Avaliação da hemopoese e da resposta imune inata mediada por macrófagos em camundongos submetidos à recuperação nutricional após desnutrição protéica / Evaluation of hematopoiesis and innate immune response mediated by macrophages in mice submitted to nutritional recovery after protein malnutrition

Crisma, Amanda Rabello

08 October 2010

A desnutrição protéico-energética (DPE) afeta mais de 1 bilhão de pessoas no mundo, principalmente crianças, idosos e pacientes hospitalizados. Ela provoca alterações metabólicas e hormonais, além de afetar o tecido hemopoético. O comprometimento da hemopoese provoca anemia e leucopenia, modificando a resposta imune inata e adquirida do organismo. Dessa forma, é comum a associação entre desnutrição e infecção, levando ao comprometimento do tratamento e aumento da morbidade e mortalidade de indivíduos hospitalizados. Após a recuperação nutricional, é relatada a reversão das alterações bioquímicas e hormonais, bem como das alterações na hemopoese e na resposta imune. Porém, muitos resultados são controversos, existindo dúvidas quanto à reversibilidade das alterações. Assim, nos propusemos a avaliar os efeitos da recuperação nutricional nos parâmetros bioquímicos, hormonais, hematológicos e imunológicos em modelo murino de desnutrição. Os animais desnutridos apresentaram perda de peso significativa, redução de proteínas totais, albumina, glicose, insulina e IGF-1, bem como aumento de glutamina plasmática, glutamina sintetase muscular e corticosterona. Houve redução dos parâmetros hepáticos e musculares, bem como alteração na sensibilidade à insulina, evidenciada pelos testes de OGTT e ITT. Todas as alterações descritas caracterizam o quadro de desnutrição. Após a recuperação nutricional, alguns parâmetros foram normalizados, mas as concentrações de glicose, insulina e IGF-1 permaneceram reduzidas. Da mesma forma, as alterações na concentração de DNA hepático e na sensibilidade à insulina permaneceram nos animais renutridos. A pancitopenia periférica e hipocelularidade da medula óssea e do baço observadas nos animais desnutridos foram revertidas após a renutrição. A avaliação de macrófagos peritoniais mostrou reversão parcial do comprometimento da capacidade e adesão e espraiamento, bem como da atividade fungicida nos animais renutridos. A produção de peróxido de hidrogênio continuou baixa após a recuperação nutricional, enquanto a produção de óxido nítrico voltou a aumentar. O comprometimento da produção de citocinas pró-inflamatórias decorrente da desnutrição não foi completamente revertido, visto que, em camundongos Swiss Webster, somente a produção de TNF-α retornou ao normal, enquanto em camundongos C56BL/6J a produção de nenhuma citocina foi restabelecida. A avaliação da via de sinalização do fator de transcrição NFkB mostrou alteração na expressão de MyD88, TRAF-6, IkKβ e IkBα em animais desnutridos. Após a recuperação nutricional, algumas dessas proteínas não retornaram ao normal. Os animais desnutridos também apresentaram comprometimento da ativação de NFkB, que não foi normalizada após a recuperação nutricional. Sendo assim, é possível afirmar que o retorno a uma dieta normoprotéica não é suficiente para reverter todas as alterações causadas pela desnutrição. / Protein-energy malnutrition (PEM) affects more than 1 billion people worldwide, mainly children, elderly and hospitalized patients. It causes metabolic and hormonal changes, besides affecting hematopoietic tissue. Impaired hematopoiesis causes anemia and leukopenia, modifying innate and acquired immune response of the organism. Thus, it is common the association between malnutrition and infection, leading to impaired treatment and increasing morbidity and mortality in hospitalized patients. After nutritional recovery, it is reported reversal of biochemical and hormonal changes, as well as, reversal of changes in hematopoiesis and immune response. However, many results are controversial, and there are doubts about the reversibility of the changes. Thus, we proposed to evaluate the effects of nutritional recovery biochemical, hormonal, haematological and immunological parameters in a murine model of malnutrition. The malnourished animals showed significant weight loss, reduction in total protein, albumin, glucose, insulin and IGF-1, as well as increased plasma glutamine, corticosterone and muscle glutamine synthetase. There was a reduction in muscle and liver parameters as well as change in insulin sensitivity, evidenced by the tests of OGTT and ITT. All modifications described characterize the malnutrition. After nutritional recovery, there was normalization of some parameters, but the concentrations of glucose, insulin and IGF-1 remained low. Likewise, changes in hepatic DNA concentration and insulin sensitivity remained in renourished animals. Peripheral pancytopenia and hypocellularity in bone marrow and spleen observed in malnourished animals were reversed after refeeding. The evaluation of peritoneal macrophages showed partial reversal of impairment of adhesion and spreading ability, as well as fungicidal activity in animals renourished. The hydrogen peroxide production remained low after nutritional recovery, while nitric oxide production increased again. Impaired production of proinflammatory cytokines due to malnutrition was not completely reversed, whereas in Swiss Webster mice, only the production of TNF-α returned to normal, whereas in C56BL/6J mice no cytokine production was restored. The assessment of the signalling pathway of transcription factor NFkB showed alterations in the expression of MyD88, TRAF-6 IkKβ and IkBα in malnourished animals. After nutritional recovery, some of these proteins didn\'t return to normal. Malnourished animals also showed impaired activation of NFkB, which wasn\'t normalized after nutritional recovery. Therefore, it is possible to say that the return to a normal diet is not enough to reverse all the changes caused by malnutrition.

Hematopoiesis

Hemopoese

Immune response

Nutritional recovery

Recuperação nutricional

Resposta imune

Avaliação do tratamento com dehidroepiandrosterona em ratos \'Wistar\' machos e fêmeas durante a infecção chagásica experimental / Evaluation of the treatment with dehydroepiandrosterone in males and females Wistar rats during experimental Chagasdisease.

Sponchiado, Carla Domingues dos Santos

30 August 2007

A dehidroepiandrosterona (DHEA) tem sido considerada como o esteróide de múltiplas ações e vem interessando pesquisadores da área médica. Trabalhos demonstram a estimulação imunológica induzida pelo DHEA em animais de laboratório e humanos, como terapia alternativa e imunomoestimuladora nas infecções virais, bacterianas e parasitárias. O presente projeto avaliou os efeitos terapêuticos da administração de DHEA em ratos Wistar machos e fêmeas infectados com a cepa Y de Trypanosoma cruzi durante a fase aguda da infecção chagásica. Os parâmetros analizados foram o número de parasitas sangüíneos e teciduais, bem como produção de citocinas (TNF-, IFN-, IL-2, IL-12, IL-10, IL-4 e TGF-) e populações celulares (CD3+, CD4+ e CD8+), análise de glicose, colesterol e triglicérides, produção de anticorpos líticos, óxido nítrico, contagem global de leucócitos e macrófagos. Através dos resultados obtidos podemos concluir que o DHEA quando utilizado como tratamento na infecção chagásica experimental é parcilamente eficaz, pois reduz o número de parasitas sanguíneos e teciduais em ratos machos e fêmeas. Os diferentes parâmetros imunológicos analisados na vigência da terapia com DHEA revelou uma ação parcialmente efetiva sobre a resposta imunológica, o que favoreceu o controle da evolução da fase aguda da infecção experimental, deve ser levado em conta que a utilização deste hormônio não assume caráter curativo, apenas propicia melhores condições ao hospedeiro de direcionar sua resposta imunológica de forma a controlar a replicação parasitária, sem causar no hospedeiro os efeitos colaterais danosos ocasionados pelas drogas tripanossomicidas disponíveis atualmente no mercado. / Dehidroepiandrosterone (DHEA) has been considered for many researchers as the steroid of multiple functions. The immunologic stimulation triggered by DHEA has been demonstrated not only in animal models but also in humans. DHEA has been used as an alternative therapy to up-modulate immune response in host bearing viral, bacterial and parasitic infections. The present work evaluate the therapeutic effects of DHEA administration in male and female Wistar rats infected with the Y strain of T. cruzi during the acute phase of infection. The evaluated parameters were the blood and tecidual parasitic intensity, cytokines and cellular population, glucose analysis, cholesterol and triglycerides, percentage of lytic antibodies, nitric oxide, global counting of leukocytes and macrophages. DHEA, when used as a treatment of experimental T. cruzi infection is efficient; reducing the number of blood and tissue parasites of both genders. The therapy with DHEA demonstrated cellular and humoral immune stimulation for the control of the evolution of the acute phase. It has to be emphasized that DHEA therapy is not curative, but improves to the host immunological response to control the parasitic burden, without the harmful collateral effects caused by the available T. cruzi drugs in the market.

Dehidroepiandrosterona

Dehydroepiandrosterone

immune response

resposta immune

Trypanosoma cruzi

Trypanosoma cruzi

Níveis plasmáticos de corticosterona, testosterona e imunocompetência em Bufonídeos / Plasma levels of corticosterone, testosterone and immunocompetence in Bufonids

Assis, Vania Regina de

20 August 2015

Glicocorticóides modulam a resposta imune de forma complexa em vertebrados expostos a diferentes estressores. Dado que as populações naturais têm estado expostas a uma multiplicidade de estressores, uma melhor compreensão da associação funcional entre a duração e a intensidade da resposta ao estresse, as mudanças resultantes nos níveis dos hormônios esteróides e seu impacto sobre os diferentes aspectos da imunocompetência emergem como um ponto chave para as estratégias de conservação dos vertebrados. Nós investigamos as relações entre os níveis plasmáticos de hormônios esteróides e a imunocompetência inata em anfíbios anuros, incorporando as metodologias de desafio de contenção, elevação experimental dos níveis de corticosterona por aplicação transdérmica, capacidade bactericida por espectrofotometria e o desafio imunológico com fitohemaglutinina. Nossos resultados demonstram que a capacidade bactericida plasmática (CBP) medida por espectrofotometria é um método confiável e preciso para estimar a imunocompetência de anfíbios anuros, além disso, mostramos a existência de uma grande diversidade interespecífica na CBP de anuros machos. Quando quatro diferentes espécies de Bufonídeos foram submetidas a um desafio de contenção, as respostas gerais incluíram aumento dos níveis plasmáticos de corticosterona (CORT) e da relação neutrófilo/linfócito (N:L) e diminuição dos níveis plasmáticos de testosterona (T). As respostas da CBP à contenção foram muito mais variáveis, com R. ictérica mostrando diminuição e R. marina mostrando aumento dos valores de CBP. Adicionalmente, CORT e N:L tenderam a aumentar mais em resposta à contenção com restrição de movimento do que à contenção sem restrição de movimento, indicando que os sapos demostraram um aumento da resposta ao estresse quando submetidos ao estressor mais intenso. Todas as variáveis estudadas mostraram variação interespecífica. Rhinella ornata apresentou os maiores níveis basais de CORT quando comparado com as outras espécies, enquanto R. ornata e R. ictérica mostraram os maiores valores basais de CBP. Entretanto, as mudanças na relação N:L, nos níveis de T e na CBP, não foram correlacionadas com o aumento em CORT, dentro ou entre espécies. A aplicação transdérmica de corticosterona eficientemente simulou eventos repetidos de resposta ao estresse agudo em Rhinella ictérica, sem alterar os parâmetros imunitários, mesmo após treze dias de tratamento. Curiosamente, o cativeiro a longo prazo não atenuou a resposta ao estresse, uma vez que estes sapos mantiveram um aumento de três vezes em CORT mesmo depois de três meses sob estas mesmas condições. Além disso, a manutenção em cativeiro a longo prazo, nas mesmas condições, aumentou a contagem total de leucócitos (TLC) e gerou uma diminuição ainda maior na CBP, sugerindo que as consequências da resposta ao estresse podem ser agravadas pelo tempo em cativeiro. Com base em nossos resultados, consideramos que uma avaliação cuidadosa é necessária para compreender a modulação da resposta imunitária pelo estresse a nível intra e interespecífico. A inclusão de diferentes segmentos da resposta imune é desejável, e a padronização da coleta de dados para todas as espécies sob o mesmo período (em geral, dentro ou fora da época reprodutiva) e mesma atividade (em geral, vocalizando ou forrageando) se faz obrigatória / Glucocorticoids modulate the immune response in complex ways in vertebrates exposed to different stressors. Given that natural populations have been exposed to a multitude of stressors, a better understanding of the functional association between duration and intensity of the stress response, the resulting changes in steroid hormone levels and their impact on different aspects of immunocompetence emerges as a cornerstone for vertebrate conservation strategies. We investigated the relationships between steroids levels and innate immunocompetence in anuran amphibians, incorporating the methodology of restraint challenge, experimental elevation of corticosterone levels by transdermal application, bacterial killing ability by spectrophotometry and the immune challenge with phytohemagglutinin. Our results demonstrate that the bacterial killing ability (BKA) measured by spectrophotometry is a reliable and accurate method to estimate the immunocompetence of anuran amphibians, additionally showed the existence of a large interspecific diversity in BKA from male anurans. When four different species of Bufonids were submitted to a restraint challenge, the general responses included increased in corticosterone plasma levels (CORT) and neutrophil/lymphocyte ratio (N:L) and decreased in testosterone plasma levels (T). The responses of BKA to restraint were much more variable, with R. icterica showing decreased and R. marina showing increased values. Additionally, CORT and N:L tended to increase more in response to restraint with movement restriction than to restraint without movement restriction, indicating that toads showed an increased stress response to the more intense stressor. All variables studied show interspecific variation. Rhinella ornate showed higher baseline CORT when compared to other species, while R. ornate and R. icterica showed the highest baseline BKA values. However, changes in N:L ratio, T levels and BKA, were not correlated to increased CORT within or between species. Transdermal application of corticosterone efficiently mimics repeated acute stress response events in Rhinella icterica, without changing the immune parameters even after thirteen days of treatment. Interestingly, long-term captivity did not mitigate the stress response, since the toads maintained three fold increased CORT even after three months under these conditions. Moreover, long-term captivity in the same condition increased total leukocyte count (TLC) and generated an even greater decrease in BKA, suggesting that consequences of the stress response can be aggravated by time in captivity. Based on our results, we consider that a careful evaluation is necessary in order to understand the modulation of the immune response by stress at intra and interspecific levels. The inclusion of different segments of the immune response is desirable, and a standardized data collection for all the species under the same period (e.g. inside or outside of breeding season) and same activity (e.g. calling or foraging) is mandatory

Corticosterona

Corticosterone

Estresse

Immune response

Resposta imune

Stress

Testosterona

Testosterone

Development of antibodies and characterisation of the humoral immune responses in a surrogate animal model for hepatitis C virus (HCV)

Pearce, Emma St Clair

January 2017

Hepatitis C virus (HCV) infection has become a global public health concern with over 130 million people chronically infected and over 350,000 deaths every year from HCV-related liver diseases. GB virus-B (GBV-B) infection in tamarins is a surrogate model for acute HCV infection. Whilst HCV infection commonly leads to chronicity, GBV-B is naturally cleared. To better understand this natural clearance, this project aimed to study the associated humoral immune response to GBV-B. Additionally, GBV-B-specific antibodies were produced with the aim of characterising the pathology of the virus. Previously, there was no available GBV-B neutralisation assay to identify antibodies in this animal model. Therefore, a GBV-B neutralisation assay, based on a method that is known to be successful for the closely-related HCV, was developed. This method involved producing pseudotyped retroviral particles (PV) expressing the GBV-B envelope that could infect a human hepatocarcinoma cell line. GBV-B PV production was confirmed by western blotting. Future studies can now test archived tamarin sera in this assay for the presence of neutralising antibodies. Neutralising antibodies found through this model could be epitope mapped, and incorporated into HCV vaccine design strategies. To study the pathology of GBV-B infection, GBV-B-specific antibodies were also produced using two techniques in parallel- classical hybridoma technology and ribosome display. Antibodies targeting the nucleocapsid core protein of GBV-B have been previously detected in tamarins and served as the target for production of GBV-B antibodies using both aforementioned technologies. GBV-B core-specific antibodies were successfully isolated using both technologies and can now be used in downstream techniques, such as immunohistochemistry, to characterise the pathology of GBV-B infection thereby further validating the use of the animal model.

The innate immune kinase IKKε as a novel regulator of PSAT1 and serine metabolism

Jones, William Edward

January 2018

Induced and activated as part of the innate immune response, the first line of defence against bacterial or viral infections, Inhibitor of Kappa-B Kinase ε (IKKε) triggers NF-κB and IFNβ signalling. Whilst not expressed at basal levels in healthy cells and tissue, the kinase is overexpressed in roughly 30% of human breast cancer cases, driving oncogenesis through aberrant activation of NF-κB. The impracticality of therapeutic targeting of NF-κB for cancer treatment has led to a requirement for greater understanding of IKKε's oncogenic potential to treat tumours driven by the kinase. Considering that IKKε alters cellular metabolism in dendritic cells, promoting aerobic glycolysis akin to the metabolic phenotype observed in cancer, it was hypothesised that the kinase would play a similar role in breast cancer. Using a Flp-In 293 model of IKKε induction and suppressing IKKε expression in a panel of breast cancer cell lines using siRNA, IKKε-dependent changes in cellular metabolism were characterised using labelled metabolite analysis. IKKε was found to induce serine biosynthesis, an important pathway in breast cancer development that supports glutamine-fuelling of the TCA cycle and contributes to one carbon metabolism to maintain redox balance. Promotion of serine biosynthesis occurred via a dual mechanism. Firstly, PSAT1, the second enzyme of the pathway, was found to be phosphorylated in an IKKε-dependent manner, promoting protein stabilisation. Secondly, an IKKε-dependent transcriptional upregulation of all three serine biosynthesis enzymes, PHGDH, PSAT1 and PSPH, was observed, induced by the inhibition of mitochondrial activity and the subsequent induction of ATF4-mediated mitochondria-to-nucleus retrograde signalling. These data demonstrate a previously uncharacterised mechanism of metabolic regulation by IKKε and highlight new potential therapeutic targets for the treatment of IKKε-driven breast cancer in the form of the enzymes of the serine biosynthesis pathway.

Infecção de aves (Gallus gallus domesticus) com Salmonella enterica subesp. enterica sorovar Enteritidis contendo deleções nos genes cobS, cbiA, pduC, pduD e pduE : avaliação da colonização intestinal, invasão sistêmica e resposta imune /

Denadai, Janine.

January 2015

Orientador: Angelo Berchieri Junior / Coorientador: Oliveiro Caetano de Freitas Neto / Banca: Marcelo Brocchi / Banca: Jacqueline Boldrin de Paiva / Banca: Rosemeri de Oliveira Vasconcelos / Banca: Karin Werther / Resumo: Salmonella Enteritidis (SE) é responsável pela maioria dos casos de infecções alimentares em seres humanos e, geralmente, está associada ao consumo de produtos de origem avícola. Nas aves, SE coloniza o intestino, podendo sobreviver utilizando como substrato o 1,2 propanodiol (1,2-Pd) disponível neste ambiente, cujo metabolismo é viabilizado pela ação da enzima propanodiol desidratase, codificada por genes do operon pdu. A enzima propanodiol desidratase necessita de cianocobalamina como cofator enzimático, a qual é codificada pelos genes cobS e cbiA. Neste estudo, utilizou-se uma estirpe de SE e duas mutantes, sendo uma com os genes pduC, pduD, pduE defectivos (SE ΔpduCDE) e outra com os genes pduC, pduD, pduE, cobS e cbiA (SE ΔcobSΔcbiAΔpduCDE) inativados, na tentativa de avaliar a importância do 1,2-Pd para a colonização intestinal e invasão de órgãos durante a infecção de aves por SE. No primeiro experimento, estimou-se as quantidades das estirpes em baço, fígado e conteúdo cecal de aves de postura de variedades vermelha e branca. Um segundo ensaio foi realizado para verificação da excreção fecal, por meio de suabes cloacais. Aliado a isso, caracterizou-se a resposta imunológica em aves SPF desafiadas com estirpes de SE acima descritas por meio da avaliação das populações de linfócitos T CD4+ e TCD8+ em fígado e tonsilas cecais e também pela quantificação de genes responsáveis pela expressão das citocinas IL-6, CCL4, CXCLi2 e IL-22 em tonsilas cecais e IL-6 e IL-18 em baço. Observou-se que as estirpes mutantes foram capazes de colonizar o intestino e invadir o baço e fígado da mesma forma que a estirpe selvagem, sendo que as aves de postura de variedade vermelha foram mais susceptíveis a infecção sistêmica. Tanto a estirpe selvagem como as mutantes estimularam o mesmo perfil de resposta imune nas aves SPF. Portanto, os genes pduC, pduD, pduE, cobS e cbiA não são necessários para... / Abstract: Salmonella Enteritidis (SE) is responsible for majority of the cases of foodborne diseases in humans and usually is associated with the consumption of poultry origin products. In birds, SE colonizes the intestine and can survive using 1,2 propanodiol (1,2-Pd) as substrate. The metabolisation of the 1,2-Pd is possible by the action of propanodiol dehydratase enzyme, encoded by genes pdu operon. Cyanocobalamin, which is encoded by genes cobS and cbiA, is the cofactor required by propanodiol dehydratase. In this study, we used one SE wild type strain and two mutants, one with mutations in pduC, pduD and pduE genes (SE ΔpduCDE) and another with mutations of pduC, pduD, pduE, cobS and cbiA genes (ΔcobSΔcbiAΔpduCDE) in attempt to evaluate the importance of 1,2-Pd for intestinal colonization and invasion of organs during infection of birds. In the first experiment, bacterial counts for all strains were obtained from spleen, liver and cecal content of white and brown varieties of commercial egg-layers. In the second assay, faecal shedding of the strains was assessed by cloacal swabs. Additionaly, immunological responses were characterised by the assessment of T CD4+ and T CD8+ cell populations in liver and cecal tonsils from SPF (Specific Pathogen Free) chicks challenged with the three strains. Complementary transcripts of genes encoding the cytokines IL-6, CCL4, CXCLi2 and IL-22 in cecal tonsils, and IL-6 and IL-18 in liver were obtained for relative quantification by qRT-PCR. It was observed that SE mutant strains were able to colonise the intestine and invade spleen and liver in the same way as the wild type strain. Brown variety of birds was more susceptible to systemic infection than white birds. Furthermore, the immune response profiles triggered by the SE wild type and the two mutants in SPF chicks were very similar. Therefore, data for the present study suggest that pduC, pduD, pduE, cobS e cbiA genes would not be essencial to ... / Doutor

Aves.

Salmonella enteritidis.

Genes.

Resposta imune.

Infecção.

Immune response

Delineating Human Dendritic Cell Development

Lee, Jaeyop

January 2016

The origin of human dendritic cells (DCs) has long been debated. DCs are a subset of innate immune cells that are essential for initiating adaptive immune responses. Determining their ontogeny is critical for vaccine development and for unveiling the molecular mechanism of DC insufficiency, which underlies many primary immune deficiency disorders and leukemia. Like all blood cells, human DCs develop from hematopoietic stem cells through a sequence of increasingly restricted progenitors. Initially it was assumed that DCs should derive exclusively from myeloid progenitors. However, during the past few decades, a number of myeloid and lymphoid progenitors have been described and shown to have DC potential, instigating the debate of the myeloid vs. lymphoid origin of DCs. Hindering the resolution of this debate, human DC-restricted progenitors had not been identified. Further, the potential of known progenitors could not be interrogated due to the lack of a culture system that supports simultaneous differentiation of all human DCs subsets, in conjunction with other myeloid and lymphoid cells. In this work, we establish a culture system that supports the development of the three major subsets of DCs (plasmacytoid DCs or pDCs, and the two classical DCs, cDCs) as well as granulocytes, monocytes and lymphocytes. This system combines mitomycin C-treated murine stromal cell lines, MS5 and OP9, together with human recombinant cytokines, FLT3L, SCF and GM-CSF, and supports the differentiation of progenitor cells at a population and single cell level. Using this culture in combination with a phenotypic characterization of CD34+ progenitor cells, we identify four consecutive DC progenitors with increasing degree of commitment to DCs and describe their anatomical location of development. We show that DCs develop from a granulocyte-monocyte-DC progenitor (GMDP), which produces granulocytes and a monocyte-DC progenitor (MDP), which then generates monocytes and a common DC progenitor (CDP), which produces pDCs and a cDC precursor (pre-cDC), which finally produces cDCs only. Lastly, we establish a staining panel that allows the phenotypic identification and separation of newly found DC progenitors as well as all previously described myeloid and lymphoid progenitors. We investigate their inter-developmental relationship and DC potential at the single cell level. We show that each progenitor population with homogeneous phenotype is heterogeneous in developmental potential and prove that cell surface marker expression cannot be directly equated to a specific developmental potential. In order to resolve the unreliability of phenotype to draw developmental pathways, we propose to use the quantitative clonal output in order to delineate the DC developmental pathway. In summary, our studies provide a new tool to determine DC potential in vitro, identify new stages of DC development, and propose a new method for tracing the developmental pathway for DC lineage. This will generate a new model of dendritic cell hematopoiesis that can explain and reconcile the conflicts of data on DC origin and development.

Immune response

Hematopoiesis

Cells--Growth

Dendritic cells

Immunology

Oncology

Medicine

Réponse au parasitisme par des guêpes chez la drosophile : rôle de la voie de signalisation Toll/NFkB / Drosophila response to wasp parasitism : role of the Toll/NFkappaB signalling pathway

Louradour, Isabelle

23 October 2015

Dans tous les organismes animaux la réponse immunitaire est divisée en deux composantes : la réponse humorale, qui consiste en la production d'un grand nombre de molécules toxiques pour le pathogène, et la réponse cellulaire, qui met en jeu des cellules immunitaires produites lors de l'hématopoïèse. Chez les mammifères adultes, l'hématopoïèse se déroule dans la moelle osseuse, où un microenvironnement particulier appelé " niche hématopoïétique " contrôle l'auto-renouvèlement, la prolifération et la différenciation des Cellules Souches Hématopoïétiques (CSH) à l'origine de l'ensemble des cellules sanguines/immunitaires. Suite à une infection par un pathogène, l'homéostasie du système hématopoïétique est modifiée, afin de permettre la mise en place d'une réponse immunitaire cellulaire adaptée. Le rôle de la niche hématopoïétique dans le contrôle de l'hématopoïèse suite à une infection reste à ce jour mal connu. La drosophile est utilisée comme système modèle pour étudier in vivo l'hématopoïèse et la réponse immunitaire. L'hématopoïèse a lieu chez la drosophile au stade larvaire dans un organe spécialisé appelé Glande Lymphatique (GL). Au sein de cet organe, un petit groupe de cellules, le Centre de Signalisation Postérieur (PSC), contrôle l'équilibre entre progéniteurs hématopoïétiques et cellules immunitaires différenciées, et a donc un rôle équivalent à celui de la niche hématopoïétique des mammifères. Suite à un stress immun, tel que le parasitisme par des guêpes, une différenciation massive de cellules immunitaires spécifiques, les lamellocytes, a lieu dans la GL; puis la dispersion de la GL permet la libération des lamellocytes dans la circulation lymphatique. Lors du parasitisme, la guêpe pond un œuf dans le corps de la larve de drosophile. En absence de réponse immunitaire cellulaire, l'œuf de guêpe se développe au dépend de son hôte, entraînant sa mort. En formant une capsule autour de l'œuf de guêpe, les lamellocytes neutralisent son développement et permettent la survie de l'hôte. Au cours de ma thèse, je me suis intéressée à la réponse immunitaire cellulaire de la larve de drosophile au parasitisme par des guêpes. Je me suis plus particulièrement intéressée au rôle de la " niche hématopoïétique " dans cette réponse. Pour cela, j'ai initié une approche transcriptomique ayant pour but d'identifier les gènes spécifiquement exprimés dans le PSC en réponse au parasitisme. En parallèle, j'ai caractérisé le rôle de la voie de signalisation Toll/NF?B dans la GL lors de la réponse au parasitisme. La voie Toll/NF?B joue un rôle essentiel dans la réponse immunitaire humorale et son rôle dans la réponse immunitaire cellulaire reste à définir. Mes travaux indiquent que la voie Toll/NF?B est activée dans le PSC suite au parasitisme. Son activation est médiée par le facteur de transcription NF?B "Dorsal-related Immunity Factor" (Dif), qui est requis dans le PSC pour permettre la différenciation rapide et massive de lamellocytes et la dispersion des cellules de la GL. De plus, j'ai établi un réseau génique, impliquant les deux voies de signalisation Toll/NF?B et EGFR ainsi que les espèces réactives de l'oxygène (ROS) dans le contrôle de la réponse au parasitisme. Une augmentation du niveau de ROS dans le PSC et l'activation de la voie EGFR dans les cellules immunitaires ont été décrits comme nécessaires à l'encapsulation des œufs de guêpe après parasitisme. Mes données établissent qu'ils sont en plus requis respectivement dans les cellules du PSC et dans les progéniteurs hématopoïétiques pour permettre la dispersion de la GL après parasitisme. Basé sur la forte conservation des voies de signalisation et processus moléculaires contrôlant l'hématopoïèse entre les mammifères et la drosophile, mes résultats posent la question de la conservation du réseau génique établi chez la drosophile et du rôle de la voie NF?B dans la niche hématopoïétique des mammifères lors d'une réponse à une infection. / In all organisms, the immune response is divided into two parts: the humoral response, which consists of producing a large number of molecules to combat the pathogen, and the cellular response, which relies on immune cells produced during hematopoiesis. In adult mammals, hematopoiesis occurs in the bone marrow, where a particular microenvironment called the "hematopoietic niche" controls self-renewal, proliferation and differentiation of Hematopoietic Stem Cells (HSCs), which give rise to all blood cell types. Following a pathogenic infection, the hematopoietic system's homeostasis is modified in order to obtain an adapted cellular immune response. The role that the hematopoietic niche plays during an immune response remains unclear. Drosophila is used as a model system to study in vivo hematopoiesis and the immune response. In drosophila, hematopoiesis occurs at the larval stage in a specialized organ called the Lymph Gland (LG). Within this organ, a small group of cells termed the Posterior Signalling Center (PSC), controls the balance between hematopoietic progenitors and differentiated immune/blood cells, a role similar to the mammalian hematopoietic niche. Following an immune challenge, especially in response to wasp parasitism, a massive differentiation of specific immune cells called lamellocytes occurs in the LG. The LG subsequently disperses to release lamellocytes into the hemolymph. During parasitism, the wasp lays an egg in the drosophila larva. In the absence of a cellular immune response, the wasp egg will develop and kill its host. By forming a capsule around the wasp egg, lamellocytes impede the pathogen's development and permit the host's survival. During my PhD, I studied the drosophila larva cellular immune response to wasp parasitism. I focused my research on the role of the "hematopoietic niche". I therefore initiated a transcriptomic study, in order to identify genes expressed by the PSC in response to parasitism. In parallel, I characterized the role of the Toll/NF?B signalling pathway in the LG during parasitism. The Toll/NF?B pathway plays a key role in the humoral response both in drosophila and mammals; however its role in the cellular immune response remains unknown. My results indicate that the Toll/NF?B pathway is activated in the PSC following parasitism. Its activation is mediated by the NF?B transcription factor " Dorsal-related Immunity Factor " (Dif), which is required in the PSC for rapid lamellocyte production and LG dispersion. Furthermore, I established the existence of a genetic network comprising the Toll/NFkB and EGFR signalling pathways and Reactive Oxygen Species (ROS), in order to control the immune response to parasitism. An increase in ROS levels in the PSC and EGFR pathway activation in the immune cells, have been described as required for wasp egg encapsulation. My data suggest that the ROS and the EGFR pathway are also required for LG dispersion following wasp parasitism, in PSC cells and in hematopoietic progenitors, respectively. Based on the high conservation of signalling pathways and molecular processes controlling hematopoiesis, my results raise the question of whether such a network is conserved in the mammalian hematopoietic niche in response to pathogenic infections.

Drosophile

Réponse immunitaire

Parasitisme

Hématopoïèse

Drosophila

Immune response

Parasitism

Hematopoiesis

Role of the major histocompatibility complex in immune responsiveness in a Holstein Charolais cattle cross population

Baxter, Rebecca Jayne

January 2011

Infectious disease is a major issue facing the livestock industry. Further understanding of the role of genetic factors in the observed phenotypic variability of the immune response to pathogens and vaccination could assist in designing improved preventative measures such as more efficacious vaccines and targeted breeding strategies to select for disease resistance. Major candidate genes for controlling immune responsiveness are located within the major histocompatibility complex (MHC). The highly polymorphic classical MHC genes are key determinants in the strength and type of immune response. However, it has proved difficult to establish genotyping approaches to define functionally relevant allelic variations for outbred species such as cattle, not least because the peptide binding clefts (PBC) of classical MHC molecules are highly polymorphic, and the genes within the MHC complex are closely linked. The overall aim of this project was to investigate the role of MHC genes in immune responsiveness in approximately 200 F2 and backcross Holstein-Charolais cattle. These animals were generated as part of the Roslin Bovine Genome (RoBoGen) herd, established through a quantitative trait loci (QTL) project, in which a number of phenotypic traits including immune traits were measured. The immune traits included responses to a Foot-and-mouth disease virus (FMDV) peptide, and vaccines against bovine respiratory syncytial virus (BRSV), para-influenza virus 3 (PIV-3) and bovine herpes virus-1 (BHV-1), as well as T cell response to Staphylococcus aureus. The immune phenotypes measured included IgG and interferon- (IFN- ) levels and T cell proliferation. The cattle MHC region, known as bovine leukocyte antigens (BoLA), resides on bovine chromosome 23. The BoLA region contains approximately 200 genes most of which are immune-related. Class II gene polymorphisms were considered to be the most likely to influence the immune traits measured, and the project primarily focused on the best defined gene, BoLA-DRB3. A sequence-based typing technique was successfully improved to facilitate genotyping of the PBC of BoLA-DRB3 in all generations of the RoBoGen herd (approximately 400 animals) and identified 24 distinct alleles. The sequence information obtained also enabled further analysis of the role of defined ‘pockets’ within the PBC, which directly determine peptide binding affinity. All datasets were statistically analysed using a residual maximum likelihood (REML) model and it was shown that several of the DRB3 alleles within the RoBoGen herd had highly significant (p<0.05) associations with the immune response to the FMDV peptide. In addition DRB3 alleles were identified which had significant associations with the response to the respiratory pathogen vaccinations and exposure to S. aureus. The pocket analysis also enabled the identification of several amino acid positions within the PBC which were significantly associated with the immune response traits. In order to explore whether DQ Class II gene polymorphisms also played a role in the variability of responses and whether BoLA Class I-Class II haplotypes could be discerned, microarrays which utilized allele specific oligonucleotides for BoLA Class I and Class II DQ genes were employed. In addition, to investigate whether the number of DQ gene pairs per chromosome influenced the responses, a quantitative polymerase chain reaction (qPCR) assay to determine DQA gene dosage was developed. However, due to the extremely complex nature of the BoLA region both, techniques would require improving to be used for large-scale studies. Nonetheless, information about haplotypes was determined from the microarray results and the qPCR technique lays the foundations for future development to investigate DQ gene dosage. The MHC region in cattle is very complex due the high level of polymorphisms and gene duplications. It is likely that many genes play a role in the immune response to both pathogens and vaccines. However, from the evidence presented here, polymorphisms in the PBC of BoLA-DRB3, particularly within the pockets, are significantly associated with variation in immune response to many different antigens and this information could be exploited in the design of vaccines or breeding cattle for improved disease resistance.

636.089

Mediators and modulators of immunity to helminths

Filbey, Kara Jayne

January 2013

Parasitic helminths infect millions of people and animals worldwide. A key feature of their lifecycle is the longevity of survival within a single host, which is often attributed to the ability of the parasite to divert or modulate the immune response against it. The excretory-secretory (ES) products released by helminths are of interest as the mediators of such immunomodulation. Heligmosomoides polygyrus is an excellent model of gastrointestinal (GI) helminth infection in rodents, and has been used here to investigate several aspects of the immune response, and the manipulation of these, in mice. Firstly, the roles of B cells and antibodies in infection with H. polygyrus and towards the adult ES (HES) were investigated. Using several B cell-deficient mouse strains, a minimal effect on immunity to primary infection with H. polygyrus was demonstrated. However, primary infection serum binds to a select set of highly immunodominant components of the complex protein mixture of HES, which were identified as venom allergen-like proteins (VALs). Utilising four strains of mice that vary in their resistance phenotype to H. polygyrus, several aspects of immunity towards the worm were investigated. Increased levels of markers of alternatively activated macrophages, which are a key component of the granulomatous inflammatory response around invading H. polygyrus larvae, were found in the most resistant strains, SJL and BALB/c. Depletion of macrophages, by administration of clodronate, severely disrupted the granuloma and parasite clearance. Numbers of innate lymphoid cells and the subsequent Th2 response, specificity range and titre of antibody, and activation of regulatory T cells all correlate with a resistant phenotype. A deficiency in the cytokine macrophage migration inhibitory factor (MIF) renders a resistant BALB/c mouse completely susceptible to infections with H. polygyrus, and Nippostronygylus brasiliensis, an acute model of GI helminth infection. This is accompanied by a failure to induce both ILCs and an early myeloid-derived cell population upon infection. The influx of alternatively activated macrophages around larvae in the mucosa of the small intestine is delayed in MIF-/- mice, although all immunological parameters are comparable to wild-type by day 14 post-infection. The susceptible phenotype of MIF-/- mice can be replicated using a chemical inhibitor of MIF in BALB/c mice. Finally, the previously documented transforming growth factor-β (TGF-β) activity of HES was dissected out further using two methods of fractionation. Distinct fractions with TGF-β activity were subjected to mass spectrometry to identify protein components that could be potential candidates for this activity.

616.07