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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

Combating Stress: The Use of Isoflavones as Nutraceuticals to Improve Immunity and Growth in Nile Tilapia (<i>Oreochromis niloticus</i>)

Destin J Furnas (6632267) 10 June 2019 (has links)
Stressors in the aquaculture environment can lead to negative impacts on growth and immune health, resulting in susceptibility to infectious diseases. These stressors are expected to increase as the growth of aquaculture continues to rise to meet demands for quality fish protein. Isoflavones, as a crude extract or as a pure isolate, may be effective in modulating the stress response, promoting growth and immunity. The objective of these studies was to examine the effect of various pure isoflavone isolates and crude isoflavone extracts on stress, growth, and immunity. Nile tilapia (Oreochromis niloticus) were stressed by adding hydrocortisone to the feed. In a 7-week study, pure isoflavone isolates of genistein and puerarin were evaluated to determine their respective effects on stress, growth, and immunity. A separate 10-day physiological and 6-week growth study focused on crude isoflavone extracts from kudzu (Pueraria lobata), red clover (Trifolium pratense), and soybean (Glycine max) was performed to determine their respective effects on stress, growth, and immunity. Numerous physiological parameters of the fish were measured (serum cortisol concentration, blood glucose concentration, hematocrit, hepatosomatic index, plasma protein concentration, lysozyme activity, and spleensomatic<br>index) to determine the effects of these pure isoflavone and crude isoflavone extracts on the modulation of stress and immunity. Many growth parameters were examined (length, weight, condition factor, weight gain, specific growth rate, feed intake, feed conversion ratio, and protein efficiency ratio) as well to determine the effects of these pure isoflavones and isoflavone extracts on growth. The addition of isoflavone and crude isoflavone extracts to the diet of Nile tilapia ameliorated some of the negative consequences of stress. Compared to stressed fish fed commercial feed, genistein and puerarin added to the diet appeared to improve serum cortisol concentrations, which resulted in increased plasma protein, albeit at different durations of stress. Puerarin, as well as all three crude isoflavone extracts, significantly increased spleen-somatic index compared to non-supplemented stressed fish, although the crude isoflavone extracts did not appear to improve serum cortisol concentrations. Crude isoflavone extracts also showed overall increases in lysozyme activity compared to non-supplemented stressed fish, although this was not significant. Genistein, puerarin, and red clover showed increased growth rates, feed conversion ratio, and protein efficiency. Overall, pure isolates of isoflavone appear to be more effective in modulating stress, immunity, and growth than the crude isoflavone extracts, although red clover extract showed promises in the ability to modulate the stress response and improve growth and immunity. There are likely substantial interactions between the isoflavones in the crude extracts that cannot be fully understood by measuring the effects of single isoflavones. Regardless, isoflavone supplementation (pure or crude) appeared to generally have an overall positive impact on stressed Nile tilapia, requiring more research to better understand the effects and mechanisms behind these isoflavones.
52

Caractérisation de IrSPI, un inhibiteur de sérine protéase impliqué dans la prise du repas sanguin et l’infection bactérienne des tiques Ixodes ricinus. / Characterization of IrSPI, a serine protease inhibitor implicated both in tick feeding and tick bacterial infection of Ixodes ricinus.

Blisnick, Adrien 21 February 2019 (has links)
Ixodes ricinus est l’espèce de tique la plus abondante et ayant la plus vaste répartition géographique en Europe. Elle est le vecteur de nombreux agents pathogènes d’importance en santé publique et vétérinaire. Le remplacement des acaricides générant pollution environnementale et apparition croissante de résistances requiert le développement urgent de nouvelles stratégies de lutte efficaces contre les tiques et les agents pathogènes qu’elles transmettent. La découverte de telles stratégies passe nécessairement par une meilleure connaissance des interactions entre les tiques, leurs hôtes et les agents pathogènes transmis. La salive de tique, à l’interface de ces interactions, est un fluide essentiel pour ces arthropodes et possède notamment des propriétés protéolytiques, anticoagulantes, immunomodulatrices, analgésique, et anti-inflammatoires qui permettent à la tique de réaliser ses repas sanguins extrêmement longs. Afin de comprendre les mécanismes moléculaires impliqués dans la transmission des agents pathogènes et pour identifier de possibles candidats vaccinaux contre I. ricinus, une étude transcriptomique comparative entre des glandes salivaires infectées et non infectées par la bactérie Bartonella henselae a été antérieurement réalisée. Le transcrit le plus surexprimé suite à cette infection était IrSPI, un inhibiteur de sérine protéase de la famille des Kunitz. Les analyses fonctionnelles par ARN interférence ont montré l’implication de ce gène dans le gorgement et de l’infection des glandes salivaires par B. henselae. Ainsi, les travaux de thèse présentés ici ont concerné l’analyse structurelle, biochimique et fonctionnelle de IrSPI en tant que molécule impliquée dans les interactions tick-hôte-pathogène. Le premier objectif était de définir la structure et la séquence du gène IrSPI mais, malheureusement, bien que nos résultats aient permit des avancés sur cette question, nous n'avons pu obtenir la totalité de sa séquence. Dans un second temps, la dynamique d’expression d’IrSPI a été évaluée au cours du gorgement et de l’infection des tiques par différents agents pathogènes, montrant que son expression est induite par le repas sanguin, par des agents transmis par la tique mais pas par Escherichia coli, bactérie non transmise. De plus, nos résultats ont montré l’expression de IrSPI dans plusieurs organes de la tique, suggérant son implication dans diverses fonctions au sein de ce vecteur. Parmi elles, la mise en évidence d'une injection, par la salive, de la protéine à l'hôte vertébré nous a permis d'envisager un rôle sur les réponses de l'hôte à la piqûre de tique. Nos résultats n’ont montré aucune implication dans la voie extrinsèque de la coagulation ni dans la fibrinolyse, ni dans l’angiogenèse. En revanche, ils ont démontré que IrSPI inhibe la prolifération des lymphocytes TCD4+ sous stimulation monogénique quand chez des lymphocytes B non stimulés IRSPI, il induit une hausse de la prolifération. De plus IrSPI a montré une action négative significative sur la production de la majorité des cytokines et chimiokines pro-inflammatoires produites par les macrophages et les splénocytes. Ainsi, IrSPI, correspond à un des composants salivaires d’I. ricinus lui permettant de moduler la réponse immune de l’hôte pour lui permettre de prélever son repas sanguin tout en favorisant la transmission des agents pathogènes. Enfin, des résultats préliminaires dans l'identification des interactants de IrSPI à la fois chez la tique et l’hôte vertébré ouvre de nombreuses voies de recherche quant à la compréhension de ses fonctions. / Ixodes ricinus tick species, the most abundant and widespread tick in Europe, is an important vector of pathogens affecting both animal and human health. To replace the use of acaricides that generate environmental contamination and resistances, new environmentally sustainable approaches providing broad protection against ticks and tick-borne pathogens (TBP) are urgently needed. Such development requires improved understanding of the biology of ticks and more particularly of their interactions with vertebrate hosts and TBP. Tick saliva is an essential biofluid for ticks, as its proteolytic, anticoagulant, immunomodulatory, analgesic and anti-inflammatory activities allow ticks to acquire their blood meal under optimal conditions. Moreover, injection of saliva during blood feeding represents the principal route by which TBP are transmitted to the host. To understand the molecular mechanisms involved in TBP transmission, as well as to identify putative vaccine candidates against I. ricinus, salivary glands from bacteria infected and uninfected ticks were previously compared by high throughput transcriptomics. The most up-regulated transcript following infection was IrSPI, which belongs to the Kunitz/BPTI inhibitor family. Functional analyses via RNAi knockdown experiments revealed that IrSPI enhances both blood feeding and bacterial burden in the salivary glands. This present PhD work concerns then the structural, biochemical and functional characterization of IrSPI as a molecule involved in tick-host-pathogen interactions. Our aim was first to define the structure of IrSPI gene but, unfortunately, while our results have led to progress on this issue, we have not been able to get the full sequence. Then, the dynamic of IrSPI expression was evaluated during both tick feeding and colonization of ticks by pathogens, showing that its expression is induced by blood feeding and TBP but not by Escherichia coli that is not transmitted by I. ricinus. In addition, our results shown the expression of IrSPI in several tick organs, suggesting its implication in several functions in tick physiology. Among them, the discovery of the injection of IrSPI, through the saliva, to the vertebrate host allowed us to consider a role in host responses to tick bite. Evaluation of IrSPI effect on host showed no impact on coagulation through extrinsic pathway, as determined by analysis of thrombin generation time and by fibrinolysis, or in angiogenesis. However, it inhibited the proliferation of mitogen-stimulated CD4+ lymphocytes and increased unstimulated-B cell proliferation. In addition, IrSPI also modulated cytokine production from macrophages and splenocytes, repressing significantly most of proinflammatory cytokines and chemokines. Thus, we demonstrated that IrSPI plays a role in modulating the host immune response during blood feeding. Finally, preliminary results in the identification of the protein’s interactants open many research perspectives for understanding how IrSPI acts in tick physiology and counteracts host responses to tick injury and pathogen transmission.
53

Rôle de la réponse immunitaire de type 2 dans la réparation tissulaire : du concept au modèle pratique de la sclérodermie systémique / Role of type 2 immune responses in tissue repair : from conceptual aspects to practical model of systemic sclerosis

Laurent, Paôline 12 November 2018 (has links)
Pour beaucoup d’entre nous, y compris pour de nombreux immunologistes, le rôle du système immunitaire est restreint à un rôle de défense contre différents pathogènes, tels que les bactéries et les virus. Pourtant, il devient de plus en plus incontestable que le système immunitaire est impliqué dans de nombreux autres phénomènes que peuvent être le cancer, l’obésité et la réparation tissulaire. Au cours de cette thèse, nous nous sommes intéressés à l’implication des cellules immunitaires, et plus particulièrement des cellules immunitaires innées, dans le mécanisme de réparation tissulaire. Par la suite, nous avons approfondi ce travail en nous focalisant sur les dérégulations de la réparation tissulaire. Ces dérégulations peuvent donner lieu notamment à des phénomènes de « sur-réparation » telle que la fibrose. La fibrose est définie comme un dépôt excessif de matrice extracellulaire par les fibroblastes en réponse à des molécules profibrotiques tels que le TGFβ ou l’IL-13. Nous nous sommes donc intéressés au rôle de la réponse immunitaire innée dans la fibrose en nous concentrant sur deux types de cellules immunitaires innées : les macrophages et les cellules lymphoïdes innées de type 2 (type 2 innate lymphoïde cells, ou « ILC2 »). Nous avons choisi comme modèle d’étude la sclérodermie systémique, maladie auto-immune caractérisée principalement par la fibrose pouvant toucher la peau et/ou les organes internes. Outre la fibrose, cette pathologie est également associée à des anomalies vasculaires et immunitaires. Les mécanismes liant ces trois caractéristiques sont encore mal définis et mal connus. Il est donc nécessaire de comprendre la physiopathologie de cette maladie et d’établir précisément l’implication de la réponse immunitaire dans la fibrose afin d’offrir un traitement thérapeutique pour les patients sclérodermiques et plus généralement pour toutes les maladies fibrotiques. Dans un premier temps, nous montrons, en cytométrie de flux, une diminution des ILC2 dans le sang des patients sclérodermiques par rapport aux témoins (0,007 ± 0,007% vs. 0,01 ± 0,01%, p=0,001). Chez les sujets sclérodermiques, cette baisse de la fréquence des ILC2 circulantes est inversement corrélée à l’atteinte de la fibrose cutanée définie par le score de Rodnan (R=-0,35, p=0,0062). Nous observons une augmentation de ces cellules dans la peau sclérodermique comparé à celle des contrôles (5,015 ± 2,8% vs. 2,816 ± 1,8%). Ce résultat est positivement corrélé au score de Rodnan (r=0,58, p=0,01). Nous obtenons des résultats similaires en immunofluorescence. Un phénotypage des ILC2 dermales nous a permis d’observer une diminution de l’expression de KLRG1 dans la peau des malades. En collaboration avec l’équipe du Pr. Batteux, nous avons étudié le rôle des ILC2 dans un modèle murin de sclérodermie. Nous observons une augmentation cutanée des ILC2 et cela même avant l’établissement de la fibrose au niveau de la peau des souris sclérodermiques (16677 ± 3068 vs. 9091 ± 474). Puis, nous montrons, in vitro, que les ILC2 stimulées par le TGFb perdent l’expression de KLRG1. Au contact des ILC2 stimulées par le TGFb, les fibroblastes deviennent pro-fibrotique en comparaison à l’incubation avec des ILC2 non stimulées. Ces résultats apportent de nouvelles connaissances dans la physiopathologie de la sclérodermie systémique et plus particulièrement dans la fibrose caractérisant cette maladie, ce qui offre des perspectives thérapeutiques potentielles. L’approche conceptuelle du rôle du système immunitaire dans la réparation tissulaire proposée dans cette thèse renouvelle notre vision de l’immunité et ouvre potentiellement un nouveau champ, encore sous-estimé, de thérapies ciblant le système immunitaire. / For many of us, including many immunologists, the role of the immune system is limited to a defense role against different pathogens such as bacteria and viruses. Yet it is becoming increasingly clear that the immune system is involved in many other phenomena such as cancer, obesity and tissue repair.During this thesis, we were interested in the involvement of immune cells, and more particularly innate immune cells, in the tissue repair mechanism. Subsequently, we deepened this work by focusing on the deregulations of tissue repair. These deregulations can lead to "over-repair" phenomena such as fibrosis. Fibrosis is defined as an excessive deposition of extracellular matrix by fibroblasts in response to profibrotic molecules such as TGFβ or IL-13. We therefore focused on the role of the innate immune response in fibrosis by focusing on two types of innate immune cells macrophages and innate lymphoid cells of type 2 (ILC2). We chose systemic scleroderma, an autoimmune disease characterized mainly by fibrosis that can affect the skin and/or internal organs, as our study model. In addition to fibrosis, this pathology is also associated with vascular and immune abnormalities. The mechanisms linking these three characteristics are still poorly defined and poorly understood.It is necessary to understand the physiopathology of this disease and to establish precisely the involvement of the immune response in fibrosis in order to offer therapeutic treatment for scleroderma patients and more generally for all fibrotic diseases.First, we show, in flow cytometry, a decrease of ILC2 in the blood of scleroderma patients compared to controls (0.007 ± 0.007% vs. 0.01 ± 0.01%, p=0.001). In scleroderma subjects, this decrease in the frequency of circulating ILC2 is inversely correlated with skin fibrosis defined by Rodnan's score (R=-0.35, p=0.0062). We observe an increase in these cells in the scleroderma skin compared to controls (5.015 ± 2.8% vs. 2.816 ± 1.8%). This result is positively correlated to Rodnan's score (r=0.58, p=0.01). We obtain similar results in immunofluorescence. In collaboration with Prof. Batteux's team, we studied the role of ILC2 in a mouse model of scleroderma. We observe an increase in cutaneous ILC2 even before fibrosis is established in the skin of scleroderma mice (16677 ± 3068 vs. 9091 ± 474). Then, we show, in vitro, that ILC2 stimulated by TGFb lose the expression of KLRG1. Upon contact with TGFb-stimulated ILC2, fibroblasts become pro-fibrotic compared to incubation with unstimulated ILC2.These results bring new knowledge in the physiopathology of systemic scleroderma and more particularly in the fibrosis characterizing this disease, which offers potential therapeutic prospects.The conceptual approach to the role of the immune system in tissue repair proposed in this thesis renews our vision of immunity and potentially opens up a new and still underestimated field of therapies targeting the immune system.STAR
54

Grainy head target genes in epithelial morphogenesis and wound healing

Wang, Shenqiu January 2010 (has links)
grainy head (grh) genes encode a family of transcription factors conserved from fly to human. Drosophila grh is the founding member of this gene family and has multiple functions, including tracheal tube size control, epidermal barrier formation and reconstruction after wounding. To understand the underlying molecular mechanism of grh functions, we tried to isolate its direct targets and analyze their function. We identified ten grh targets by combining bioinformatics and genetics. Grh directly controls the expression of stitcher (stit), which encodes a Ret family receptor tyrosine kinase (RTK), during both development and wound healing. Stit promotes actin cable assembly and induces extracellular signal-regulated kinase (ERK) phosphorylation around the wound edges upon injury. Stit also activates barrier repair genes and its own expression at the wound sites in a Grh-dependent manner. This positive feedback loop ensures efficient epidermal wound repair. In addition, Grh regulates the expression of multiple genes involved in chitin biosynthesis or modification. Most of the genes are required for tracheal tube size control. Two of them, verm and serp, encode related putative luminal chitin deacetylases. The functional analysis of verm and serp identifies an important role of luminal chitin matrix modification in limiting tracheal tube elongation. Therefore, it is very likely that Grh controls tracheal tube size through regulating multiple targets involved in the assembly or modification of luminal chitin matrix. Grh also directly activates the epidermal expression of Peptidoglycan recognition protein LC (PGRP-LC) gene that is required for the induction of antimicrobial peptides (AMPs) upon infection. Furthermore, ectopically expressing Grh is sufficient to induce AMP Cecropin A lacZ reporter (CecA-LacZ) in the embryonic epidermis. These results suggest a new function of Grh in the local immune responses in Drosophila barrier epithelia. / At the time of the doctoral defense, the following papers was unpublished and had a status as follows: Paper 1: Manuscript.
55

Protein based approaches to understand and prevent contagious bovine pleuropneumonia

Hamsten, Carl January 2009 (has links)
Contagious bovine pleuropneumonia (CBPP) is a severe infectious disease caused by Mycoplasma mycoides subsp. mycoides small colony type (M. mycoides SC) and is a vast problem in Africa. Current CBPP prevention is based on attenuated live strain vaccines, but these are limited by factors such as short-term immunity, cold-chain dependence and retained virulence. CBPP can be diagnosed using post-mortem examination, identification of the agent using culture and PCR based methods as well as serological diagnostic methods, but the latter are generally not sensitive enough and there is also demand for an inexpensive, pen side field test.The research presented in this thesis was focused on using recombinantly expressed surface proteins from M. mycoides SC to characterize humoral immune responses to CBPP. Thereby candidate proteins to be used in development of serological diagnostic methods and possibly subunit vaccines could be identified. As a first step, five putative variable surface proteins of M. mycoides SC were expressed and purified from E. coli in Paper I. These proteins were analyzed using immunoblotting techniques and results showed that one protein, MSC_0364, was variably expressed on the surface of M. mycoides SC in vitro. Paper II presents expanded efforts including cloning and expression of 64 recombinant surface proteins and an assay for high throughput analysis of protein-specific IgG, IgA and IgM titers in hundreds of sera using a bead-based screening assay. The assay was evaluated by protein-specific inhibition experiments, comparisons to Western blotting and monitoring of immune responses over time in a study with sera taken from eight animals over 293 days from a previous vaccine trial.Papers III and IV present applications using the recombinant proteins and bead-based screening assay wherein proteins for diagnostic and vaccine development were identified. In Paper III, the assay was used to screen 61 proteins using well-characterized serum samples from cattle with CBPP and healthy controls, resulting in selection of eight proteins suitable for diagnostic use. These proteins were combined and evaluated in a proof-of-concept ELISA with a discriminative power that enabled 96% correct classification of sera from CBPP-affected and CBPP-free bovines. Paper IV reports the results and protein-specific analyses of a vaccine trial using the recombinant putative variable surface proteins presented in Paper I as a subunit vaccine. The vaccine conferred no protection, but a weak vaccine response could not be excluded as the cause of failure. In an effort to identity other protein candidates to be used in a subunit vaccine, protein-specific analysis of humoral immune responses elicited by the currently approved live strain vaccine, T1/44, were investigated. Here, five proteins with high IgG titers associated to immunity were identified: LppQ, MSC_02714, MSC_0136, MSC_0079 and MSC_0431. These proteins may be important in the development of a novel subunit vaccine against CBPP. / QC 20100719
56

Maternal and neonatal immune responses to pneumococcal protein antigens in relation to risk for early upper respiratory tract (URT) pneumococcal carriage in a high-risk population in Papua New Guinea

Francis, Jacinta Piwen January 2009 (has links)
[Truncated abstract] Pneumococcal exposure is high and life-long in developing countries including Papua New Guinea (PNG), with children under 2 years of age being at most risk for early upper respiratory tract pneumococcal carriage and infection. Deaths from pneumococcal diseases such as pneumonia and meningitis are common and likely the result of an absence of vaccination programmes. The need for effective and affordable pneumococcal vaccines has led to the testing of protein antigens including pneumolysin (Ply) and pneumococcal surface protein A (PspA) as novel vaccine antigens. Little is known on the immune responses to these proteins in humans, particularly in high-risk populations where such vaccines will be of most benefit. In this study, we examined the roles of naturally acquired antibody and cellular immune responses in mothers and newborns to Ply and PspA family 1 (PspA1) and family 2 (PspA2) in protection against or risk for early carriage in a high-risk PNG population. Antibodies to Ply, PspA1 and PspA2 were measured in plasmas of 241 mothers and 115 newborns (cords) from PNG, and 50 Australian mothers using an enzyme-linked immunosorbent assay (ELISA). Pernasal swabs were collected from PNG mothers at the time of delivery, one month post-partum, and weekly within the first month of life from their newborns to determine pneumococcal carriage. Cellular immune responses to Ply, PspA1 and PspA2, the TLR2/TLR4 ligands, LTA and LPS and to PHA were measured in cord blood mononuclear cells (CBMC) of 84 PNG versus 33 Australian newborns. Innate and T-cell cytokine responses in the PNG newborns were then analysed to determine their effect on infant pneumococcal carriage. ... No protective effect against infant pneumococcal carriage was observed with maternal and cord IgG levels for all antigens. Maternal carriage at time of delivery increased the risk for infant pneumococcal carriage in the first month of life (HR: 1.93, 95% CI 1.36 – 2.73, p = 0.001) with 70% of infants being colonised. Papua New Guinean newborns produced higher innate IL-10 and IFN-¿ (p = 0.003) and TNF-a (p < 0.001) to Ply compared to Australian newborns with no significant differences observed for IL-6 or IL-12. IFN-¿ responses to LPS and LTA (p = 0.005 and p < 0.001) were higher in PNG than Australian newborns, while IL-6, IL-10 (p < 0.001) and TNF-a (p = 0.002) to LPS with LTA-induced IL-6 and IL-10 (p < 0.001) were higher in Australian newborns. T-cell IL-5, IL-10, IL-13, IFN-¿, IL-6 and TNF-a response levels to PspA and PHA stimulation were significantly high in PNG newborns. No differences were observed for cytokine responses to Ply and PspA between PNG infant pneumococci carriers and non-carriers. Papua New Guinean infants are colonised by pneumococci very early in life and this may be influenced by high maternal carriage rates. PspA- and Ply-IgG levels are high in PNG mothers and undergo cross placental transfer but do not appear to be protective against early pneumococcal carriage. In PNG newborns, PspA elicits T-cell responses, while Ply drives more innate cellular responses, neither were demonstrated to have a protective effect against early carriage though further work is required to better define these and their relation to immune development in early childhood.
57

Estudo da resposta imune celular e humoral de cães frente à infecção oral por Neospora caninum

Mineo, Tiago Wilson Patriarca [UNESP] 15 March 2007 (has links) (PDF)
Made available in DSpace on 2014-06-11T19:33:26Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-03-15Bitstream added on 2014-06-13T19:23:20Z : No. of bitstreams: 1 mineo_twp_dr_jabo.pdf: 3433348 bytes, checksum: fac62f81f1b33434ac64c0e811ae8d5a (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Neospora caninum é um protozoário do Filo Apicomplexa, que foi primeiramente descrito como causa de encefalomielite em filhotes caninos sorologicamente negativos para Toxoplasma gondii. Estudos anteriores neste importante hospedeiro da cadeia epidemiológica de N. caninum demonstram que as respostas de anticorpos IgG são tardiamente detectadas e que a infecção clínica é de difícil indução. Desta forma, este trabalho objetivou o estudo da imunidade de cães frente à infecção oral por N. caninum. Os resultados obtidos a partir de análises de diversos animais experimentalmente infectados indicam que os cães apresentam uma prolongada fase aguda da infecção, com eliminação de oocistos associado à queda nos níveis de linfócitos T CD4+ e CD8+ e diminuição de MHC de classe II por células apresentadoras de antígeno. Adicionalmente, os animais apresentam soroconversão instável durante o mesmo período, sendo que somente IgG1 e IgG3 foram detectados em adultos e filhotes, respectivamente, entre o 2o e 3o mês de infecção. De forma concomitante, observa-se uma predominância da expressão de citocinas imunomoduladoras como TGF 1, IL-4 e IL-10. Após dois meses de infecção, o perfil da resposta se inverte, sendo observado picos de produção dos marcadores CD4 e CD8 de linfócitos T e citocinas próinflamatórias como IFN , IL-6 e IL-12, além do aumento nos títulos de anticorpos, principalmente IgG1 e IgG4 nos cães jovens. Com base nestes resultados, conclui-se que os cães apresentam uma relação de equilíbrio com N. caninum, a qual induz nesta espécie uma modulação da resposta imunológica durante a fase de merogonia. / Neospora caninum is an Apicomplexan parasite firstly described as the cause of encephalomyelitis in puppies serologically negative to Toxoplasma gondii. Previous reports on the parasite s definitive host indicate a late IgG antibody response and that clinical disease is difficult to be induced. The aim of this study was to investigate canine immunity during N. caninum oral infection. The results obtained from the analysis of infected animal s samples indicate that dogs present a protracted acute phase, with oocyst shedding correlated to a drop in CD4+ and CD8+ T cell levels, and low MHC class II expression by antigen presenting cells. Additionally, the dogs presented an unstable seroconversion pattern in the same period, with only IgG1 and IgG3 being detected in adult dogs and puppies, respectively, between the second and third months of infection. Concomitantly, dominant Th2 cytokine expression was observed, with peak expression levels of TGF 1, IL-4 and IL-10. After 2 months of infection, the immunity profile shifts towards a Th1 response, with high levels of CD4 and CD8 lymphocytary marker production and pro-inflammatory cytokine expression (IFN , IL-6 and IL-12), besides of the raise in antibody levels, especially IgG1 and IgG4 in puppies. Based in the results presented herein, we may conclude that dogs present a balanced host-parasite relationship, modulating the host immune response during N. caninum merogony.
58

Inflammatory and helper T lymphocyte responses in human abdominal aortic aneurysm

Galle, Cécile 16 October 2006 (has links)
Summary of the work<p>Abdominal aortic aneurysm (AAA) is a chronic degenerative disease that usually affects men over 65 years with an estimated prevalence of 5%. Aneurysm rupture represents a catastrophic event which carries a mortality rate of almost 90%. Current therapeutic options for AAAs measuring 5.5 cm in diameter or larger are based on prophylactic surgery, including conventional open reconstruction and endovascular stent-graft insertion. For patients with small asymptomatic AAAs (4.0 up to 5.5 cm in diameter), evidence from two recent large randomized controlled trials indicates no long-term survival benefit from immediate elective surgical repair as compared to imaging surveillance until aneurysm expands to 5.5 cm. This highlights the need for development of novel medical management strategies, including selective pharmacologic approaches, directed at preventing aneurysm expansion. In this regard, it is expected that a detailed knowledge of the pathobiology of human AAA lesion and a better understanding of pathophysiological mechanisms underlying initiation and progression of aneurysmal degeneration, particularly the specific involvement of T lymphocytes, will have special relevance to this challenging issue.<p>Inflammatory and helper T-cell responses in abdominal aortic aneurysm :controversial issues<p>Innate and inflammatory responses to endovascular versus open AAA repair. The occurrence of early acute systemic inflammatory responses after conventional open AAA repair is widely recognized and is thought to lead to the development of organ dysfunction and multiple organ failure, responsible for a large proportion of morbidity and mortality associated with aortic surgery. New therapeutic strategies designed to avoid ischemia-reperfusion injury related to aortic cross-clamping and to minimize the degree of tissue damage have thus been developed recently. Specifically, the advent of endovascular techniques has radically extended management options for patients with AAA. Although the method is believed to offer a clear short-term benefit over open repair, notably as regards restricted perioperative haemodynamic parameter fluctuations, reduced blood loss, briefer duration of surgery, shorter hospital stay, and lower 30-day mortality and complication rates, conflicting data are available regarding the exact nature and extent of the inflammatory events arising after such endoluminal procedures ;while several authors have indeed reported that endovascular AAA repair can determine a less intense and extensive inflammatory response, others have unexpectedly observed that the method may elicit a strong inflammatory response, the so-called « postimplantation syndrome ».<p>Adaptive cellular immune responses in human aneurysmal aortic lesion.<p>The inflammatory nature of AAA disease has long been suggested by the presence of a great number of CD4+ T lymphocytes in the outer media and adventitia of human AAA lesion. Interestingly, such infiltrating T-cell populations may have significant implications in the process of aneurysm dilation, since cytokines produced by T cells, notably IFN-gamma, have previously been shown to modulate production of matrix-degrading enzymes by resident macrophages and to induce apoptosis of medial SMCs. Through these key pathological mechanisms, T cells could potentially contribute to orchestrate aortic wall connective tissue disordered remodeling and degradation, and promote extensive disruption of elastic media, ultimately leading to aneurysmal degeneration. Nevertheless, despite their relative abundance in human AAA wall tissues, there is limited and controversial information as regards the functional profile of lesional lymphocytes, the exact nature of aortic wall adaptive cellular responses, and the etiologic role of T cells and their cytokines in initiation and progression of the aneurysmal process. Indeed, both Th1-type and Th2-type responses have been identified in human studies and experimental animal models of AAA.<p>Aims of the work<p>The main objectives of our work were to explore the innate and adaptive cellular immune responses in human AAA. In the first part of our work, we aimed to examine prospectively innate and inflammatory responses arising in a non-randomised cohort of patients undergoing endovascular versus open AAA repair. In the second part of our work, we focused our efforts on characterizing the nature of adaptive cellular immune responses and the phenotypic and functional repertoire of T cells in human AAA wall tissues obtained from a consecutive series of patients undergoing open AAA repair. Specifically, we sought to determine whether type 1 or type 2 responses occur predominantly in advanced AAA lesion.<p>Main experimental findings<p>Limited inflammatory response after endovascular AAA repair. Serial peripheral venous blood samples were collected preoperatively, immediately after declamping or insertion of endograft, and after 1, 3, 6, 12, 24, 48, and 72 hours. We first examined the acute phase reaction and liberation of complement cascade products using turbidimetric method and nephelometry. We found that endovascular repair produced lower postoperative CRP, leucocytosis, neutrophilia, and C3d/C3 ratio as compared to open surgery. We next analyzed surface expression of activation markers on peripheral CD3+ T cells using flow cytometry. We observed a strong upregulation of CD38 after open but not endovascular repair. Analysis of CD69 and CD25 molecules revealed no perioperative fluctuations in any group. We then investigated release of various circulating soluble cell adhesion molecules, proinflammatory cytokines, and chemokines using enzyme-linked immunosorbent assays. We demonstrated that both procedures are characterized by similar increases in ICAM-1 and IL-6 levels. Finally, tendency towards high levels of TNF-alpha and IL-8 was detected in endovascular repair, but data failed to reach statistical significance.<p>Predominance of type 1 CD4+ T cells in human aneurysmal aortic lesion. We have developed a tissue enzymatic digestion and cell extraction procedure to isolate intact mononuclear cells from aortic wall segments. This original cell isolation protocol enabled us to examine ex vivo the presence, phenotype, and cytokine secretion profile of infiltrating T lymphocytes freshly isolated from human AAA tissues for comparison with their circulating counterparts using flow cytometry. We found that both populations of infiltrating CD4+ and CD8+ T cells display a unique activated memory phenotype, as assessed by an increased expression of CD69 and HLA-DR activation antigens, downregulation of CD62L molecule, and predominant expression of the CD45RO isoform characteristics of memory cells. In addition, we identified the presence in human aneurysmal aortic wall lesion of CD4+ T cells producing high levels of IFN-gamma but not IL-4, reflecting their type 1 nature. In an additional series of experiments, cytokine gene expression was determined in whole aneurysmal and non-diseased aortic samples using LightCycler-based quantitative real-time reverse transcription-polymerase chain reaction. The molecular basis of type 1 or type 2 dominant responses was further specified by analyzing mRNA levels of transcription factors specifically involved in Th1 or Th2 differentiation such as T-bet and GATA-3. We demonstrated that aneurysmal aortic specimens exhibit high transcript levels of IFN-gamma but not IL-4, and consistently overexpressed the IFN-g-promoting cytokine IL-12 and the type 1-restricted transcription factor T-bet, further establishing the prominent type 1 nature of aortic wall responses. Moreover, such selective tissue expression of IL-12 and T-bet in the vessel microenvironment points to a potential role for these signals in directing aortic wall responses towards a type 1 phenotype.<p>Conclusions<p>Our findings indicate that endovascular AAA repair is associated with a lesser degree of acute phase reaction, peripheral T-cell activation, and release of complement proteins as compared to conventional open surgery, suggesting that the innate and inflammatory responses to AAA repair are significantly attenuated by the endovascular approach as compared to the traditional open reconstruction. These results support the view that the endoluminal procedure represents an attractive alternative to open surgery for the treatment of large aneurysms. On the other hand, we have demonstrated that Th1 cell infiltrates predominate in human end-stage AAA lesion. These observations are relevant for helping clarify the pathobiology of human AAA tissues and defining prospects for the prevention of aneurysm expansion. Indeed, identification of such infiltrating populations of IFN-gamma-producing CD4+ T cells not only provide new insights into the pathogenesis of the disorder, but could also serve as a basis for the development of novel medical management strategies directed at preventing aneurysm formation and progression, including therapeutic approaches based on the modulation of aortic wall responses and designed to selectively target T-cell activation and cytokine production. In this respect, the present work provides experimental evidence in support of the emerging concept that, although multifactorial, aneurysm disease may be regarded as a Th1-driven immunopathological condition, and suggests that strategies targeting IFN-gamma could be a particularly exciting and fruitful avenue for further investigation. Ongoing clinical and basic research in these areas can be expected to yield design of promising pharmacologic approaches to control AAA expansion. From a clinical perspective, such efforts have the potential to dramatically influence both the outcome and management of this common and life threatening condition.<p> / Doctorat en sciences médicales / info:eu-repo/semantics/nonPublished
59

Antiviral Immune Responses to Invertebrate Iridescent Virus 6 in Drosophila

West, Cara C. 02 January 2018 (has links)
The innate immune system is a critical first line of defense against invading pathogens. Innate immunity directly detects pathogens, sets up an appropriate adaptive response, and can directly kill pathogens. Drosophila may lack an adaptive immune response, but have a robust innate immune system with a variety of defense effector mechanisms. While the responses to bacteria, fungi, and RNA viruses have been well characterized, not much is known about the response to DNA viruses. My studies have set out to characterize the Drosophila immune response to a DNA virus, utilizing the large dsDNA virus, Invertebrate Iridescent Virus 6 (IIV-6). IIV-6 infection causes shortened lifespan, and in later stages of infection, flies present with abdominal swelling and iridescent blue color. Our objectives were to identify pathways flies use to protect themselves from IIV-6 infection, determine how this protection is mediated, and to identify any immune inhibitors that IIV-6 uses to suppress innate immune signaling. I have found that IIV-6 strongly up-regulates a class of stress proteins with unknown function, termed Turandots, after infection in vivo or in vitro. This induction is dependent upon viral replication, requires JAK-STAT activation, and activation of p38b MAPK. In addition, the unpaireds, which function as JAK-STAT ligands, are upregulated after IIV-6 infection in a p38b-dependent manner. Together, this data suggests that p38b activation leads to production of unpaired cytokines and activation of JAK-STAT signaling to induce Turandots. I have also found that IIV-6 infected cells secrete protective factors. This response is induced within 12 hours of IIV-6 infection, exosome-mediated, and provides robust protection to naive cells challenged with an mCherry-expressing strain of IIV-6. Additionally, IIV-6 inhibits two major immune responses in Drosophila, the IMD and Toll pathways. Stimulation of IIV-6 infected Drosophila S2* cells with either IMD or Toll stimulators results in very poor antimicrobial peptide responses. Yet, IMD and Relish are still cleaved upon stimulation in IIV-6 infected cells, indicating that the block is downstream. In support of this finding, IIV-6 infected flies respond very poorly to infection with the enterobacteria Erwinia carotovora carotovora compared to mock-injected flies.
60

Pyroptotic and Necroptotic Cell Death in the Tumor Microenvironment and Their Potential to Stimulate Anti-Tumor Immune Responses

Scarpitta, Allan, Hacker, Ulrich T., Büning, Hildegard, Boyer, Olivier, Adriouch, Sahil 30 March 2023 (has links)
Cancer remains the second most common cause of death worldwide affecting around 10 million patients every year. Among the therapeutic options, chemotherapeutic drugs are widely used but often associated with side effects. In addition, toxicity against immune cells may hamper anti-tumor immune responses. Some chemotherapeutic drugs, however, preserve immune functions and some can even stimulate anti-tumor immune responses through the induction of immunogenic cell death (ICD) rather than apoptosis. ICD stimulates the immune system by several mechanisms including the release of damage-associated molecular patterns (DAMPs) from dying cells. In this review, we will discuss the consequences of inducing two recently characterized forms of ICD, i.e., pyroptosis and necroptosis, in the tumor microenvironment (TME) and the perspectives they may offer to increase the immunogenicity of the so-called cold tumors and to stimulate effective anti-tumor immune responses.

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