Global ETD Search

101	Efeitos do 2-AG, através da inibição da monoacilglicerol lipase, em um modelo murino de inflamação pulmonar aguda induzida por LPS / Effects of 2-AG, through monoacylglicerol lipase inhibition, in a murine modelo f acute lung injury LPS-induced Carolina Costola de Souza Pavani 27 November 2014 (has links) A sinalização por endocanabinóides é finalizada por meio de hidrólise enzimática; um processo que para o endocanabinóide 2-Arachidonoylglycerol (2-AG) é mediado pela lipase monoacilglicerol (MAGL). O JZL184, é um fármaco que apresenta alta seletividade na inibição da MAGL. Assim, o JZL184 aumenta os níveis de 2-AG que, por sua vez, atua sobre os receptores canabinóides CB1 e CB2 produzindo diversos efeitos como, por exemplo, o anti-inflamatório. A inflamação pulmonar aguda (ALI) e a sua forma mais grave, a síndrome do desconforto respiratório agudo (SDRA), em humanos, são doenças pulmonares, caracterizadas por infiltrado pulmonar bilateral com acúmulo de neutrófilos. A sepse é a causa mais comum da ALI/SDRA; aproximadamente 40% de pacientes com sépsis, também apresentam ALI ou ARDS e a ALI/ARDS são síndromes graves associadas com mortalidade superior a 40%. Considerando que não há cura para a ARDS / ALI, foi utilizado um modelo murino de ALI para averiguar se a inibição da MAGL seria capaz de aliviar os sintomas inflamatórios ou, até mesmo, promover a cura do processo. Para isso, foram analisados fatores que promovem a migração de leucócitos para o pulmão e o dano tecidual. Ainda, para avaliar se os LPS e/ou o JZL184 promoveram mudanças no sistema nervoso central, foram avaliados a atividade locomotora no campo aberto (CA), a ansiedade no labirinto (LCE), a capacidade de adaptação em CA e os níveis de glicocorticóides séricos, assim como os níveis hipotalâmicos de citocinas. Assim, o JZL184, foi administrado por via intraperitoneal (i.p.) e 60 minutos depois o LPS foi instilado por via intranasal. As análises foram realizadas 6, 24 e/ou 48 horas após a indução da ALI. Observou-se que a inibição MAGL diminuiu a migração de leucócitos para os pulmões, bem como a permeabilidade vascular e o dano tecidual. O JZL184 também reduziu os níveis de citocinas e quimiocinas e o extravasamento vascular no lavado bronco alveolar (LBA), a atividade de MPO no tecido pulmonar e a expressão da molécula de adesão no sangue e no LBA. Os receptores CB1 e CB2 foram considerados como envolvidos nos efeitos anti-inflamatórios produzidos pelo JZL184 porque o AM281, um antagonista seletivo do receptor CB1, e o AM630, um antagonista seletivo do receptor CB2, reduziram ou bloquearam os efeitos anti-inflamatórios para JZL184. O LPS e o JZL184 não promoveram comportamento doentio e tampouco alteraram os parâmetros de ansiedade. Entretanto, o LPS e/ou o JZL184 aumentaram a expressão gênica de citocinas hipotalâmicas. Concluiu-se que a inibição MAGL produziu efeitos anti-inflamatórios no modelo murino de ALI induzida por LPS, uma descoberta que foi considerada uma consequência da ativação dos receptores canabinóide CB1 e CB2. A inibição da MAGL pode ser, no futuro, uma ferramenta terapêutica relevante para o tratamento de inflamações pulmonares / Endocannabinoid signaling is terminated by enzymatic hydrolysis, a process that, for 2-Arachidonoylglycerol (2-AG), is mediated by monoacylglycerol lipase (MAGL). The JZL184, is a drug that inhibits MAGL and presents high potency and selectivity. Thus, JZL184 increases the levels of 2-AG, an endocannabinoid that acts on the CB1 and CB2 cannabinoid receptors, and has shown anti-inflammatory effects. Acute lung injury (ALI) and its most severe form the acute respiratory distress syndrome (ARDS), in humans, are lung diseases, characterized by bilateral pulmonary infiltrate with neutrophils accumulation. The sepsis is the most common cause of ALI / ARDS; approximately 40% of patients with sepsis have also ALI or ARDS. ALI and ARDS are severe syndromes associated with mortality 40% exceeding rates. Considering that there is no cure for ARDS/ALI, we used a ALI murine model to evaluate if the MAGL inhibition was able to alleviating the inflammatory symptoms or even promote the cure. For this, factors that promote migration of leukocytes into the lungs and the tissue damage were analyzed. Still, to assess whether LPS and / or JZL184 promoted changes in the central nervous system, the locomotor activity and ability to adapt were evaluated in the open field end the anxiety in the plus maze. Were also evaluated the glucocorticoid levels in the serum, and the hypothalamic levels of cytokines. Thus, the JZL184 was used intraperitoneally, 60 minutes after LPS was intranasally instilled and 6, 24 and/or 48 hours, after induction of ALI, analyzes were performed. It was observed that the MAGL inhibition decreased the leukocyte migration into the lungs as well as the vascular permeability and the lung damage. JZL184 also reduced the cytokine and chemokine levels and the vascular extravasation in the BAL, the MPO activity in the lungs and adhesion molecule expression in the blood and BAL. The CB1 and CB2 receptors were considered involved in the anti-inflammatory effects of JZL184 because the AM281, a selective CB1 receptor antagonist, and the AM630, a selective CB2 receptor antagonist, reduced or blocked the anti-inflammatory effects previously described for JZL184. The LPS and the JZL184 did not promote unhealthy behavior and did not change the parameters of anxiety. However, LPS and/orJZL184 increased gene expression of hypothalamic cytokines. It was concluded that MAGL inhibition produced anti-inflammatory effects in a murine model of LPS-induced ALI, a finding that was considered a consequence of the activation of the CB1 and CB2 cannabinoid receptors. The MAGL inhibition in the future may be a therapeutic tool for the pulmonary inflammation treatment Canabinóide Dano tecidual pulmonar Endocanabinóide JZL184 Lipopolissacarídeo Canabinnoide Endocanabinnoide JZL184 Lipopolysaccharide Lung damage
102	Modulação imunológica da relação mãe e filhote / Immunological modulation of the mother-pup interaction Amanda Florentina do Nascimento 06 July 2012 (has links) O comportamento maternal (CM) em mamíferos tem características específicas. O período logo após o parto é particularmente sensível a alterações fisiológicas que podem modular a expressão deste comportamento importante. Mudanças comportamentais observadas em animais doentes são consideradas comportamento doentio (CD). A exposição ao LPS, uma endotoxina derivada da parede de uma bactéria gran negativa, durante a gravidez pode causar doenças mentais. A fim de investigar, uma possível relação entre CM e CD, os animais foram tratados com LPS. Para o estudo do CM e agressivo, quarenta ratas foram divididos em quatro grupos, dois controles e dois grupos experimentais, com dez animais cada. O grupo experimental recebeu 100µg/kg de LPS por via i.p, e grupo controle o veículo de endotoxina, após quarenta e oito horas de administração de LPS, ou seja, no quinto dia de lactação, as observações começaram. Para escolha deste dia, ratas virgens e ratas lactantes foram divididas em quatro grupos, dois controles e dois experimentais, com dez fêmeas cada. O peso corporal, consumo de água, ração, e a temperatura corporal foram medidas para cento e vinte horas. As fêmeas do grupo controle foram observadas da mesma forma, mas foram tratados com o veículo do LPS. Observamos que: 1) Em ratas virgens e lactantes o tratamento com LPS modificou a temperatura e peso corporal, consumo de água e ração; 2) No período de lactação houve redução da latência para busca do primeiro filhote. Na prole verificou-se que: 3) Houve alteração no padrão de vocalização dos filhotes cujas mães foram expostas ao LPS no terceiro dia de lactação; 4) houve alteração no burst e fagocitose de enutrofilos no vigésimo primeiro dia de lactação após desafio com a endotoxina indicativo de maior resposta ao LPS. Concluiu-se que a exposição de ratos ao LPS facilita o comportamento maternal, mas promove alterações na sua prole relacionadas à interação entre mãe-filhote e aumento na resposta a um desafio imunológico. / Maternal behavior (MB) in mammals has specific characteristics. The time period just after parturition is particularly sensitive to physiological changes that can modulate the expression of this important behavior. Behavioral changes observed in sick animals, are considered as sick behavior (SB). Exposure to LPS, an endotoxin derived from the wall of a gran negative bacteria, during pregnancy might cause mental diseases. In order to investigate, a possible relationship between MB and SB, animals were treated with LPS. For the study of MB and maternal aggressive behavior, 40 rats were divided in 4 groups, 2 control and 2 experimental groups. The experimental group received 100µg/kg LPS by ip, and control group the vehicle of endotoxin, after 48 hours of LPS administration the observations of SB began. For choice these days, 20 virgin and 20 lactating rats were divided in 4 groups, 2 control and 2 experimental. They received ip 100µg/kg. Body weight, water and feed consumption, and body temperature were measured for 120h. Control females were observed in the same way, but they were treated with vehicle of LPS. The results showed that: 1) In 48 hours after the LPS treatment, virgin and lactating rats showed increased body temperature, loss of body weight, increased water consumption and decreased food consumption, 2) In 48 hours after the treatment with LPS, lactating rats showed reduced latency to retrieve the first pup to the nest. In the offspring of mothers treated with LPS it was found that: 3) Pups form mothers treated with LPS on the 5th day of lactation showed changes in the vocalization pattern; 4) Those pups showed changes in oxidative burst and phagocytosis on 21th day of lactation. It is concluded that exposure of rats to LPS promoted changes in the in the interaction between mother and pups. Comportamento doentio Comportamento maternal Dopamina Lipopolissacarídeo Mãe-filhote Behavior maternal Dopamine Lipopolysaccharide Nucleus accumbens Unhealthy behavior
103	Investigating bacterial factors important for the sinorhizobium meliloti-legume symbiosis Marlow, Victoria L. January 2009 (has links) In both the legume symbiont Sinorhizobium meliloti and the mammalian pathogen Brucella abortus, the inner membrane BacA protein is essential for host persistence. In free-living S. meliloti and B. abortus loss of the BacA protein also results in an increased resistance to the glycopeptide bleomycin and a ~ 50% decrease in the lipopolysaccharide (LPS) very-long-chain-fatty-acid (VLCFA) content. Consequently, it was proposed that BacA may be involved in transport of peptides into the cell and/or that BacA may be involved in the VLCFA modification of the LPS. During this work it was determined that the increased resistance observed in an S. meliloti DbacA mutant to bleomycin and to the truncated eukaryotic peptide Bac7(1-16), is independent of the VLCFA modification. These data support a model for BacA having multiple non-overlapping functions. Using flow cytometry studies with fluorescently labelled forms of bleomycin and Bac7(1-16) it was found that the BacA protein plays a role in the uptake of bleomycin. However, BacA was shown to be essential for the uptake of Bac7(1-16). Additionally, it was determined that two symbiotically defective bacA site directed mutants with known reductions in their VLCFA could still take up Bac7, suggesting that the BacA function that leads to the VLCFA modification could also play a key role in host persistence. To investigate further the role of BacA in the VLCFA modification and where in the cell envelope the lipid A is modified with the VLCFA, the role of the putative lipid trafficking protein MsbA2 was investigated. Interestingly, it was discovered that S. meliloti lacking the MsbA2 protein, is unable to enter host cells and induces a plant defence response more characteristic of a pathogen. To investigate the importance of the VLCFA modification during the symbiosis S. meliloti mutants lacking either the AcpXL (VLCFA acyl carrier protein) or LpxXL (VLCFA acyl transferase protein) were characterized in the host. Although not essential for host persistence, loss of each of the proteins did result in distinct defects, suggesting the VLCFA modification is important during the symbiosis. Since there are hundreds of nodule specific cysteine-rich peptides produced by the host plant Medicago truncatula, the BacA mediated uptake of one of these peptides combined with the VLCFA modification may account for the essential role of the BacA protein in the legume symbiosis. 571.29
104	Efeito do citral no choque endotoxêmico / Effect of citral on endotoxemic shock Borges, Gabriela Silva 23 March 2018 (has links) A sepse é caracterizada por uma produção excessiva de mediadores inflamatórios, acompanhada de taquicardia e hipotensão. Experimentalmente, a administração de endotoxina (Lipopolissacarídeo, LPS) em doses relativamente elevadas induz choque endotoxêmico, sendo um bom modelo de estudo da sepse. Diversos grupos têm demonstrado ações antiinflamatórias e antitumorais do citral, um composto do óleo essencial de Cymbopogon citratus. Nosso laboratório demonstrou ação antipirética do citral em modelo de febre induzida por LPS, acompanhada de redução nos níveis de citocinas plasmáticas e de prostaglandina E2 (PGE2) no plasma e área pré óptica do hipotálamo (POA), importante região termorregulatória. A hipótese testada neste trabalho foi a de que o citral atenua a hipotensão provocada pela endotoxina, além de amenizar as alterações termoregulatórias. Todos os procedimentos foram executados de acordo com os princípios éticos de experimentação animal, aprovados pelo comitê de ética local (CEUA 2015.1 1214 58-2). Foi realizado o implante de cânulas na artéria e veia femoral para registro da pressão arterial e administração de LPS (1,5 mg/kg) ou salina apirogênica 0,9% além do implante de datalogger na cavidade peritoneal de ratos Wistar, para registro da temperatura corporal. No dia do registro, 30 minutos antes da administração de LPS ou salina, os animais receberam citral (100 mg/kg) ou tween 80 a 1% (veículo) por via oral. Os parâmetros cardiovasculares e temperatura corporal foram registrados por 300 minutos após os respectivos tratamentos. Os valores de pressão arterial média (PAM) e frequência cardíaca (FC) foram coletados a cada 10 minutos após o tratamento e a temperatura corporal foi registrada pelo datalogger em intervalos de 5 minutos. Em outro protocolo foi realizado apenas o implante de cânula na veia femoral dos animais de todos os grupos para administração de LPS ou salina, coleta de sangue para dosagem de interleucina 6, PGE2, nitrito e nitrato e corticosterona e coleta do encéfalo para dosagem de PGE2 e PGD2. As diferenças estatísticas entre os grupos foram analisadas pelo teste ANOVA two-way seguido por pós teste de Newman-Keuls, com o nível de significância adotado de p < 0,05. A administração de LPS provocou queda na PAM eaumento na FC. Tais respostas não foram afetadas pela administração prévia de citral. O LPS também induziu febre e aumento nas concentrações plasmáticas de interleucina - 6 (IL-6), óxido nítrico (NO), PGE2 e corticosterona. Esses parâmetros não foram alterados pela pré- administração de Citral. No entanto, o citral provocou redução na produção de PGD2 naPOA, sem alterar a de PGE2 nesta região. Podemos concluir que o citral não previne as alterações nos parâmetros cardiovasculares no modelo de endotoxemia em ratos, porém reduz a produção de um mediador termorregulatório e inflamatório do sistema nervoso central (a PGD2), sem alterar a produção de outros mediadores inflamatórios a nível periférico (no plasma). Portanto, em um modelo mais agressivo de inflamação sistênica o citral não se mostrou suficiente para proteger o organismo das ações deletérias do LPS. / Sepsis is characterized by the overproduction of inflammatory mediators, accompanied by tachycardia and hypotension. Experimentally, administration of endotoxin (Lipopolysaccharide, LPS) in relatively high doses induces endotoxemic shock, a widely used model of sepsis in rats. Several groups have demonstrated anti-inflammatory and antitumor roles of citral, an essential oil compound of Cymbopogon citratus. Emilio-Silva et al. (2017) have shown an antipyretic role of citral in a model of LPS-induced fever, accompanied by a reduction of cytokines and prostaglandin E2 plasma levels and in the preoptic area of hypothalamus (POA), the hierarchically most important thermoregulatory region. We hypothesized that citral attenuates the LPS-induced hypotension, besides mitigating the thermoregulatory adjustments in rats. All procedures were performed in agreement with ethical guidelines for animal experimentation aproved by the local ethical committee (CEUA 2015.1 1214 58-2). Femoral artery and vein were implanted with cannulas for blood pressure recording and LPS (1.5 mg/kg) or 0.9% apyrogenic saline injection. In a second surgical procedure a datalogger was implanted into the peritoneal cavity for measurements of body temperature. All surgical procedures were performed under Ketamin/xilazin (100/10 mg/kg) anesthesia. One day after arterial catheterization, 30 minutes prior to LPS or saline administration, the animals received either citral (100 mg / kg) or 1% tween 80 (vehicle) oralstarly. The cardiovascular parameters and body temperature were recorded for 300 minutes after the respective treatments. Mean blood pressure (MAP) and heart rate (HR) were collected every 10 minutes after treatments and body temperature was recorded by the datalogger at 5 minute intervals. Blood samples were obtained in another set of rats for interleukin-6, PGE2, nitrite and nitrate and corticosterone analyses. The brain was removed for PGE2 and PGD2 analyses. Statistical differences between groups were analyzed by the two-way or one-way ANOVA test followed by Newman-Keuls post-test, with significance level adopted at p <0.05. As expected, LPS administration caused a decrease in MAP and an increase in HR, and these responses were not affected by citral. LPS also induced fever and increased plasma levels of interleukin - 6 (IL - 6), nitric oxide (NO), prostaglandin E 2 andcorticosterone. These parameters were also not altered by citral. On the other hand, citral caused a reduction in prostaglandin D2 concentration in the POA, but failed to alter PGE2 levels in this region. Our data are consistent with the notion that citral does not affect changes in cardiovascular and thermoregulatory parameters. Consistently, citral also caused no changes in both LPS-induced peripheral inflammatory mediators (in plasma) and in the POA, except PGD2. Therefore, in our model which mimetic a fairly critical situation, citral may not be sufficient to protect the organism from the deleterious actions of LPS. Financial support: FAPESP / CAPES. Choque séptico Citocinas inflamatórias Lipopolissacarídeo. Lipopolysaccharide. proinflammatory cytokine prostaglandinas prostaglandins Septic shock Termorregulação Thermoregulation
105	BEHAVIORAL AND PHYSIOLOGICAL ADAPTATIONS ASSOCIATED WITH FEED INTAKE DURING TRANSITIONING CATTLE TO HIGH-GRAIN DIETS McLean, Amanda M. 01 January 2019 (has links) Transitioning cattle from a high-forage to a high-concentrate diet increases the risk for ruminal acidosis and is often related to decreased feed intake, which compromises animal health and performance. Since control of feed intake and rumen motility are closely related, we hypothesized that a reduction in rumen motility may be associated with a reduction in feed intake during this transition. Computer programs were created to analyze feed disappearance and rumen pressure data for feeding behavior as well as identification and characterization of rumen contractions, respectively. This method enabled timely analysis of large datasets and removed subjectivity associated with manual analysis. In the second part of this series, cattle were moderately transitioned from a 70% to a 90% concentrate diet, and SARA was induced. Although, reductions in feed intake were modest, on day 2 of high-grain feeding, animals slowed feed consumption rate and displayed a reduction in rumen contraction frequency, amplitude, and duration. Next, an abrupt transition from 50% to 90% concentrate was used to induce ruminal acidosis and cause some animals to stop eating. The abrupt increase in dietary concentrate was also associated with reductions in rumen motility. Patterns of ruminal pH, viscosity, and motility changes were related to when cattle reduced feed intake. Endotoxin quantification in blood samples from the ruminal vein, portal vein, and mesenteric artery suggested the point of endotoxin translocation into blood was across the ruminal epithelium. Additionally, the greater the concentration of endotoxin in the plasma, the more likely animals were to go “off-feed.” By understanding the physiological and behavioral mechanisms by which cattle adapt to high-grain diets, we can improve animal health and performance through these diet transitions. acidosis feeding behavior motility rumen environment lipopolysaccharide Animal Sciences Beef Science
106	B-1 and B-2 B cell responses to lipopolysaccharide: Putative roles in the pathogenesis of periodontitis. Philips, Julia Rachel January 2006 (has links) Master of Science / Periodontal disease is one of the most widespread diseases in humans and is characterised by chronic gingival inflammation and B cell accumulation and resorption of the crest of alveolar bone with subsequent loss of teeth. Porphyromonas gingivalis has been identified as a putative aetiological agent for periodontitis. The aim of the research presented in this thesis was to investigate, using in vitro systems, the responses of autoreactive B-1 and B-2 cells to enterobacterial and nonenterobacterial lipopolysaccharide (LPS) to shed light on the pathogenesis of chronic periodontitis and other diseases involving B cell accumulation and autoantibody production. The hypotheses tested were: (1) B cells respond differently to enterobacterial and non-enterobacterial LPS. (2) B-1 cells are activated by a lower concentration of LPS than B-2 cells. (3) LPS stimulation results in preferential accumulation of B-1 cells. Findings consistent with these hypotheses would provide new evidence for different roles for B-1 and B-2 cells in immune responses and that LPS stimulation could lead to B-1 cell accumulation in diseases thus characterised. Initial experiments investigated the responses of representative B-1 (CH12) and B-2 (WEHI-279) cell lines to preparations of P. gingivalis and Salmonella enteritidis LPS utilising flow cytometric and quantitative molecular methods. The cell lines responded differently to the two LPS preparations. There were significant but limited effects on viability and proliferation in the WEHI-279 cell line, but no significant changes in mRNA expression levels for genes including Toll-like receptors (TLR2, TLR4, RP105), immunoglobulin (IgM), cytokines (IL-6, IL-10), co-stimulatory molecules (CD80, CD86), and regulators of apoptosis (Bcl-2, Bax). In the CH12 cell line however, LPS stimulation had greater effect. Addition of S. enteritidis LPS from a threshold level of 100ng/mL was found to rescue the cells from death, reflected by the percentage viability and proliferation. Stimulation of CH12 cells with S. enteritidis LPS also led to a decrease in expression of RP105 mRNA, which may be part of a negative feedback loop. Interestingly, stimulation with low concentrations P. gingivalis LPS appeared to inhibit proliferation but high LPS concentrations stimulated proliferation of CH12 cells, although no further significant effects were noted in other analyses. Evidence was found that CH12 cells have a high basal level of activation. This suggests that this line is constitutively activated. Stimulation with P. gingivalis or S. enteritidis LPS did not affect the level of CD80 mRNA expression. It is possible that the CH12 line constitutively expresses a maximal level of CD80 (and possibly CD86) and further stimulation will not cause any increase. Since S. enteritidis LPS appeared to have more pronounced effects on both B cell populations, this LPS was used to further investigate B cell subset responses in a mixed splenocyte culture system. Experiments examining percentage viability and number of viable cells indicated that B-1 and B-2 B cells responded differently to LPS stimulation. A threshold level for B-2 cell response (significant increase in cell number) was found to be 100ng/mL LPS, in contrast to the B-1 B cell subset which were only significantly different to the unstimulated cells when stimulated with 50μg/mL LPS. By examining the expression of CD80, the majority of murine splenic B-1 cells were found to activated prior to any LPS stimulation in vitro. In contrast, the B-2 subset showed significant increase in CD80 expression only at high (≥10μg/mL) LPS concentrations. Studies of the division index of B-1 and B-2 cells showed a significant response in both subsets following stimulation with 1μg/mL and 10μg/mL LPS. However, overall, the results are inconsistent with LPS driving the preferential accumulation of B-1 cells in disease states. These experiments provided useful evidence that supported the idea that B-1 and B-2 cells respond differently to LPS. However, these studies were unable to directly address the role of P. gingivalis LPS in periodontitis. It may be that P. gingivalis LPS could have different effects to S. enteritidis LPS on primary B cells. It is still possible that B-1 cells may be more sensitive to P. gingivalis, as opposed to S. enteritidis LPS. Studies by other groups have suggested that the TH1/TH2 profile is skewed towards TH2 in chronic periodontitis and that P. gingivalis may drive this shift via its ability to signal through TLR2 (and modulate TLR4 signalling). Further, recent studies in our laboratories have found that P. gingivalis gingipains are able to polyclonally activate B cells and to break down both IFNγ and IL-12. Future studies should further examine the effects of B-1 and B-2 interactions in the mixed lymphocyte system together with subsequent studies utilising human periodontitis biopsies. The results presented in this thesis, together with work undertaken by other investigators, suggests that LPS could perturb the normal homeostatic mechanisms of the B-1 B cell-subset and increase polyclonal activation therefore contributing to the genesis of pathologies such as chronic periodontitis. B-1 B cells lipopolysaccharide periodontitis murine model B-2 B cells
107	Rôle fonctionnel du Toll-Like Receptor 4 exprimé par les plaquettes sanguines en tant que cellules inflammatoires de l'immunité Berthet, Julien 16 December 2010 (has links) (PDF) Les plaquettes jouent un rôle majeur dans l'hémostase primaire ainsi que dans l'inflammation. Elles contiennent et sécrètent une grande variété de facteurs solubles et parmi les nombreux récepteurs qu'elles expriment à leur surface, les plaquettes expriment les " Toll-Like Receptor " (TLR), récepteurs clés de l'interaction entre l'immunité innée et adaptative. En réponse à un stimulus infectieux, comme le lipopolysaccharide (LPS) des bactéries Gram-négative, ligand naturel du TLR4, ou des peptides issus d'une partie de la protéine d'enveloppe du VIH (gp41), les plaquettes vont s'activer de manière différentielle. L'activation plaquettaire est variable en fonction de leur activation par à un stimulus hémostatique (exemple : la thrombine) vs. infectieux (exemple : le LPS) ; le panel de cytokines libérées dans le surnageant plaquettaire semble en fait finement régulé. De plus, nous avons démontré la présence intra-plaquettaire de la majorité des protéines composant les voies de signalisation du TLR4 eucaryote. Nous avons ensuite montré que ces voies pouvaient être modulées. L'engagement du TLR4 plaquettaire par deux types biochimiques de LPS entraîne un relargage différentiel des facteurs solubles immunomodulateurs dans le surnageant de culture et que ce surnageant dernier génère une activation différentielle des cellules cibles, comme les cellules mononucléées du sang circulant. Ces travaux montrent que la réponse inflammatoire plaquettaire est régulée en fonction du stimulus. Ainsi, mes travaux s'inscrivent dans la ré-exploration de la fonction inflammatoire des plaquettes sanguines et l'étude du rôle des plaquettes comme cellules de l'immunité innée et inflammatoire Plaquettes sanguines Immunité innée Inflammation Lipopolysaccharide Sepsis Immunité acquise Cytokines
108	Structural Studies of O-antigen polysaccharides, Synthesis of 13C-labelled Oligosaccharides and Conformational Analysis thereof, using NMR Spectroscopy Olsson, Ulrika January 2008 (has links) <p>In order to understand biological processes, to treat and diagnose diseases, find appropriate vaccines and to prevent the outbreak of epidemics, it is essential to obtain more knowledge about carbohydrate structures. This thesis deals with structure and conformation of carbohydrates, analysed by NMR spectroscopy and MD simulations.In the first two papers, the structures of O-antigen polysaccharides (PS) from two different <i>E. coli</i> bacteria were determined using NMR spectroscopy. The O-antigenic PS from <i>E. coli</i> O152 (paper I) consists of branched pentasaccharide repeating units, built up of three different carbohydrate residues and a phosphodiester, whilst the repeating unit of the O-antigen from <i>E. coli</i> O176 (paper II) is built up of a linear tetrasaccharide consisting of two different monosaccharides.</p><p>In papers III and IV, the conformational analysis of different disaccharides is described. Conformational analysis was performed using NMR spectroscopy and MD simulations (paper IV). In paper III four different glucobiosides were studied using coupling constants and Karplus-type relationships. By use of specific <sup>13</sup>C isotopically labelled derivatives, additional coupling constants were obtained and the number of possible torsion angles was reduced by half. In paper IV, we examine the conformations of two disaccharides that are part of an epitope of malignant cells. From NOE and T-ROE experiments, short proton-proton distances around the glycosidic linkage were estimated. Furthermore, interpretation of the extracted coupling constants using Kaplus relationships gave the values of the torsion angles. As in paper III, isotopically labelled compounds were synthesised in order to enhance the sensitivity of the analysis. Finally, MD simulations were performed and the results were compared with results from NMR data.</p> NMR spectroscopy conformation Escherichia coli lipopolysaccharide O-antigen carbohydrates structure isotopic labelling Organic chemistry Organisk kemi
109	Brain Stem Involvement in Immune and Aversive Challenge Paues, Jakob January 2006 (has links) Activation of the immune system by e.g. bacteria induces the acute-phase-response and sickness behaviour. The latter encompasses among other things fever, lethargy, anorexia and hyperalgesia. An often used model to study sickness behaviour is the intravenous injection of the gram negative bacterial endotoxin lipopolysaccharide (LPS). LPS induces the production of inflammatory mediators, such as cytokines and prostaglandins, which in turn can interact with the central nervous system (CNS) to affect behaviour. The CNS also memorises substances that have made us sick in the past to avoid future harm, a phenomenon called conditioned taste aversion (CTA). An often used model to study CTA is the intraperitoneal injection of LiCl. The pontine parabrachial nucleus (PB) is an autonomic relay nucleus situated in the rostral brain stem that integrates afferent somatosensory and interoceptive information and forwards this information to the hypothalamus and limbic structures. PB is crucial for the acquisition of CTA and PB neurons are activated by many anorexigenic substances. Further, PB neurons express neuropeptides, among those calcitonin gene related peptide (CGRP) and enkephalin, both of which have been implicated in immune signalling, nociception, food intake, and aversion. By using a dual-labelling immunohistochemical/in situ hybridization technique we investigated if enkephalinergic neurons in PB are activated by systemic immune challenge. While there were many neurons in the external lateral parabrachial subnucleus (PBel) that expressed the immediate early gene fos after intravenous injection of LPS and while a large proportion of the PBel neurons expressed preproenkephalin, there were very few double-labelled cells. The fos-expressing cells were predominantly located to the outer part of the PBel (PBelo), whereas the preproenkephalin-expressing PBel neurons were located closest to the peduncle. Thus we conclude that although enkephalin has been implicated in autonomic and immune signalling, enkephalinergic neurons in PB do not seem to be activated by immune stimulation (paper I). To further characterise the PBelo neurons activated by immune challenge we investigated if these neurons expressed CGRP. Dual-labelling in situ hybridisation showed that PBelo neurons that expressed fos after intravenous injection of LPS to a large extent co-expressed CGRP mRNA, indicating that CGRP may be involved in the regulation of the sickness response in immune challenge (paper II). Using dual-labelling immunohistochemistry we examined if PBel neurons activated by an immune stimulus projected to the amygdala, a limbic structure implicated in the affective response to homeostatic challenge. Animals were injected with the retrograde tracer substance cholera toxin b (CTb) into the amygdala and subsequently subjected to immune challenge. We found that approximately a third of the neurons that expressed fos after the intravenous injection of LPS also were labelled with CTb. Thus PBel neurons activated by immune challenge project to the amygdala. The PBel-amygdala pathway has earlier been suggested to be important in nociceptive signalling. To investigate if amygdala-projecting PBel neurons are activated by nociceptive stimuli we again injected animals with CTb into the amygdala. After recovery the animals were injected with formalin into a hindpaw. Dual-labelling immunohistochemistry against fos and CTb showed that very few noxiously activated PB neurons projected to the amygdala. Thus, the PBel-amygdala projection seems to be important in immune challenge but not in nociceptive signalling (paper III). Many PBel neurons express fos after intraperitoneal injection of LiCl. Melanocortins are neuropeptides that recently have been implicated in metabolism, food intake and aversive mechanisms. The PB is known to express melanocortin receptor-4 (MC4-R) mRNA. Using dual-labelling in situ hybridization we investigated if PB neurons activated by intravenous injection of LPS or intraperitoneal injection of LiCl expressed MC4-R mRNA. We found that many PBelo neurons were activated by either LPS or LiCl and that a large proportion of such activated neurons expressed MC4-R mRNA. Further, using dual-labelling in situ hybridization against MC4-R mRNA and CGRP mRNA, we found that a large proportion of the CGRP positive PBelo neurons also expressed MC4-R mRNA. In summary, this thesis shows that CGRP-expressing neurons in the PBel are activated by peripheral immune challenge, that lipopolysaccharide-activated PBel neurons project to the amygdala, that the amygdala-projecting neurons in the PBel are CGRP-positive, and that PBel neurons activated by immune or aversive challenge express MC4-R. Taken together, these data suggest the presence of a melanocortin-regulated CGRP-positive pathway from the PBel to the amygdala that relays information of importance to certain aspects of sickness behaviour. / On the day of the defence date the title of article II was: Feeding-related immune responsive brain stem neurons: association with CGRP. Article II: Erratum for in Neuroreport 2001;12(16):inside back cover. Neuroreport 2001;12(13):inside back cover. Article III: Erratum in: J Comp Neurol. 2005; 483:489-90. lipopolysaccharide Lithium Chloride anorexia aversion parabrachial brain stem melanocortin CGRP enkephalin Neurobiology Neurobiologi
110	Modulating Organ Dysfunction in Experimental Septic Shock : Effects of Aminoglycosides, Antiendotoxin Measures and Endotoxin Tolerance Castegren, Markus January 2011 (has links) Sepsis is a common diagnose in the intensive care population, burdened with a high mortality. The systemic inflammatory reaction underlying the development of septic organ dysfunction can be modeled using Gram-negative bacterial lipopolysaccharide, endotoxin. This thesis used a porcine endotoxemic experimental sepsis model to address clinical questions difficult to answer in clinical trials; furthermore a model of secondary sepsis was developed. No additional effect on the development of renal dysfunction by tobramycin was found, indicating that a single dose of tobramycin does not further compromise renal function in inflammatory-induced acute kidney injury. Antiendotoxin treatment had no measurable effect on TNF-α-mediated toxicity once the inflammatory cascade was activated. There was an effect on the leukocyte response that was associated with improvements in respiratory function and microcirculation, making it impossible to rule out fully the beneficial effect of this strategy. However, the effects were limited in relation to the magnitude of the endotoxin concentration reduction and the very early application of the antiendotoxin measure. The lungs stood out compared to the other organ systems as having a threshold endotoxin dose for the protective effect of endotoxin tolerance. As to the development of circulatory and renal dysfunction, tolerance to endotoxin was evident regardless of the endotoxin pre-exposure and challenge dose. There was a temporal variation of endotoxin tolerance that did not follow changes in plasma TNF-α concentrations and maximal tolerance was seen very early in the course. More pronounced endotoxin tolerance at the time of maximum tolerance was associated with a more marked hyperdynamic circulation, reduced oxygen consumption and thrombocytopenia eighteen hours later. It might be of interest to use the experimental model of long-term endotoxemia followed by a second hit, which has been designed to resemble an intensive care setting, for the study of treatment effects of immunomodulating therapies in secondary sepsis. / Paper 3, previous title as submitted: "Compartmentalization of organ endotoxin tolerance in a porcine model of secondary sepsis" Lipopolysaccharide animal model pig tobramycin endotoxin elimination immunoparalysis secondary sepsis Infectious diseases Infektionssjukdomar

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