A search for genetic factors influencing immune responses to a killed Mycobacterium avium subspecies paratuberculosis vaccine in Australian fine-wool merino sheep : thesis in fulfilment of the degree of Doctor of Philosophy in Animal Science, Institute of Veterinary, Animal and Biomedical Sciences, College of Sciences, Massey University

Dukkipati, Venkata Sayoji Rao

January 2007

VSR Dukkipati (2007). A search for genetic factors influencing immune responses to Mycobacterium avium subspecies paratuberculosis. Doctoral thesis, Massey University, Palmerston North, New Zealand. A study was conducted to identify associations between genetic markers and immune responses in Australian fine-wool Merino sheep to a killed Mycobacterium avium subspecies paratuberculosis (Map) vaccine (GudairTM). Blood samples and immune response data (antibody and interferon gamma, IFN-gamma results) were obtained from 934 sheep from a longterm Map vaccination trial undertaken on three independent properties in New South Wales, Australia. Blood samples were genotyped for eight microsatellite markers that included four (DYMS1, OLADRW, OLADRB and SMHCC1) from the Ovar-Mhc region, two each from the SLC11A1 (OVINRA1 and OVINRA2) and IFN-gamma (o(IFN)gamma and OarKP6) gene regions. Vaccination with GudairTM induced strong antibody and IFN-gamma responses as early as two weeks post-vaccination. Between-property differences in magnitude and trend of immune responses, concomitant with season of vaccination and magnitude of natural infection prevalent in individual flocks, were evident. Immune responses in controls on all the three properties remained consistently low, except for slightly elevated IFN-gamma levels at a few time points in controls of properties 2 and 3, concomitant with exposure to natural infection. There were only 2 alleles and 3 genotypes for marker o(IFN)gamma but other loci exhibited extensive polymorphisms, the most occurring at OLADRW which had 42 alleles and 137 genotypes. Heterozygosities varied between 33% (OVINRA2) and 87% (SMHCC1), while polymorphic information contents ranged from 0.31 (o(IFN)gamma) to 0.88 (OLADRW). Genotypes at loci DYMS1, OLADRB, SMHCC1, OVINRA1 and o(IFN)gamma were in Hardy- Weinberg equilibrium (HWE), while those at OarKP6 were in HWE only when rare alleles (<1.0% frequency) were pooled with the closest size class. Departure from HWE, resulting from possible preferential amplification of alleles in heterozygotes, was evident at OLADRW and OVINRA2. Associations between immune responses and genetic polymorphisms at the marker loci were examined by analysing both genotypic and allelic affects. The study revealed several genotypes/alleles at different marker loci to be significantly associated with antibody and IFN-gamma responses to vaccination with GudairTM. However, the majority of those effects were inconsistent across the three properties. Based on significance and consistency in effects across the three properties, five genotypes (two at DYMS1 and one each at OLADRB, SMHCC1 and OVINRA1) and three alleles (one each at DYMS1, OLADRB and o(IFN)gamma) were considered either ‘probable’ or ‘most likely’ to be associated with low IFN-gamma responses, while a genotype at o(IFN)gamma was considered ‘most likely’ to influence high IFN-gamma responses. An allele at OarKP6 was considered ‘probable’ to be associated with low antibody responses to vaccination. Considering the significance of IFN-gamma responses in protection against Map, it is likely that the identified genotype/alleles influencing IFN-gamma responses to vaccination would also influence immune responses to natural Map infections. However, further studies need to be conducted to determine the role of these marker genotypes/alleles in protection against paratuberculosis under natural infection conditions. Key words: paratuberculosis, OJD, Johne’s disease, sheep, immune response, genetic markers, gene polymorphisms, MHC, SLC11A1, IFN-gamma

Immunology

Merino sheep

Paratuberculosis

OJD

Johne's disease

Immune response

Genetic markers

Gene polymorphisms

MHC

SLC11A1

IFN-gamma

Activity and Regulation of Telomerase in Malignant Cells

Lindkvist, Anna

January 2006

<p>An important step in tumorgenesis is the acquisition of cellular immortality. Tumor cells accomplish this by activating the enzyme telomerase, and thereby avoiding replicative senescence. The aim of this thesis was to study the activity and regulation of telomerase in a panel of malignant cell types.</p><p>We found that TGF-β1 (transforming growth factor-β1) mediated differential effects on telomerase activity in five ATC (anaplastic thyroid carcinoma) cell lines. Cells that harbored a <i>p53</i> mutation responded by up-regulation of telomerase activity after TGF-β1 treatment, whereas cell lines displaying wt <i>p53 </i>responded by down-regulation of telomerase activity. Thus, these results indicate a possible connection between <i>p53</i> genotype and telomerase response to TGF-β1 treatment. Furthermore, the decreased telomerase activity appeared to be due to transcriptional repression of the <i>hTERT</i> promoter and the increased activity possibly involved hTERT activation via phosphorylation. </p><p>We have previously shown that IFNs (interferons) sensitize MM (multiple myeloma) cells to Fas-mediated apoptosis. In the present investigation both IFN-α and IFN-γ down regulated telomerase activity in the MM cell line U-266-1970. The mechanism underlying the reduction of telomerase activity by IFN was shown to be transcriptional repression of the <i>hTERT </i>gene. We suggest that one potential mechanism whereby IFN sensitize MM cells to Fas-mediated apoptosis is by repressing <i>hTERT</i> activity at the transcriptional level. </p><p>In the next study we demonstrated that basal telomerase activity is not a key determinant of sensitivity to cytotoxic drugs in ESCC (esophageal squamous cell carcinoma) cell lines. Furthermore, we observed no correlation between <i>c-Myc</i> amplification, <i>p53</i> mutations and high telomerase activity levels in these cell lines. </p><p>Finally, neuroblastoma cell lines were shown to up-regulate telomerase activity in response to hypoxic exposure and the main regulatory mechanism was not mediated by increased hTERT mRNA expression. This finding might constitute an adaptive stress response of tumor cells exposed to hypoxia. </p>

Medicine

apoptosis

ATC

c-Myc

drug sensitivity

ESCC

hTERT

hypoxia

IFN

MM

neuroblastoma

p53

telomerase

TGF-β

Medicin

Activity and Regulation of Telomerase in Malignant Cells

Lindkvist, Anna

January 2006

An important step in tumorgenesis is the acquisition of cellular immortality. Tumor cells accomplish this by activating the enzyme telomerase, and thereby avoiding replicative senescence. The aim of this thesis was to study the activity and regulation of telomerase in a panel of malignant cell types. We found that TGF-β1 (transforming growth factor-β1) mediated differential effects on telomerase activity in five ATC (anaplastic thyroid carcinoma) cell lines. Cells that harbored a p53 mutation responded by up-regulation of telomerase activity after TGF-β1 treatment, whereas cell lines displaying wt p53 responded by down-regulation of telomerase activity. Thus, these results indicate a possible connection between p53 genotype and telomerase response to TGF-β1 treatment. Furthermore, the decreased telomerase activity appeared to be due to transcriptional repression of the hTERT promoter and the increased activity possibly involved hTERT activation via phosphorylation. We have previously shown that IFNs (interferons) sensitize MM (multiple myeloma) cells to Fas-mediated apoptosis. In the present investigation both IFN-α and IFN-γ down regulated telomerase activity in the MM cell line U-266-1970. The mechanism underlying the reduction of telomerase activity by IFN was shown to be transcriptional repression of the hTERT gene. We suggest that one potential mechanism whereby IFN sensitize MM cells to Fas-mediated apoptosis is by repressing hTERT activity at the transcriptional level. In the next study we demonstrated that basal telomerase activity is not a key determinant of sensitivity to cytotoxic drugs in ESCC (esophageal squamous cell carcinoma) cell lines. Furthermore, we observed no correlation between c-Myc amplification, p53 mutations and high telomerase activity levels in these cell lines. Finally, neuroblastoma cell lines were shown to up-regulate telomerase activity in response to hypoxic exposure and the main regulatory mechanism was not mediated by increased hTERT mRNA expression. This finding might constitute an adaptive stress response of tumor cells exposed to hypoxia.

Medicine

apoptosis

ATC

c-Myc

drug sensitivity

ESCC

hTERT

hypoxia

IFN

MM

neuroblastoma

p53

telomerase

TGF-β

Medicin

L’impact de la grossesse sur l’amplitude et la diversité de la reconnaissance antigénique des lymphocytes T cytotoxiques dirigés contre le VIH-1

Jolette, Elyse

09 1900

La transmission mère-enfant (TME) du VIH-1 est un des enjeux majeurs de la pandémie. Une meilleure compréhension de la réponse des lymphocytes T cytotoxiques CD8+ (LTC) VIH-spécifiques lors de la grossesse facilitera le design de stratégies optimales pour diminuer la TME. Notre objectif est donc de caractériser l’amplitude et la diversité de la reconnaissance antigénique des LTC VIH-spécifiques avant, pendant et après la grossesse chez des femmes infectées par le VIH-1. Nos résultats montrent pour la première fois que l’initiation et la progression de la grossesse, à elles seules, n'ont que peu d’influence sur l’amplitude et la diversité de la reconnaissance antigénique des réponses LTC en termes de production d’IFN‐. Ces résultats indiquent que les femmes infectées par le VIH conservent une immunocompétence durant leur grossesse, du moins dans le contexte d’un traitement antirétroviral efficace. Ceci pourrait éventuellement aider à promouvoir l’immunisation comme stratégie pour prévenir la TME du VIH‐1. / Mother-to-child transmission (MTCT) of HIV-1 is one of the major issues of the pandemic. Characterization of HIV-specific immunity during pregnancy, especially cytotoxic CD8+ T lymphocytes (CTL), will lead to a better understanding of HIV pathogenesis and facilitate design of optimal strategies to prevent MTCT. Our objective is to describe the magnitude and the breadth of antigen recognition of HIV-specific CTL responses before, throughout and after pregnancy in a group of HIV-infected women. Our results revealed for the first time that initiation of pregnancy by itself doesn’t change the magnitude of CTL responses in terms of IFN- production. These findings support the fact that HIV-infected women maintain immunocompetence throughout gestation, at least in the context of effective antiretroviral treatment. These results provide a novel understanding of the dynamics of HIV-specific CTL responses during pregnancy and may help to promote maternal immunization as a strategy to prevent MTCT of HIV-1.

Lymphocytes T cytotoxiques CD8+

Cytotoxic CD8+ T lymphocytes

LTC

CTL

VIH

HIV

Grossesse

Pregnancy

ELISpot

IFN-γ

Gag

Transmission mère-enfant

Mother-to-child transmission

TME

MTCT

Role of CD4+ T cells in the regulation of the immune response against encapsulated Group B Streptococcus

Clarke, Damian

08 1900

Le Streptocoque de groupe B (GBS) est un important agent d’infection invasive pouvant mener à la mort et demeure la cause principale de septicémie néonatale à ce jour. Neuf sérotypes ont été officiellement décrits basés sur la composition de la capsule polysaccharidique (CPS). Parmi ces sérotypes, le type III est considéré le plus virulent et fréquemment associé aux maladies invasives graves, telle que la méningite. Malgré que plusieurs recherches aient été effectuées au niveau des interactions entre GBS type III et les cellules du système immunitaire innées, aucune information n’est disponible sur la régulation de la réponse immunitaire adaptative dirigée contre ce dernier. Notamment, le rôle de cellules T CD4+ dans l’immuno-pathogenèse de l’infection causée par GBS n’a jamais été étudié. Dans cet étude, trois différents modèles murins d’infection ont été développé pour évaluer l’activation et la modulation des cellules T CD4+ répondantes au GBS de type III : ex vivo, in vivo, et in vitro. Les résultats d’infections ex vivo démontrent que les splénocytes totaux répondent à l’infection en produisant des cytokines de type-1 pro-inflammatoires. Une forte production d’IL-10 accompagne cette cascade inflammatoire, probablement dans l’effort de l’hôte de maintenir l’homéostasie. Les résultats démontrent aussi que les cellules T sont activement recrutées par les cellules répondantes du système inné en produisant des facteurs chimiotactiques, tels que CXCL9, CXCL10, et CCL3. Plus spécifiquement, les résultats obtenus à partir des cellules isolées T CD4+ provenant des infections ex vivo ou in vivo démontrent que ces cellules participent à la production d’IFN-γ et de TNF-α ainsi que d’IL-2, suggérant un profil d’activation Th1. Les cellules isolées T CD4+ n’étaient pas des contributeurs majeurs d’IL-10. Ceci indique que cette cytokine immuno-régulatrice est principalement produite par les cellules de l’immunité innée de la rate de souris infectées. Le profil Th1 des cellules T CD4+ a été confirmé en utilisant un modèle in vitro. Nos résultats démontrent aussi que la CPS de GBS a une role immuno-modulateur dans le développement de la réponse Th1. En résumé, cette étude adresse pour la première fois, la contribution des cellules T CD4+ dans la production d’IFN-γ lors d’une infection à GBS et donc, dans le développement d’une réponse de type Th1. Ces résultats renforcent d’avantage le rôle central de cette cytokine pour un control efficace des infections causées par ce pathogène. / Group B Streptococcus (GBS) is an important agent of life-threatening invasive infections and remains the leading cause of neonatal sepsis to this day. Nine serotypes have been officially described based on capsular polysaccharide (CPS) composition. Among them, capsular type III is considered one of the most virulent and frequently associated with severe invasive diseases, such as meningitis. Although extensive research has been done on the interactions between GBS type III and various cells of the innate immune system, no information is available on the regulation of the adaptive immune response against this pathogen. In particular, the role of CD4+ T cells in the immuno-pathogenesis of the infection caused by GBS has never been assessed. In this study, three different models of murine infection were developed to evaluate activation and modulation of responding CD4+ T cells against GBS type III: ex vivo, in vivo, and in vitro. Ex vivo analysis of total splenocytes showed that GBS induces the release of type-1 pro-inflammatory cytokines. A strong IL-10 production follows this inflammatory cascade, indicating the host effort to maintain homeostasis. Results also indicate that T cells were actively recruited by responding innate immune cells via the release of chemotactic factors such as CXCL9, CXCL10, and CCL3. More specifically, results obtained from isolated CD4+ T cells from ex vivo or in vivo infections showed that they actively participate in the production of IFN-γ and TNF-α, as well as IL-2, suggesting a Th1 profile of activation. On the other hand, isolated CD4+ T cells were not main sources of IL-10. This observation suggests that this immuno-regulatory cytokine is produced mainly by cells of the spleen innate immune system of infected animals. The CD4+ Th1 cell profile was confirmed using an in vitro model of infection. Our results also suggest that the GBS CPS plays an immuno-modulatory role in the development of a Th1 response. In summary, this study addresses for this first time the contribution of CD4+ T cells in IFN-γ production during GBS infection, and thus, in the development of a Th1 response. Our data further highlight the central role of this cytokine for effective control of GBS infections.

Groupe B Streptococcus

Réponse Th1

Cellules T CD4+

Capsule Polysaccaridique

CD69

IFN-γ

Souris

Ex vivo

In vivo

In vitro

Group B Streptococcus

CD4+ T cells

Capsular Polysaccharide

Cytokines

Mice

Th1 response

A search for genetic factors influencing immune responses to a killed Mycobacterium avium subspecies paratuberculosis vaccine in Australian fine-wool merino sheep : thesis in fulfilment of the degree of Doctor of Philosophy in Animal Science, Institute of Veterinary, Animal and Biomedical Sciences, College of Sciences, Massey University

Dukkipati, Venkata Sayoji Rao

January 2007

VSR Dukkipati (2007). A search for genetic factors influencing immune responses to Mycobacterium avium subspecies paratuberculosis. Doctoral thesis, Massey University, Palmerston North, New Zealand. A study was conducted to identify associations between genetic markers and immune responses in Australian fine-wool Merino sheep to a killed Mycobacterium avium subspecies paratuberculosis (Map) vaccine (GudairTM). Blood samples and immune response data (antibody and interferon gamma, IFN-gamma results) were obtained from 934 sheep from a longterm Map vaccination trial undertaken on three independent properties in New South Wales, Australia. Blood samples were genotyped for eight microsatellite markers that included four (DYMS1, OLADRW, OLADRB and SMHCC1) from the Ovar-Mhc region, two each from the SLC11A1 (OVINRA1 and OVINRA2) and IFN-gamma (o(IFN)gamma and OarKP6) gene regions. Vaccination with GudairTM induced strong antibody and IFN-gamma responses as early as two weeks post-vaccination. Between-property differences in magnitude and trend of immune responses, concomitant with season of vaccination and magnitude of natural infection prevalent in individual flocks, were evident. Immune responses in controls on all the three properties remained consistently low, except for slightly elevated IFN-gamma levels at a few time points in controls of properties 2 and 3, concomitant with exposure to natural infection. There were only 2 alleles and 3 genotypes for marker o(IFN)gamma but other loci exhibited extensive polymorphisms, the most occurring at OLADRW which had 42 alleles and 137 genotypes. Heterozygosities varied between 33% (OVINRA2) and 87% (SMHCC1), while polymorphic information contents ranged from 0.31 (o(IFN)gamma) to 0.88 (OLADRW). Genotypes at loci DYMS1, OLADRB, SMHCC1, OVINRA1 and o(IFN)gamma were in Hardy- Weinberg equilibrium (HWE), while those at OarKP6 were in HWE only when rare alleles (<1.0% frequency) were pooled with the closest size class. Departure from HWE, resulting from possible preferential amplification of alleles in heterozygotes, was evident at OLADRW and OVINRA2. Associations between immune responses and genetic polymorphisms at the marker loci were examined by analysing both genotypic and allelic affects. The study revealed several genotypes/alleles at different marker loci to be significantly associated with antibody and IFN-gamma responses to vaccination with GudairTM. However, the majority of those effects were inconsistent across the three properties. Based on significance and consistency in effects across the three properties, five genotypes (two at DYMS1 and one each at OLADRB, SMHCC1 and OVINRA1) and three alleles (one each at DYMS1, OLADRB and o(IFN)gamma) were considered either ‘probable’ or ‘most likely’ to be associated with low IFN-gamma responses, while a genotype at o(IFN)gamma was considered ‘most likely’ to influence high IFN-gamma responses. An allele at OarKP6 was considered ‘probable’ to be associated with low antibody responses to vaccination. Considering the significance of IFN-gamma responses in protection against Map, it is likely that the identified genotype/alleles influencing IFN-gamma responses to vaccination would also influence immune responses to natural Map infections. However, further studies need to be conducted to determine the role of these marker genotypes/alleles in protection against paratuberculosis under natural infection conditions. Key words: paratuberculosis, OJD, Johne’s disease, sheep, immune response, genetic markers, gene polymorphisms, MHC, SLC11A1, IFN-gamma

Immunology

Merino sheep

Paratuberculosis

OJD

Johne's disease

Immune response

Genetic markers

Gene polymorphisms

MHC

SLC11A1

IFN-gamma

A search for genetic factors influencing immune responses to a killed Mycobacterium avium subspecies paratuberculosis vaccine in Australian fine-wool merino sheep : thesis in fulfilment of the degree of Doctor of Philosophy in Animal Science, Institute of Veterinary, Animal and Biomedical Sciences, College of Sciences, Massey University

Dukkipati, Venkata Sayoji Rao

January 2007

VSR Dukkipati (2007). A search for genetic factors influencing immune responses to Mycobacterium avium subspecies paratuberculosis. Doctoral thesis, Massey University, Palmerston North, New Zealand. A study was conducted to identify associations between genetic markers and immune responses in Australian fine-wool Merino sheep to a killed Mycobacterium avium subspecies paratuberculosis (Map) vaccine (GudairTM). Blood samples and immune response data (antibody and interferon gamma, IFN-gamma results) were obtained from 934 sheep from a longterm Map vaccination trial undertaken on three independent properties in New South Wales, Australia. Blood samples were genotyped for eight microsatellite markers that included four (DYMS1, OLADRW, OLADRB and SMHCC1) from the Ovar-Mhc region, two each from the SLC11A1 (OVINRA1 and OVINRA2) and IFN-gamma (o(IFN)gamma and OarKP6) gene regions. Vaccination with GudairTM induced strong antibody and IFN-gamma responses as early as two weeks post-vaccination. Between-property differences in magnitude and trend of immune responses, concomitant with season of vaccination and magnitude of natural infection prevalent in individual flocks, were evident. Immune responses in controls on all the three properties remained consistently low, except for slightly elevated IFN-gamma levels at a few time points in controls of properties 2 and 3, concomitant with exposure to natural infection. There were only 2 alleles and 3 genotypes for marker o(IFN)gamma but other loci exhibited extensive polymorphisms, the most occurring at OLADRW which had 42 alleles and 137 genotypes. Heterozygosities varied between 33% (OVINRA2) and 87% (SMHCC1), while polymorphic information contents ranged from 0.31 (o(IFN)gamma) to 0.88 (OLADRW). Genotypes at loci DYMS1, OLADRB, SMHCC1, OVINRA1 and o(IFN)gamma were in Hardy- Weinberg equilibrium (HWE), while those at OarKP6 were in HWE only when rare alleles (<1.0% frequency) were pooled with the closest size class. Departure from HWE, resulting from possible preferential amplification of alleles in heterozygotes, was evident at OLADRW and OVINRA2. Associations between immune responses and genetic polymorphisms at the marker loci were examined by analysing both genotypic and allelic affects. The study revealed several genotypes/alleles at different marker loci to be significantly associated with antibody and IFN-gamma responses to vaccination with GudairTM. However, the majority of those effects were inconsistent across the three properties. Based on significance and consistency in effects across the three properties, five genotypes (two at DYMS1 and one each at OLADRB, SMHCC1 and OVINRA1) and three alleles (one each at DYMS1, OLADRB and o(IFN)gamma) were considered either ‘probable’ or ‘most likely’ to be associated with low IFN-gamma responses, while a genotype at o(IFN)gamma was considered ‘most likely’ to influence high IFN-gamma responses. An allele at OarKP6 was considered ‘probable’ to be associated with low antibody responses to vaccination. Considering the significance of IFN-gamma responses in protection against Map, it is likely that the identified genotype/alleles influencing IFN-gamma responses to vaccination would also influence immune responses to natural Map infections. However, further studies need to be conducted to determine the role of these marker genotypes/alleles in protection against paratuberculosis under natural infection conditions. Key words: paratuberculosis, OJD, Johne’s disease, sheep, immune response, genetic markers, gene polymorphisms, MHC, SLC11A1, IFN-gamma

Immunology

Merino sheep

Paratuberculosis

OJD

Johne's disease

Immune response

Genetic markers

Gene polymorphisms

MHC

SLC11A1

IFN-gamma

Možnosti a limity stanovení specifických markerů zánětu oka na základě analýzy slz / Determination of inflammatory markers of the eye based on the analysis of tears - potential and limits

Mandíková, Šárka

January 2018

In this study, we aimed to determine the levels of cytokines IL-1β, IL-4, IL-10, IFN-γ, MIF and VEGF in tears derived from healthy subjects. We tested cytokines as potential markers of inflammation for their potential use in clinical practice. Having reliable method for measuring cytokine levels in tears would enable an early diagnosis of eye diseases. In two phases, cytokines in tears of healthy individuals were analyzed using Bio-Plex Cytokine Assay (Bio-Rad). We assessed the suitability of methods for diagnostic purposes as well as the suitability of our selected cytokines. Statistically significant positive correlations of cytokines were confirmed: IL-10 with IFN-γ (r = 0,81), MIF with VEGF (r = 0,42 / r = 0,49), IL-1β with IL-10 (r = 0,52), IL-1β with IFN-γ (r = 0,55), IL-1β with VEGF (r = 0,38), IFN-γ with VEGF (r = 0,45) and IL-4 with VEGF (r = 0,48) in healthy subjects in tears. IL-4 (r = -0,37) and IFN-γ (r = -0,42) correlate negatively with age. In healthy individuals, there seem to be no differences with regard to gender, BMI, body fat, time of meal consumption prior to tear collection, eye strain when using a computer, dry eyes. Thus, studied cytokines are suitable for diagnostic purposes. Significant differences in concentrations of four (IL-1β, IL-10, IFN-γ a VEGF) of the five...

Avaliação da influência do exercício físico regular na modulação do sistema imunológico de camundongos infectados com Toxoplasma Gondii

Bortolini, Miguel Junior Sordi

26 June 2014

Physical exercise has been implicated in several immunophysiological improvements especially during the aging process when an immunocompromised status could be established. Toxoplasma gondii is a protozoan parasite that causes a widespread opportunistic infection, which may present severe consequences, particularly to the fetus and immunocompromised patients. It is estimated that one-third of the human population worldwide has been infected by this parasite, being the reactivation during immunesenescence an unexplored public health issue. The present study was designed to assess the immunophysiological differences between exercised versus sedentary C57BL/6 male mice that have been infected by T. gondii. Before the two key set of experiments, several other sets were carried out to the prospection of the main found data of this study. There were two main sets of experiments: in the first set, the animals were infected after exercising and three groups were formed: experimental groups - infected sedentary (IS, n=6); infected exercised (IEx, n=6) and control group - non-infected sedentary (NIS, n=6). When splenocytes were stimulated by T. gondii-soluble tachyzoite antigens, it was found an significant increasing (P<0.0001) in interferon-gamma (IFN-&#61543;) production concomitant with any changes in IL-10, allowing a greater IFN-&#61543;/IL-10 ratios, produced by the cells from exercised group compared to sedentary one. However, there was no difference concerning quantification of T. gondii genomic DNA by qPCR and immunohistochemistry analysis in brain cysts (P>0.05). In order to further investigate the consequences of these data for the host, a second set of experiments was performed, when the animals were infected before exercising and four groups of animals were established for comparison purpose, as follows: experimental groups - infected sedentary (IS, n=7); infected exercised (IEx, n=6) and control groups - non-infected sedentary (NIS, n=6) and non-infected exercised (NIEx, n=6). It was found that exercised group survived longer (P<0.05) than sedentary one. In both sets of experiments, mice have been submitted to moderate exercises: running (14m/min; 3x/week) and strength (60-80% of one-repetition maximum; 2x/week). In summary, moderated aerobic and strength exercises are able to modulate immune responses against T. gondii infection, being these immunological features beneficial to the host. / A prática regular de exercício físico tem sido relacionado com melhoras imunopatológicas, especialmente durante o processo de envelhecimento quando pode haver um estado de imunocomprometimento. O Toxoplasma gondii é um parasito protozoário que causa infecção oportunista de forma global, podendo apresentar consequências severas, particularmente ao feto e pacientes imunocomprometimentos. É estimado que um terço da população mundial esteja atualmente infectado por este parasito, sendo a reativação durante a imunossenescência um tópico em saúde pública não explorado. O presente estudo foi projetado para avaliar parâmetros de diferenças imunológicas entre camundongos machos C57BL/6 exercitados e sedentários que tenham sido infectados por T. gondii. Antes dos experimentos chaves vários outros conjuntos de experimentos foram realizados para prospecção dos principais achados desta tese. Houve dois conjuntos de experimentos principais: no primeiro conjunto de experimentos, os animais foram infectados após o início dos exercícios formando-se três grupos: um grupo controle - sedentário não infectado (NIS, IS, n=4); dois grupos infectados - um sedentário (IS, n=4) e um exercitado (IEx, n=6). Quando esplenócitos foram estimuladas com antígeno de taquizoíto solúvel de T gondii (STAg), encontrou-se uma maior produção de IFN-&#61543;, concomitante à uma manutenção das taxas de IL-10, que permitiu uma maior razão de IFN-&#61543;/IL10 (P<0,0001) para o grupo exercitado comparado com o sedentário. No entanto, não houve diferenças no que diz repeito a quantificação de DNA genômico de T. gondii pelas análises de qPCR e imunohistoquímica de cistos cerebrais (P>0,05). Com objetivo de se pesquisar posteriormente as consequências destes dados para o hospedeiro, um segundo conjunto de experimentos foram realizados, quando os animais foram infectados antes do início dos exercícios, e quatro grupos foram estabelecidos para comparação deste propósito, como se segue: dois grupos controles não infectados - sedentário (NIS, n=6) e exercitado (NIEx, n=6), e dois grupos infectados - sedentário (IS, n=7) e exercitado (IEx, n=6). Encontrou-se que o grupo infectado exercitado teve sua longevidade aumentada (P<0,05) comparado com o infectado sedentário. Em ambos os conjuntos de experimentos, os camundongos foram submetidos à exercícios moderados: de corrida (14 m/min; 3 x/semana) e resistido (60-80% de uma repetição máxima; 2x/semana). Em síntese, exercícios físicos aeróbicos e resistidos moderados são capazes de modular a resposta do sistema imune no combate da infecção por T. gondii sendo estas características imunológicas benéficas para o hospedeiro. / Doutor em Imunologia e Parasitologia Aplicadas

Toxoplasma gondii

Modelo murino

Resposta imune

Saúde

Taxa de IFN-y/IL10

Parasitologia

Exercício resistido

Citocinas

Murine model

Immune response

Health

FN-y/IL10 ratio

Parasite

Strength exercise

Cytokines

Expressão de genes da resposta imune em bovinos infestados com carrapatos (Boophilus microplus)

Belo, Vanessa de Almeida

15 February 2008

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-10-14T12:30:34Z No. of bitstreams: 1 vanessadealmeidabelo.pdf: 412659 bytes, checksum: 2be0607436379c3a9ca0f2415972f9be (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-10-22T13:05:05Z (GMT) No. of bitstreams: 1 vanessadealmeidabelo.pdf: 412659 bytes, checksum: 2be0607436379c3a9ca0f2415972f9be (MD5) / Made available in DSpace on 2016-10-22T13:05:05Z (GMT). No. of bitstreams: 1 vanessadealmeidabelo.pdf: 412659 bytes, checksum: 2be0607436379c3a9ca0f2415972f9be (MD5) Previous issue date: 2008-02-15 / Nos países tropicais, as perdas causadas pela infestação de carrapatos em bovinos acarretam um grande impacto no sistema de produção animal. Recentes estudos têm mostrado a importância de fatores genéticos ligados a resistência a carrapato em Bos taurus indicus e Bos taurus taurus e que as citocinas têm um papel crítico na prevenção ou progressão de doenças. O objetivo desse trabalho foi avaliar os níveis de expressão dos genes IL-10 e IL-4 relacionados ao perfil imunológico Th2 associado à susceptibilidade ao carrapato e os genes IL-2 e IFN- relacionados ao perfil imunológico Th1 associado à resistência ao parasito. Além destes genes, analisou-se o perfil de expressão do gene TLR-2, importante no processo de reconhecimento de patógenos e os genes IL-8 e TNF-α importantes no processo inflamatório inicial. Seis animais mais resistentes e seis animais mais susceptíveis de uma população F2 de 332 animais, originária do cruzamento de animais F1(½ Holandês: ½ Gir), foram selecionados baseado na contagem de carrapatos e valor genético. Amostras de tecido foram coletadas de pele no 5° e 12° dias após a infestação para extração de RNA total. As PCRs em tempo real foram realizadas usando o gene GAPDH como controle endógeno. Os animais resistentes e susceptíveis apresentaram aumento de expressão do gene IL-10 no 5° (p<0,01) e 12 ° dias após a infestação (p<0,05). O gene IL-2, nos animais resistentes e susceptíveis, no 5° dia após a infestação não apresentou alteração da expressão sendo que 12° dia, em ambos os grupos de animais, este gene passou a ser mais expresso em relação ao animal controle sugerindo um perfil de resposta imunológica do tipo de Th2 nos animais resistentes e susceptíveis nos primeiros dias após a infestação. O gene IL-4 apresentou uma tendência ao aumento de expressão nos animais resistentes e susceptíveis em relação ao controle, sendo o perfil Th2 sugerido atribuído a IL-10 produzida por linfócitos T regulatórios (p>0,05). O gene TNF- apresentou aumento de expressão nos animais susceptíveis no 5° dia após a infestação com posterior diminuição no 12° dia após a infestação (p<0,05). Nos animais resistentes não foi observada alteração da expressão deste gene, isto sugere que ele possa estar mais atuante no início do processo inflamatório, logo após a fixação do carrapato. A mesma observação estende-se para o gene IL-8, em que não foi verificada alteração de expressão nos animais resistentes, embora nos animais susceptíveis este gene apresentou diminuição da expressão no 12° dia após a infestação (p<0,05). Quanto ao gene IFN-, não houve diferença de expressão entre os animais resistentes e susceptíveis, sendo que este gene parece não estar relacionado ao mecanismo de resistência. O gene TLR-2 apresentou diminuição da expressão em ambos os grupos de animais. Estes resultados sugerem que a resposta imune adquirida avaliada neste trabalho não apresenta papel preponderante no mecanismo de resistência e que resposta imune inata poderia está envolvida no mecanismo de resistência ao carrapato. Portanto, avaliação da resposta imunológica horas após a fixação do carrapato poderia nos fornecer resultados mais conclusivos. / In tropical countries losses caused by tick infestation in cattle lead to a major impact on animal production systems. Recent studies have shown the importance of genetic factors linked to tick resistance in Bos indicus and Bos taurus as well as the critical role in the prevention or progression of diseases mediated by cytokines. The aim of this work was to evaluate gene expression of IL-10 and IL-4 in relation to tick susceptibility associated with the Th2 profile and gene expression of IL-2 and IFN- in relation to tick resistance associated with the Th1 profile. In addition, the expression of TLR-2, important in the process the recognition of pathogens, and TNF-α and IL-8 genes, important in the initial inflammatory process, were evaluated. Six tick-resistant and six tick-susceptible animals from a F2 population of 332 animals, originated from the cross of F1 animals (½ Holstein: ½ Gir), were selected based on tick count and breeding value for tick resistance. Skin biopsies were collected in the 5th and 12th days after tick infestation. The GAPDH was used as endogenous control to normalize the amount of starting cDNA target in the real-time PCR assay. Both resistant and susceptible animals showed increased gene expression of IL-10 in the 5th and 12th days after infestation in relation to control animal (p<0.05). The IL-2 gene showed no change of expression in the 5th day after infestation for the resistant and susceptible animals. In the 12th post infestation, both resistant and susceptible animals showed increased gene expression in relation to control animal. These results suggest an enhancement of Th2 profile through the increase of IL-10 mRNA levels and a possible inhibition of the Th1 pattern in both groups (resistant and susceptible) starting 5 days after infestation and return to normal by day 12. Despite our results suggest the occurrence of the Th2 profile, the susceptible and resistant animals did not show variation on gene expression for IL-4 in relation to control animal. The susceptible animals showed increased expression of TNF-α in the 5th day after infestation. However, in the 12th day post infestation it was noted a decrease in the gene expression level. The resistant animals showed no change in the expression of this gene in relation to control animals suggesting that TNF-α could be more actively expressed in the early steps of the inflammatory process. Similarly, the resistant animals showed no variation in the expression of IL-8 while the susceptible animals showed increased expression in the 12th day post infestation. There were no differences of expression between resistant and susceptible animals in relation to IFN-γ what suggests that this gene might not be involved in the resistance mechanism. The TLR-2 gene showed decreased expression in both resistant and susceptible animals (p<0.05). Finally, there was no difference in expression between susceptible and resistant animals in relation to all selected genes in the 5th and 12th days after infestation. These results suggest that the acquired immunity evaluated in this work might not have preponderant role in the resistance mechanism. The innate immunity might be playing a major role in the bovine tick resistance/susceptibility mechanism in early hours after infestation.

CNPQ::CIENCIAS BIOLOGICAS

PCR quantitativo

Resistentes

Susceptíveis

Citocinas

IL-2

IL-10

IL-4

IL-8

TNF-α

TLR-2

Quantitative PCR

Resistant

Susceptible

Cytokines

IL-2

IL-10

IL-4

IL-8

TNF-α

IFN-γ

TLR-2