to tumor antigen rely often on T cells which weakly react to tumor antigen as high affinity T cells are eliminated by tolerance mechanisms. Following indication in the literature that PTPN2 impacts on the response of such weakly antigen-reactive T cells, we investigated how PTPN2 impacts in general the response of CD8 T cells. We observed that CD8 T cells lacking PTPN2 show an enhanced expansion following weak or short-term T cell receptor stimulation. The effector phase is prolonged and contraction delayed thus resulting in overall more effector cells. This is accompanied by a better survival of terminal effector cells. When transferred into new recipients, KLRG1+CD127- terminal effector cells lacking PTPN2 can survive and convert into CD127+ functional memory cells. Surprisingly, we discovered that elimination of PTPN2 enhances the transfer efficacy and formation of memory cells as well as the protective capacity. Targeting PTPN2 might thus be a promising approach for adoptive T cell therapy. Our observations show how the manipulation of an intrinsic factor, the absence of PTPN2, can enhance T cell responses under certain circumstances. A better understanding of underlying mechanisms for the control of CDS T cell responses might enable the manipulation of these and allow for more powerful responses. If these responses are induced through vaccines it is imperative that the previous history of exposure to pathogens or vaccines is considered as it can, as we have shown in this thesis, influence the recruited T cell repertoire and thus possibly the ability to handle the infection.

Genetic and antigenic analysis of Babesia bigemina isolates from five geographical regions of Brazil

A molecular epidemiological study was performed with Babesia bigemina isolates from five geographical regions of Brazil. The genetic analysis was done with random amplification of polymorphic DNA (RAPD), repetitive extragenic palindromic elements-polymerase chain reaction (REP-PCR) and enterobacterial repetitive intergenic consensus sequences-polymerase chain reaction (ERIC-PCR) that showed genetic polymorphism between these isolates and generated fingerprinting. In RAPD, ILO872 and ILO876 primers were able to detect at least one fingerprinting for each B. bigemina isolate. The amplification of B. bigemina DNA fragments by REP-PCR and ERIC-PCR gave evidence for the presence in this haemoprotozoan of the sequences described previously in microorganisms of the bacterial kingdom. For the first time it was demonstrated that both techniques can be used for genetic analysis of a protozoan parasite, although the ERIC-PCR was more discriminatory than REP-PCR. The dendogram with similarity coefficient among isolates showed two clusters and one subcluster. The Northeastern and Mid-Western isolates showed the greatest genetic diversity, while the Southeastern and Southern isolates were the closest. The antigenic analysis was done through indirect fluorescent antibody technique and Western blotting using a panel of monoclonal antibodies directed against epitopes on the merozoite membrane surface, rhoptries and membrane of infected erythrocytes. As expected, the merozoite variable surface antigens, major surface antigen (MSA)-1 and MSA-2 showed antigenic diversity. However, B cell epitopes on rhoptries and infected erythrocytes were conserved among all isolates studied. In this study it was possible to identify variable and conserved antigens, which had already been described as potential immunogens. Considering that an attenuated Babesia clone used as immunogen selected populations capable of evading the immunity induced by this vaccine, it is necessary to evaluate more deeply the cross-protection conferred by genetically more distant Brazilian B. bigemina isolates and make an evaluation of the polymorphism degree of variable antigens such as MSA-1 and MSA-2.

Alzheimer's disease: is a vaccine possible?

The cause of Alzheimer's disease is still unknown, but the disease is distinctively characterized by the accumulation of β-amyloid plaques and neurofibrillary tangles in the brain. These features have become the primary focus of much of the research looking for new treatments for the disease, including immunotherapy and vaccines targeting β-amyloid in the brain. Adverse effects observed in a clinical trial based on the β-amyloid protein were attributed to the presence of the target antigen and emphasized the relevance of finding safer antigen candidates for active immunization. For this kind of approach, different vaccine formulations using DNA, peptide, and heterologous prime-boost immunization regimens have been proposed. Promising results are expected from different vaccine candidates encompassing B-cell epitopes of the β-amyloid protein. In addition, recent results indicate that targeting another protein involved in the etiology of the disease has opened new perspectives for the effective prevention of the illness. Collectively, the evidence indicates that the idea of finding an effective vaccine for the control of Alzheimer's disease, although not without challenges, is a possibility.

Evolutionary dynamics of the immunodominant repeats of the Plasmodium vivax malaria-vaccine candidate circumsporozoite protein (CSP)

The circumsporozoite protein (CSP) of Plasmodium vivax, a major target for malaria vaccine development, has immunodominant B-cell epitopes mapped to central nonapeptide repeat arrays. To determine whether rearrangements of repeat motifs during mitotic DNA replication of parasites create significant CSP diversity under conditions of low effective meiotic recombination rates, we examined csp alleles from sympatric P. vivax isolates systematically sampled from an area of low malaria endemicity in Brazil over a period of 14 months. Nine unique csp types, comprising six different nona peptide repeats, were observed in 45 isolates analyzed. Identical or nearly identical repeats predominated in most arrays, consistent with their recent expansion. We found strong linkage disequilibrium at sites across the chromosome 8 segment flanking the csp locus, consistent with rare meiotic recombination in this region. We conclude that CSP repeat diversity may not be severely constrained by rare meiotic recombination in areas of low malaria endemicity. New repeat variants may be readily created by nonhomologous recombination even when meiotic recombination is rare, with potential implications for CSP-based vaccine development. (C) 2010 Elsevier B.V. All rights reserved.

The Paracoccidioides brasiliensis gp70 antigen is encoded by a putative member of the flavoproteins monooxygenase family

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)