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Mécanismes de motilité et guidage sous flux des leucocytes humains / Human leukocytes motility and flow guidance mechanismsNègre, Paulin 18 December 2018 (has links)
La capacité des leucocytes à se déplacer dans tout l’organisme est indispensable pour une réponse immunitaire rapide et efficace. Leur migration, dite amiboïde, est caractérisée par une vitesse importante (10-20 μm/min) et une grande adaptabilité face aux divers environnements qu’ils rencontrent, qu’ils soient bidimensionnels comme la paroi luminale endothéliale ou tridimensionnels (3D) comme les tissus. Telle qu'actuellement décrite, la migration amiboïde requiert de l’adhésion ou de la friction avec un support solide. Nous avons ici montré que les lymphocytes T effecteurs sont capables de nager sans interaction avec un support solide. Le mécanisme de propulsion est basé sur le flux rétrograde d’actine qui entraine une brosse protéique de molécules transmembranaires liées au cytosquelette entrant en interaction avec le medium. Par ailleurs, lors de leur migration sur la surface luminale des parois endothéliales, les leucocytes sont soumis à un flux important et s’orientent par rapport au flux via des mécanismes mal déterminés. Nous avons montré que l’orientation des lymphocytes et des neutrophiles respectivement dans le sens ou à contresens d’un flux peut s’expliquer sans détection moléculaire du stress hydrodynamique. Le lamellipode pour les neutrophiles et l’uropode pour les lymphocytes est non-adhérent et s’oriente dans le flux comme une girouette dans le vent. La polarisation avant-arrière réaligne l’ensemble de la cellule dans le même sens que l’extrémité orientée par le flux. Le mécanotactisme des leucocytes sous flux repose ainsi sur des mécanismes passifs, c’est-à-dire sans mécanotransduction. / A fast and efficient immunity response needs leukocytes’ability to migrate within the entire organism. Their migration, called amoeboid, is characterized by a high speed (10-20 μm.min-1) and a great adaptability to move through various environment, either two-dimensional as luminal endothelial surface or tri-dimensional (3D) environment as tissue. Since the observation of leukocytes migrating without adhesion through solid 3D medium, amoeboid migration is described as requiring either adhesion or friction with solid support to permit motility. We showed here that effector T lymphocytes are able to swim without any interaction with solid substrate. Propulsion is based on actin retrograde flow coupled with transmembrane proteins linked to cytoskeleton (like integrins) which drag a brush of polymeric molecules in interaction with the medium. Furthermore, cell guidance is required for many crucial functions as organism growth or immune system. However, when crawling on luminal endothelial surfaces, cells are exposed to blood flow and they robustly orient either with or against the flow with unknown mechanisms. We showed that lymphocytes and neutrophils flow orientation can be explain without any molecular flow sensor of shear stress. Lamellipodium for neutrophils and uropod for lymphocytes is non-adherent and orients in the direction of flow like a wind vane. Front-rear cell polarization aligns the axis of the whole cell with the non-adherent pole oriented by flow. Flow mechanotaxis of leukocytes relies on passive mechanisms without mechanotransduction.
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Differences in innate immune response between man and mouseZschaler, Josefin, Schlorke, Denise, Arnhold, Jürgen January 2014 (has links)
Mouse strains are frequently used to model human disease states, to test the efficiency of drugs and therapeutic principles. However, the direct translation of murine experimental data to human pathological events often fails due to sufficient differences in the organization of the immune system of both species. Here we give a short overview of the principle differences between mice and humans in defense strategies against pathogens and mechanisms involved in response to pathogenic microorganisms and other activators of the immune system. While in human blood mechanisms of immune resistance are highly prevailed, tolerance mechanisms dominate for the defense against pathogenic microorganisms in mouse blood. Further on, species-related differences of immune cells mainly involved in innate immune response as well as differences to maintain oxidative homeostasis are also considered. A number of disease scenarios in mice are critically reflected for their suitability to serve as a model for human pathologies. Due to setbacks in these studies, novel mouse models were created to bridge the immune system of both species: humanized mice. Accordingly, a special section of this review is devoted to new results applying humanized mouse models taking limitations and prospects into account.
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Peripheral Dopamine 2 Receptors Both Modulate Central Dopamine Release and Adopt in a Similar Manner to that of Central Dopamine 2 ReceptorsObray, J. Daniel 24 April 2020 (has links)
Alcohol use disorder is a debilitating disorder affecting nearly 5% of people in the United States. Despite the prevalence of alcohol use disorder few affected individuals seek treatment and of those who do many will relapse. This highlights a need to develop new treatments for alcohol use disorder that are both more accessible and more effective. This dissertation characterizes a novel pathway involved in ethanol enhancement of dopamine levels in the nucleus accumbens as well as investigating alterations in dopamine 2 receptor expression and function following an acute dose of ethanol. This was done by using microdialysis to measure dopamine levels in the nucleus accumbens, single-unit recordings of dopamine neurons in the ventral tegmental area to measure dopamine neuron activity and place conditioning to measure the rewarding properties of the intravenous dopamine and ethanol. It was found that activation of peripheral dopamine 2 receptors by intravenous dopamine enhanced dopamine levels in the nucleus accumbens and dopamine neuron firing rate in the ventral tegmental area. Additionally, intravenous dopamine produced a modest conditioned place preference. Domperidone, a peripheral dopamine 2 receptor antagonist blocked each of these effects. Further, domperidone blocked ethanol enhancement of dopamine release in the nucleus accumbens and bidirectionally modulated the sedating effects of ethanol depending on the dose of ethanol administered. The involvement of peripheral dopamine 2 receptors in ethanol reward could not be ascertained in these studies as domperidone produced a weak conditioned place aversion. Finally, acute ethanol was found to enhance dopamine 2 receptor expression in the nucleus accumbens and medial prefrontal cortex while also enhancing dopamine 2 receptor expression on NK and B cells. Additionally, ethanol was found to reduce desensitization of dopamine 2 receptors in the ventral tegmental area. These results demonstrate that activation of peripheral dopamine 2 receptors can enhance dopamine levels in the nucleus accumbens and that this effect has relevance in understanding the effects of ethanol on dopamine release in the mesolimbic pathway. These results also provide evidence for transient upregulation of dopamine 2 receptors in the brain and on leukocytes suggesting that dopamine 2 receptor levels on leukocytes may be a useful biomarker for central dopamine function.
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Peripheral Dopamine 2 Receptors Both Modulate Central Dopamine Release and Adopt in a Similar Manner to that of Central Dopamine 2 ReceptorsObray, J. Daniel 24 April 2020 (has links)
Alcohol use disorder is a debilitating disorder affecting nearly 5% of people in the United States. Despite the prevalence of alcohol use disorder few affected individuals seek treatment and of those who do many will relapse. This highlights a need to develop new treatments for alcohol use disorder that are both more accessible and more effective. This dissertation characterizes a novel pathway involved in ethanol enhancement of dopamine levels in the nucleus accumbens as well as investigating alterations in dopamine 2 receptor expression and function following an acute dose of ethanol. This was done by using microdialysis to measure dopamine levels in the nucleus accumbens, single-unit recordings of dopamine neurons in the ventral tegmental area to measure dopamine neuron activity and place conditioning to measure the rewarding properties of the intravenous dopamine and ethanol. It was found that activation of peripheral dopamine 2 receptors by intravenous dopamine enhanced dopamine levels in the nucleus accumbens and dopamine neuron firing rate in the ventral tegmental area. Additionally, intravenous dopamine produced a modest conditioned place preference. Domperidone, a peripheral dopamine 2 receptor antagonist blocked each of these effects. Further, domperidone blocked ethanol enhancement of dopamine release in the nucleus accumbens and bidirectionally modulated the sedating effects of ethanol depending on the dose of ethanol administered. The involvement of peripheral dopamine 2 receptors in ethanol reward could not be ascertained in these studies as domperidone produced a weak conditioned place aversion. Finally, acute ethanol was found to enhance dopamine 2 receptor expression in the nucleus accumbens and medial prefrontal cortex while also enhancing dopamine 2 receptor expression on NK and B cells. Additionally, ethanol was found to reduce desensitization of dopamine 2 receptors in the ventral tegmental area. These results demonstrate that activation of peripheral dopamine 2 receptors can enhance dopamine levels in the nucleus accumbens and that this effect has relevance in understanding the effects of ethanol on dopamine release in the mesolimbic pathway. These results also provide evidence for transient upregulation of dopamine 2 receptors in the brain and on leukocytes suggesting that dopamine 2 receptor levels on leukocytes may be a useful biomarker for central dopamine function.
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The Effects of Diet, Population, and Water Temperature on the Stress Response of Angled Largemouth Bass Micropterus SalmoidesDinken, Colin P 04 May 2018 (has links)
Angling practices subject Largemouth Bass Micropterus salmoides to multiple stressors, causing homeostatic physiological disturbances. The combined effects of ambient and live well temperature on stress responses from exercise have not been thoroughly examined. Large numbers of fish required for stress experiments can be produced by intensive culture, but hatchery fish may differ physiologically from wild fish due to dietary carbohydrates. Therefore, the effects of diet, population, and temperature on stress response and health were examined. Stress responses were similar among fish fed formulated and live diets and liver health improved within 4-6 weeks. Although cortisol responses of hatchery and wild fish differed, secondary stress responses were similar. Fish subjected to simulated angling at temperatures of 17, 25, 33 °C with live well temperature differentials of -4, 0, +4 °C, had the lowest resilience to stress at the warmest temperatures, exhausting energy supplies, coincident with metabolic acidosis and poor ion regulation.
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Characterization of the expression and function of signaling lymphocyte activation molecule family members 9 in murine innate immune cellsMikulin, Joseph A. 17 August 2022 (has links)
No description available.
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The Interactions of Clostridium Perfringens With Phagocytic CellsO'Brien, David Kenneth 24 April 2003 (has links)
Clostridium perfringens is the most common cause of gas gangrene (clostridial myonecrosis), a disease that begins when ischemic tissues become contaminated with C. perfringens. C. perfringens quickly multiplies in ischemic tissues and spreads to healthy areas, leading to high levels of morbidity and mortality. As a species, the bacterium can synthesize thirteen different toxins. The alpha toxin (PLC) and perfringolysin O (PFO) are thought to be important virulence factors in gangrene. We wished to understand how C. perfringens is capable of avoiding killing by the host immune system, and determine if PLC and PFO play a role in this avoidance. We found C. perfringens was not killed by J774-33 cells or mouse peritoneal macrophages under aerobic or anaerobic conditions. Using electron microscopy, we showed that C. perfringens could escape the phagosome of J774-33 and mouse peritoneal macrophages. We believe the ability of C. perfringens to survive in the presence of macrophages is due to its ability to escape the phagosome. Using a variety of inhibitors of specific receptors, we identified those used by J774-33 cells to phagocytose C. perfringens. The scavenger receptor, mannose receptor(s), and complement receptor (CR3) were involved in the phagocytosis of C. perfringens. To determine if PFO or PLC were involved in the ability of C. perfringens to survive in the presence of macrophages, we constructed C. perfringens strains lacking these toxins. The ability of C. perfringens to survive in the presence of J774-33 cells is dependent on PFO, while survival in mouse peritoneal macrophages is dependent on PFO and PLC. The ability of C. perfringens to escape the phagosome of J774-33 cells and mouse peritoneal macrophages is mediated by either PFO or PLC. Using a mouse model, we found that PFO and PLC were necessary for C. perfringens to survive in vivo using infectious doses 1000 times lower than those required to initiate a gangrene infection. We propose that PFO and PLC play a critical role in the survival of C. perfringens during the early stages of gangrene infections, when phagocytic cells are present and bacterial numbers are low. / Ph. D.
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Intestinal absorption of colostral leukocytes, peripheral blood mononuclear cells, and porcine umbilical cord matrix stem cells by neonatal pigsMiller, Danielle January 1900 (has links)
Master of Science / Department of Animal Sciences and Industry / Duane L. Davis / Intestinal absorption of colostral leukocytes (CL), peripheral blood mononuclear cells (PBMC), and porcine umbilical cord matrix stem cells (PUC) was analyzed in neonatal pigs. Maternal CL have previously been demonstrated in pigs, and maternal PBMC have been observed in calves to enter neonatal circulation after ingestion. PUC are primitive stem cells that are easily isolated from Wharton's jelly of the porcine umbilical cord. These cells do not have an immunogenic effect on the host upon initial transplantation. The general characteristics of PUC may allow them to serve as a delivery system to the neonate.
Cellular migration through the duodenum, jejunum, and ileum was assessed using confocal microscopy. In vitro experiments utilized an organ explant culture system to determine the trafficking of labeled cells. Small-intestine tissue was collected from stillborn and sacrificed neonates. All three cell types (CL, PBMC, and PUC) were detected below the luminal surface, after 72 h of culture with media, and regardless of whether explants were from stillborns or live-born pigs.
In vivo trafficking was assessed using neonatal pigs that were fed PBMC isolated from their mother or PUC from an unrelated pig. The effect of prior exposure to 25% acellular colostrum (AC) in medium was evaluated for both cell types. Piglets were euthanized 8 h or 24 h post feeding and sections of the small intestine collected. Both PBMC and PUC were found in all intestinal samples. Exposure to AC had no detected effect on the ability of either cell type to attach and migrate into the tissue. Labeled PUC were detected on the surface of the epithelium and in the lamina propria 8 h post treatment. PBMC were observed on the surface of the
epithelium, in the lamina propria, and superficial submucosa 8 h following ingestion. In neonates sacrificed 24 h post treatment, both PUC and PBMC were observed on the surface of the epithelium, in the lamina propria, superficial submucosa, and deep submucosa of the small intestine. PUC and PBMC were noted at the apex, intermediate between the apex and the base, or at the base of the villus.
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Porovnání tvorby cytokinů novorozeneckými leukocyty dětí zdravých a alergických matek. / Comparison of cytokine production by leukocytes from newborns of healthy and allergic mothersDusilová, Adéla January 2012 (has links)
The increasing incidence of children suffering from allergic diseases could be caused by sensitization of immature immune system during the intrauterine development. Several important scientific papers have demonstrated the ability of cord blood cells to respond by elevated proliferation activity after stimulation by common allergens. Following these findings, present study follows the production of cytokines which play a role in the pro- and anti-allergenic tuning of the immune system. Umbilical cord blood cells were stimulated with polyclonal activators (phytohaemagglutinin) and common allergens (ovalbumin, timothy grass, birch, mite). Subsequently, cytokine production was monitored using selected methods that reflect different stages of cell activation - at the level of mRNA by quantitative real time PCR (qRT-PCR), by flow cytometry detection of the presence of intracellular cytokines in different cell subpopulations and by ELISA measurement of cytokines in CBMC culture supernatants. The results obtained point to a very weak ability of these common allergens (timothy grass, birch, mite, ovalbumin) to stimulate CBMC to produce cytokines observed by all of these methodological procedures. Although we did not observe significant differences in CBMC cytokine production (IL-2, IL-4, IL-10, IL-12,...
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"Efeito da poluição atmosférica urbana da cidade de São Paulo nas células sangüíneas e no sistema cardiopulmonar. Estudo morfo-funcional em camundongos in vivo" / Effect of urbain air pollution of Sao Paulo city in the blood and cardiopulmonary system : a morpho-functional study in mice in vivoMatsumoto, Giselli Silva 05 September 2005 (has links)
Objetivo: checar se poluentes do ar urbano de São Paulo induzem alterações sangüíneas e cardiopulmonares. MM: camundongos Balb/c foram expostos por 7, 14, 21, 30 e 45 dias em 3 câmaras: Limpa (controle), Intermediária (seletiva ao PM) e Suja (ar externo). Após exposição, os animais foram ventilados (FlexiVent) e coletados dados de mecânica pulmonar, sangue, coração e pulmão. Foram registrados PM, CO, SO2 e NO2 diários. Resultados: aos 21 e 45 dias coincidentes com picos de poluição houve aumento da resistência de via aérea (45d p=0,012), leucocitose (21d p < 0,001 e 45d p=0,039) e vasoconstricção pulmonar (21d p=0,034) nos animais da Câmara Suja, sem alteração de coronárias. Nenhum poluente excedeu limites de qualidade de ar / Objective: verify if air pollution of São Paulo city induces alterations in blood and cardiopulmonary systems. MM: Balb/c mice were exposed during 7, 14, 21, 30 and 45 days to 3 chambers: Clean (control), Intermediate (PM only) and Dirty (external air). After exposure, animals were ventilated (FlexiVent) and collected lung mechanics data and blood, heart and lung. PM, CO, SO2 e NO2 were measured daily. Results: on day 21 and 45, coincidently to peak of pollutions, there was proximal airway resistance increase (45d p=0.012), leukocytosis (21d p < 0.001 and 45d p=0.039) and vasoconstriction of peribronchiolar arterioles (21d p=0.034) in animals of Dirty Chamber with no alterations of coronaries. Neither pollutants exceeded the standard limits
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