A mAb recognizing a surface antigen of Mycobacterium tuberculosis enhances host survival

Murine mAbs reactive with the surface of Mycobacterium tuberculosis were assayed for their ability to affect the course of infection in mice challenged with virulent organisms. An IgG3 mAb (9d8) specific for arabinomannan and reactive with purified antigen from a clinical isolate of M. tuberculosis conferred partial protection on mice after respiratory challenge (30–60% survival >75 days; P ≤ 0.05). Control mice pretreated with an irrelevant mAb of the same isotype succumbed to tuberculosis within 30 days. Mice with gene disruptions in interferon γ and major histocompatibility complex Class II also were partially protected from challenge. The protective mAb was neither bactericidal nor inhibitory of infection or bacterial replication. Nevertheless, it profoundly altered the nature of the granulomas in the infected lungs. Mice treated with mAb 9d8 and challenged with M. tuberculosis localized the pathogen within granuloma centers, suggesting that the mAb conferred protection by enhancing a cellular immune response.

Chemokine receptor 2 serves an early and essential role in resistance to Mycobacterium tuberculosis

Although the protective cellular immune response to Mycobacterium tuberculosis requires recruitment of macrophages and T lymphocytes to the site of infection, the signals that regulate this trafficking have not been defined. We investigated the role of C-C chemokine receptor 2 (CCR2)-dependent cell recruitment in the protective response to M. tuberculosis. CCR2−/− mice died early after infection and had 100-fold more bacteria in their lungs than did CCR2+/+ mice. CCR2−/− mice exhibited an early defect in macrophage recruitment to the lung and a later defect in recruitment of dendritic cells and T cells to the lung. CCR2−/− mice also had fewer macrophages and dendritic cells recruited to the mediastinal lymph node (MLN) after infection. T cell migration through the MLN was similar in CCR2−/− and CCR2+/+ mice. However, T cell priming was delayed in the MLNs of the CCR2−/− mice, and fewer CD4+ and CD8+ T cells primed to produce IFN-γ accumulated in the lungs of the CCR2−/− mice. These data demonstrate that cellular responses mediated by activation of CCR2 are essential in the initial immune response and control of infection with M. tuberculosis.

A new adenoviral vector: Replacement of all viral coding sequences with 28 kb of DNA independently expressing both full-length dystrophin and beta-galactosidase.

Adenoviral vector-mediated gene transfer offers significant potential for gene therapy of many human diseases. However, progress has been slowed by several limitations. First, the insert capacity of currently available adenoviral vectors is limited to 8 kb of foreign DNA. Second, the expression of viral proteins in infected cells is believed to trigger a cellular immune response that results in inflammation and in only transient expression of the transferred gene. We report the development of a new adenoviral vector that has all viral coding sequences removed. Thus, large inserts are accommodated and expression of all viral proteins is eliminated. The first application of this vector system carries a dual expression cassette comprising 28.2 kb of nonviral DNA that includes the full-length murine dystrophin cDNA under control of a large muscle-specific promoter and a lacZ reporter construct. Using this vector, we demonstrate independent expression of both genes in primary mdx (dystrophin-deficient) muscle cells.

Valutazione della risposta immunitaria cellulare e fenotipizzazione linfocitaria nel suino in corso di infezione naturale da virus della PRRS (“Porcine Reproductive and Respiratory Syndrome”) e dopo stimolazione di PBMC (“Peripheral Blood Mononuclear Cells”) in vitro con Peptide Killer (KP)

SUMMARY The Porcine Reproductive and Respiratory Syndrome (PRRS) virus is one of the most spread pathogens in swine herds all over the world and responsible for a reproductive and respiratory syndrome that causes severe heath and economical problems. This virus emerged in late 1980’s but although about 30 years have passed by, the knowledge about some essential facets related to the features of the virus (pathogenesis, immune response, and epidemiology) seems to be still incomplete. Taking into account that the development of modern vaccines is based on how innate and acquire immunity react, a more and more thorough knowledge on the immune system is needed, in terms of molecular modulation/regulation of the inflammatory and immune response upon PRRSV infection. The present doctoral thesis, which is divided into 3 different studies, is aimed to increase the knowledge about the interaction between the immune system and the PRRS virus upon natural infection. The objective of the first study entitled “Coordinated immune response of memory and cytotoxic T cells together with IFN-γ secreting cells after porcine reproductive and respiratory syndrome virus (PRRSV) natural infection in conventional pigs” was to evaluate the activation and modulation of the immune response in pigs naturally infected by PRRSV compared to an uninfected control group. The course of viremia was evaluated by PCR, the antibody titres by ELISA, the number of IFN-γ secreting cells (IFN- SC) by an ELISPOT assay and the immunophenotyping of some lymphocyte subsets (cytotoxic cells, memory T lymphocytes and cytotoxic T lymphocytes) by flow cytometry. The results showed that the activation of the cell-mediated immune response against PRRSV is delayed upon infection and that however the levels of IFN-γ SC and lymphocyte subsets subsequently increase over time. Furthermore, it was observed that the course of the different immune cell subsets is time-associated with the levels of PRRSV-specific IFN-γ SC and this can be interpreted based on the functional role that such lymphocyte subsets could have in the specific production/secretion of the immunostimulatory cytokine IFN-γ. In addition, these data support the hypothesis that the age of the animals upon the onset of infection or the diverse immunobiological features of the field isolate, as typically hypothesized during PRRSV infection, are critical conditions able to influence the qualitative and quantitative course of the cell-mediated immune response during PRRSV natural infection. The second study entitled “Immune response to PCV2 vaccination in PRRSV viremic piglets” was aimed to evaluate whether PRRSV could interfere with the activation of the immune response to PCV2 vaccination in pigs. In this trial, 200 pigs were divided into 2 groups: PCV2-vaccinated (at 4 weeks of age) and PCV2-unvaccinated (control group). Some piglets of both groups got infected by PRRSV, as determined by PRRSV viremia detection, so that 4 groups were defined as follows: PCV2 vaccinated - PRRSV viremic PCV2 vaccinated - PRRSV non viremic PCV2 unvaccinated - PRRSV viremic PCV2 unvaccinated - PRRSV non viremic The following parameters were evaluated in the 4 groups: number of PCV2-specific IFN-γ secreting cells, antibody titres by ELISA and IPMA. Based on the immunological data analysis, it can be deduced that: 1) The low levels of antibodies against PCV2 in the PCV2-vaccinated – PRRSV-viremic group at vaccination (4 weeks of age) could be related to a reduced colostrum intake influenced by PRRSV viremia. 2) Independently of the viremia status, serological data of the PCV2-vaccinated group by ELISA and IPMA does not show statistically different differences. Consequently, it can be be stated that, under the conditions of the study, PRRSV does not interfere with the antibody response induced by the PCV2 vaccine. 3) The cell-mediated immune response in terms of number of PCV2-specific IFN-γ secreting cells in the PCV2-vaccinated – PRRSV-viremic group seems to be compromised, as demonstrated by the reduction of the number of IFN-γ secreting cells after PCV2 vaccination, compared to the PCV2-vaccinated – PRRSV-non-viremic group. The data highlight and further support the inhibitory role of PRRSV on the development and activation of the immune response and highlight how a natural infection at early age can negatively influence the immune response to other pathogens/antigens. The third study entitled “Phenotypic modulation of porcine CD14+ monocytes, natural killer/natural killer T cells and CD8αβ+ T cell subsets by an antibody-derived killer peptide (KP)” was aimed to determine whether and how the killer peptide (KP) could modulate the immune response in terms of activation of specific lymphocyte subsets. This is a preliminary approach also aimed to subsequently evaluate such KP with a potential antivural role or as adjuvant. In this work, pig peripheral blood mononuclear cells (PBMC) were stimulated with three KP concentrations (10, 20 and 40 g/ml) for three time points (24, 48 and 72 hours). TIME POINTS (hours) KP CONCENTRATIONS (g/ml) 24 0-10-20-40 48 0-10-20-40 72 0-10-20-40 By using flow cytometry, the qualitative and quantitative modulation of the following immune subsets was evaluated upon KP stimulation: monocytes, natural killer (NK) cells, natural killer T (NKT) cells, and CD4+ and CD8α/β+ T lymphocyte subsets. Based on the data, it can be deduced that: 1) KP promotes a dose-dependent activation of monocytes, particularly after 24 hours of stimulation, by inducing a monocyte phenotypic and maturation shift mainly involved in sustaining the innate/inflammatory response. 2) KP induces a strong dose-dependent modulation of NK and NKT cells, characterized by an intense increase of the NKT cell fraction compared to NK cells, both subsets involved in the antibody-dependent cell cytotoxicity (ADCC). The increase is observed especially after 24 hours of stimulation. 3) KP promotes a significant activation of the cytotoxic T lymphocyte subset (CTL). 4) KP can modulate both the T helper and T cytotoxic phenotype, by inducing T helper cells to acquire the CD8α thus becoming doube positive cells (CD4+CD8+) and by inducing CTL (CD4-CD8+high) to acquire the double positive phenotype (CD4+CD8α+high). Therefore, KP may induce several effects on different immune cell subsets. For this reason, further research is needed aimed at characterizing each “effect” of KP and thus identifying the best use of the decapeptide for vaccination practice, therapeutic purposes or as vaccine adjuvant. RIASSUNTO Il virus della PRRS (Porcine Reproductive Respiratory Syndrome) è uno dei più diffusi agenti patogeni negli allevamenti suini di tutto il mondo, responsabile di una sindrome riproduttiva e respiratoria causa di gravi danni ad impatto sanitario ed economico. Questo virus è emerso attorno alla fine degli anni ’80 ma nonostante siano passati circa una trentina di anni, le conoscenze su alcuni punti essenziali che riguardano le caratteristiche del virus (patogenesi, risposta immunitaria, epidemiologia) appaiono ancora spesso incomplete. Considerando che lo sviluppo dei vaccini moderni è basato sui principi dell’immunità innata e acquisita è essenziale una sempre più completa conoscenza del sistema immunitario inteso come modulazione/regolazione molecolare della risposta infiammatoria e immunitaria in corso di tale infezione. Questo lavoro di tesi, suddiviso in tre diversi studi, ha l’intento di contribuire all’aumento delle informazioni riguardo l’interazione del sistema immunitario, con il virus della PRRS in condizioni di infezione naturale. L’obbiettivo del primo studio, intitolato “Associazione di cellule memoria, cellule citotossiche e cellule secernenti IFN- nella risposta immunitaria in corso di infezione naturale da Virus della Sindrome Riproduttiva e Respiratoria del Suino (PRRSV)” è stato di valutare l’attivazione e la modulazione della risposta immunitaria in suini naturalmente infetti da PRRSV rispetto ad un gruppo controllo non infetto. I parametri valutati sono stati la viremia mediante PCR, il titolo anticorpale mediante ELISA, il numero di cellule secernenti IFN- (IFN- SC) mediante tecnica ELISPOT e la fenotipizzazione di alcune sottopopolazioni linfocitarie (Cellule citotossiche, linfociti T memoria e linfociti T citotossici) mediante citofluorimetria a flusso. Dai risultati ottenuti è stato possibile osservare che l’attivazione della risposta immunitaria cellulo-mediata verso PRRSV appare ritardata durante l’infezione e che l’andamento, in termini di IFN- SC e dei cambiamenti delle sottopopolazioni linfocitarie, mostra comunque degli incrementi seppur successivi nel tempo. E’ stato inoltre osservato che gli andamenti delle diverse sottopopolazioni immunitarie cellulari appaiono temporalmente associati ai livelli di IFN- SC PRRSV-specifiche e ciò potrebbe essere interpretato sulla base del ruolo funzionale che tali sottopopolazioni linfocitarie potrebbero avere nella produzione/secrezione specifica della citochina immunoattivatrice IFN-. Questi dati inoltre supportano l’ipotesi che l’età degli animali alla comparsa dell’infezione o, come tipicamente ipotizzato nell’infezione da PRRSV, le differenti caratteristiche immunobiologiche dell’isolato di campo, sia condizioni critiche nell’ influenzare l’andamento qualitativo e quantitativo della risposta cellulo-mediata durante l’infezione naturale da PRRSV. Il secondo studio, dal titolo “Valutazione della risposta immunitaria nei confronti di una vaccinazione contro PCV2 in suini riscontrati PRRSV viremici e non viremici alla vaccinazione” ha avuto lo scopo di valutare se il virus della PRRS potesse andare ad interferire sull’attivazione della risposta immunitaria indotta da vaccinazione contro PCV2 nel suino. In questo lavoro sono stati arruolati 200 animali divisi in due gruppi, PCV2 Vaccinato (a 4 settimane di età) e PCV2 Non Vaccinato (controllo negativo). Alcuni suinetti di entrambi i gruppi, si sono naturalmente infettati con PRRSV, come determinato con l’analisi della viremia da PRRSV, per cui è stato possibile creare quattro sottogruppi, rispettivamente: PCV2 vaccinato - PRRSV viremico PCV2 vaccinato - PRRSV non viremico PCV2 non vaccinato - PRRSV viremico PCV2 non vaccinato - PRRSV non viremico Su questi quattro sottogruppi sono stati valutati i seguenti parametri: numero di cellule secernenti IFN- PCV2 specifiche, ed i titoli anticorpali mediante tecniche ELISA ed IPMA. Dall’analisi dei dati immunologici derivati dalle suddette tecniche è stato possibile dedurre che:  I bassi valori anticorpali nei confronti di PCV2 del gruppo Vaccinato PCV2-PRRSV viremico già al periodo della vaccinazione (4 settimane di età) potrebbero essere messi in relazione ad una ridotta assunzione di colostro legata allo stato di viremia da PRRSV  Indipendentemente dallo stato viremico, i dati sierologici del gruppo vaccinato PCV2 provenienti sia da ELISA sia da IPMA non mostrano differenze statisticamente significative. Di conseguenza è possibile affermare che in questo caso PRRSV non interferisce con la risposta anticorpale promossa dal vaccino PCV2.  La risposta immunitaria cellulo-mediata, intesa come numero di cellule secernenti IFN- PCV2 specifiche nel gruppo PCV2 vaccinato PRRS viremico sembra essere compromessa, come viene infatti dimostrato dalla diminuzione del numero di cellule secernenti IFN- dopo la vaccinazione contro PCV2, comparata con il gruppo PCV2 vaccinato- non viremico. I dati evidenziano ed ulteriormente sostengono il ruolo inibitorio del virus della PRRSV sullo sviluppo ed attivazione della risposta immunitaria e come un infezione naturale ad età precoci possa influenzare negativamente la risposta immunitaria ad altri patogeni/antigeni. Il terzo studio, intitolato “Modulazione fenotipica di: monociti CD14+, cellule natural killer (NK), T natural killer (NKT) e sottopopolazioni linfocitarie T CD4+ e CD8+ durante stimolazione con killer peptide (KP) nella specie suina” ha avuto come scopo quello di stabilire se e come il Peptide Killer (KP) potesse modulare la risposta immunitaria in termini di attivazione di specifiche sottopopolazioni linfocitarie. Si tratta di un approccio preliminare anche ai fini di successivamente valutare tale KP in un potenziale ruolo antivirale o come adiuvante. In questo lavoro, periferal blood mononuclear cells (PBMC) suine sono state stimolate con KP a tre diverse concentrazioni (10, 20 e 40 g/ml) per tre diversi tempi (24, 48 e 72 ore). TEMPI DI STIMOLAZIONE (ore) CONCENTRAZIONE DI KP (g/ml) 24 0-10-20-40 48 0-10-20-40 72 0-10-20-40 Mediante la citometria a flusso è stato dunque possibile analizzare il comportamento qualitativo e quantitativo di alcune sottopopolazioni linfocitarie sotto lo stimolo del KP, tra cui: monociti, cellule Natural Killer (NK), cellule T Natural Killer (NKT) e linfociti T CD4 e CD8+. Dai dati ottenuti è stato possibile dedurre che: 1) KP promuove un’attivazione dei monociti dose-dipendente in particolare dopo 24 ore di stimolazione, inducendo uno “shift” fenotipico e di maturazione monocitaria maggiormente coinvolto nel sostegno della risposta innata/infiammatoria. 2) KP induce una forte modulazione dose-dipendente di cellule NK e NKT con un forte aumento della frazione delle cellule NKT rispetto alle NK, sottopopolazioni entrambe coinvolte nella citotossicità cellulare mediata da anticorpi (ADCC). L’aumento è riscontrabile soprattutto dopo 24 ore di stimolazione. 3) KP promuove una significativa attivazione della sottopopolazione del linfociti T citotossici (CTL). 4) Per quanto riguarda la marcatura CD4+/CD8+ è stato dimostrato che KP ha la capacità di modulare sia il fenotipo T helper che T citotossico, inducendo le cellule T helper ad acquisire CD8 diventando quindi doppio positive (CD4+CD8+) ed inducendo il fenotipo CTL (CD4-CD8+high) ad acquisire il fenotipo doppio positivo (CD4+CD8α+high). Molti dunque potrebbero essere gli effetti che il decapeptide KP potrebbe esercitare sulle diverse sottopopolazioni del sistema immunitario, per questo motivo va evidenziata la necessità di impostare e attuare nuove ricerche che portino alla caratterizzazione di ciascuna “abilità” di KP e che conducano successivamente alla scoperta del migliore utilizzo che si possa fare del decapeptide sia dal punto di vista vaccinale, terapeutico oppure sotto forma di adiuvante vaccinale.

Cytokine-specific Gene-knockout Studies in Oropharyngeal Candidiasis

Oropharyngeal candidiasis is a common clinical problem encountered in patients with defects in innate or cell-mediated immunity. We have previously shown that recovery from chronic oropharyngeal candidiasis is dependent on CD4+ T-cell augmentation of neutrophil and macrophage candidacidal activity, and that the immune response is characterised by the production of cytokines such as IL-12 and IFN-gamma by cells in the local draining lymph nodes, and by the expression of TNF-alpha in the oral tissues. Objective: The purpose of this study was to elaborate on the role of these cytokines in recovery from oropharyngeal candidiasis, by using cytokine-specific gene-knockout mice. Methods: These mice are created by targeted gene mutation (tm1) of embryonic stem (ES) cells microinjected into host embryos. IL-4, IL-10, IL-12, IFN-gamma and TNF-alpha knockout mice, and appropriate controls, were infected orally with 108 viable C. albicans yeasts. The infection was quantified by swabbing the oral cavity and plating on Sabouraud's agar. Results: Tnftm1mice developed an acute severe infection characterized by an increased fungal load in the early stages of infection, but cleared the yeast within the same time frame as control mice (21 days). On the other hand, Il12btm1 mice developed a chronic oropharyngeal infection (120 days) similar to that seen in T-cell deficient (Foxn1nu/Foxn1nu) mutant mice. There was no significant difference between Il4tm1, Il10tm1, and Ifngtm1 mice and their respective controls. Conclusions: Tnftm1 mice may be rendered more susceptible through impaired recruitment of phagocytic cells, and/or impaired killing of C. albicans, whereas Il12btm1 mice may not be capable of activating naïve T-cells or inducing an appropriate cellular immune response. Supported by NHMRC and ADRF.

Serum neopterin levels and gallium transferrin binding in Parkinson's disease

The unconjugated pterin neopterin is secreted by macrophages activated by interferon-gamma and hence, the level of neopterin in serum may be used as a marker of a cellular immune response in a patient. Serum neopterin levels were measured by high performance liquid chromatography (HPLC) in 28 Parkinson's disease (PD) patients and 28 age and sex matched controls. The level of serum neopterin was significantly elevated in PD compared with controls suggesting immune activation in these patients. The level of neopterin was negatively correlated with the level of binding of gallium to transferrin (Tf) but unrelated to the level of iron binding. Hence, in PD, it is possible that a cellular immune response may be important in the pathogenesis of the disease. One effect of the cellular immune response may be a reduction in the binding of metals other than iron to Tf and this could also be a factor in PD.

SVRMHC prediction server for MHC-binding peptides

The binding between antigenic peptides (epitopes) and the MHC molecule is a key step in the cellular immune response. Accurate in silico prediction of epitope-MHC binding affinity can greatly expedite epitope screening by reducing costs and experimental effort. Recently, we demonstrated the appealing performance of SVRMHC, an SVR-based quantitative modeling method for peptide-MHC interactions, when applied to three mouse class I MHC molecules. Subsequently, we have greatly extended the construction of SVRMHC models and have established such models for more than 40 class I and class II MHC molecules. Here we present the SVRMHC web server for predicting peptide-MHC binding affinities using these models. Benchmarked percentile scores are provided for all predictions. The larger number of SVRMHC models available allowed for an updated evaluation of the performance of the SVRMHC method compared to other well- known linear modeling methods. SVRMHC is an accurate and easy-to-use prediction server for epitope-MHC binding with significant coverage of MHC molecules. We believe it will prove to be a valuable resource for T cell epitope researchers.

In silico prediction of peptide-MHC binding affinity using SVRMHC

The binding between peptide epitopes and major histocompatibility complex (MHC) proteins is a major event in the cellular immune response. Accurate prediction of the binding between short peptides and class I or class II MHC molecules is an important task in immunoinformatics. SVRMHC which is a novel method to model peptide-MHC binding affinities based on support rector machine regression (SVR) is described in this chapter. SVRMHC is among a small handful of quantitative modeling methods that make predictions about precise binding affinities between a peptide and an MHC molecule. As a kernel-based learning method, SVRMHC has rendered models with demonstrated appealing performance in the practice of modeling peptide-MHC binding.

Quantitative prediction of mouse class I MHC peptide binding affinity using support vector machine regression (SVR) models

Background - The binding between peptide epitopes and major histocompatibility complex proteins (MHCs) is an important event in the cellular immune response. Accurate prediction of the binding between short peptides and the MHC molecules has long been a principal challenge for immunoinformatics. Recently, the modeling of MHC-peptide binding has come to emphasize quantitative predictions: instead of categorizing peptides as "binders" or "non-binders" or as "strong binders" and "weak binders", recent methods seek to make predictions about precise binding affinities. Results - We developed a quantitative support vector machine regression (SVR) approach, called SVRMHC, to model peptide-MHC binding affinities. As a non-linear method, SVRMHC was able to generate models that out-performed existing linear models, such as the "additive method". By adopting a new "11-factor encoding" scheme, SVRMHC takes into account similarities in the physicochemical properties of the amino acids constituting the input peptides. When applied to MHC-peptide binding data for three mouse class I MHC alleles, the SVRMHC models produced more accurate predictions than those produced previously. Furthermore, comparisons based on Receiver Operating Characteristic (ROC) analysis indicated that SVRMHC was able to out-perform several prominent methods in identifying strongly binding peptides. Conclusion - As a method with demonstrated performance in the quantitative modeling of MHC-peptide binding and in identifying strong binders, SVRMHC is a promising immunoinformatics tool with not inconsiderable future potential.

Histidine hydrogen bonding in MHC at pH 5 and pH 7 modeled by molecular docking and molecular dynamics simulations

Hydrogen bonds play important roles in maintaining the structure of proteins and in the formation of most biomolecular protein-ligand complexes. All amino acids can act as hydrogen bond donors and acceptors. Among amino acids, Histidine is unique, as it can exist in neutral or positively charged forms within the physiological pH range of 5.0 to 7.0. Histidine can thus interact with other aromatic residues as well as forming hydrogen bonds with polar and charged residues. The ability of His to exchange a proton lies at the heart of many important functional biomolecular interactions, including immunological ones. By using molecular docking and molecular dynamics simulation, we examine the influence of His protonation/deprotonation on peptide binding affinity to MHC class II proteins from locus HLA-DP. Peptide-MHC interaction underlies the adaptive cellular immune response, upon which the next generation of commercially-important vaccines will depend. Consistent with experiment, we find that peptides containing protonated His residues bind better to HLA-DP proteins than those with unprotonated His. Enhanced binding at pH 5.0 is due, in part, to additional hydrogen bonds formed between peptide His+ and DP proteins. In acidic endosomes, protein His79β is predominantly protonated. As a result, the peptide binding cleft narrows in the vicinity of His79β, which stabilizes the peptide - HLA-DP protein complex. © 2014 Bentham Science Publishers.

Moléculas coestimulatórias na leishmaniose visceral

Visceral leishmaniasis (VL) is endemic in many countries, including Brazil. The protozoan Leishmania infantum, is the etiological agent of VL, and is transmitted by the bite of female sandflies during the blood meal. The majority of subjects when exposed to the parasite do not develop the disease, because of development of Th1 cellular responses. Those who have develop signs of VL such as fever, weight loss, hepatosplenomegaly, have impairment of the cellular immune response, specific to the Leishmania antigens. We evaluated whether the specififc anergy during symptomatic VL, may be associated with changes in T cells costimulatory molecules or their ligands in CD14+ monocytes. There is an increase in CTLA-4 porcentage on CD4+ T lymphocytes (p=0.001) and ICOS on CD4+ and CD8+ T cells (p=0.002 to CD4+ and p=0.003 to CD8+), after stimulation by soluble Leishmania antigen (SLA) during active visceral leishmaniasis, and that there is a higher percentage of these molecules ex vivo, when comparing symptomatic to recovered individuals (p=0.04 to CTLA-4 in CD4+, and p=0.001 to ICOS in CD4+ and p=0.026 to CD8+). Moreover, we found a high gene expression of CTLA-4, OX-40 and ICOS during active VL. CD40, CD80, CD86, HLA-DR and ICOSL molecules do not suffer changes during disease. There is IFN-γ production by the peripheral blood cells, after SLA stimulation, by peripheral blood cells in symptomatic subjects; however, there is a decrease of the ratio IFN-γ/IL-10, which is reversed after clinical recovery. The impairment of some costimulatory molecules pathways during symptomatic VL could inhibit the ability of phagocytes to kill Leishmania and could facilitate their survival and the proliferation inside macrophages.

Leishmania (Viannia) shawi purified antigens confer protection against murine cutaneous leishmaniasis

Leishmania (Viannia) shawi was characterized only recently, and few studies concerning the immunogenic and protective properties of its antigens have been performed. The present study aimed to evaluate the protective potential of the five antigenic fractions isolated from L. (V.) shawi promastigotes in experimental cutaneous leishmaniasis.Soluble antigen from L. (V.) shawi promastigotes was submitted to reverse phase HPLC to purify F1, F2, F3, F4 and F5 antigens. BALB/c mice were immunized once a week for two consecutive weeks by subcutaneous routes in the rump, using 25 mu g protein. After 1 week, groups were challenged in the footpad with L. (V.) shawi promastigotes. After 8 weeks, those same mice were sacrificed and parasite burden as well as the cellular and humoral immune responses were evaluated.F1 and F5-immunized mice restrained lesion progression and parasite load in the skin. However, only the F1 group was able to control the parasitism in lymph nodes, which was associated with low IL-4 and high IFN-gamma production; IgG2a isotype was increased in this group. Immunizations with F2, F3 and F4 antigens did not protect mice.The capability of antigens to restrain IL-4 levels and increase IFN-gamma was associated with protection, such as in immunization using F1 antigen.

Immune cell changes in response to a swimming training session during a 24-h recovery period

Understanding the impact of training sessions on the immune response is crucial for the adequate periodization of training, to prevent both a negative influence on health and a performance impairment of the athlete. This study evaluated acute systemic immune cell changes in response to an actual swimming session, during a 24-h recovery period, controlling for sex, menstrual cycle phases, maturity, and age group. Competitive swimmers (30 females, 15 ± 1.3 years old; and 35 males, 16.5 ± 2.1 years old) performed a high-intensity training session. Blood samples were collected before, immediately after, 2 h after, and 24 h after exercise. Standard procedures for the assessment of leukogram by automated counting (Coulter LH 750, Beckman) and lymphocytes subsets by flow cytometry (FACS Calibur BD, Biosciences) were used. Subjects were grouped according to competitive age groups and pubertal Tanner stages. Menstrual cycle phase was monitored. The training session induced neutrophilia, lymphopenia, and a low eosinophil count, lasting for at least 2 h, independent of sex and maturity. At 24 h postexercise, the acquired immunity of juniors (15-17 years old), expressed by total lymphocytes and total T lymphocytes (CD3+), was not fully recovered. This should be accounted for when planning a weekly training program. The observed lymphopenia suggests a lower immune surveillance at the end of the session that may depress the immunity of athletes, highlighting the need for extra care when athletes are exposed to aggressive environmental agents such as swimming pools

Chlamydial infection and spatial ascension of the female genital tract : a novel hybrid cellular automata and continuum mathematical model

Sexually transmitted chlamydial infection initially establishes in the endocervix in females, but if the infection ascends the genital tract, significant disease, including infertility, can result. Many of the mechanisms associated with chlamydial infection kinetics and disease ascension are unknown. We attempt to elucidate some of these processes by developing a novel mathematical model, using a cellular automata–partial differential equation model. We matched our model outputs to experimental data of chlamydial infection of the guinea-pig cervix and carried out sensitivity analyses to determine the relative influence of model parameters. We found that the rate of recruitment and action of innate immune cells to clear extracellular chlamydial particles and the rate of passive movement of chlamydial particles are the dominant factors in determining the early course of infection, magnitude of the peak chlamydial time course and the time of the peak. The rate of passive movement was found to be the most important factor in determining whether infection would ascend to the upper genital tract. This study highlights the importance of early innate immunity in the control of chlamydial infection and the significance of motility-diffusive properties and the adaptive immune response in the magnitude of infection and in its ascension.

Mathematical modelling of tumour growth and interaction with host tissue and the immune system

In this thesis, three mathematical models describing the growth of solid tumour incorporating the host tissue and the immune system response are developed and investigated. The initial model describes the dynamics of the growing tumour and immune response before being extended in the second model by introducing a time-varying dendritic cell-based treatment strategy. Finally, in the third model, we present a mathematical model of a growing tumour using a hybrid cellular automata. These models can provide information to pre-experimental work to assist in designing more effective and efficient laboratory experiments related to tumour growth and interactions with the immune system and immunotherapy.