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441	Effects of emotional excitement on cardiovascular regulation Piira, O.-P. (Olli-Pekka) 03 November 2015 (has links) Abstract The incidence of adverse cardiovascular events is higher among spectators of exciting sports events, particularly in patients with coronary artery disease (CAD), but the mechanistic link between the events is not known. We assessed the hemodynamic, autonomic function, plasma catecholamines, endothelin-1, interleukin-6, and markers of platelet activation and blood coagulation of enthusiastic male ice hockey spectators with CAD (n=55, 60±9 years) and healthy subjects (n=16, 48±6 years) during Finnish national league ice hockey final play-off matches and on a control day. Blood markers were also measured before and after a maximal exercise test with a bicycle ergometer. Systolic and diastolic blood pressure (BP) were significantly higher one hour before, during, and one hour after the match than on the control day. During the match the highest systolic BP was 180±14 vs. 145±15 and diastolic BP was 103±13 vs. 82±11 mmHg (respectively, p<0.001 for both). Heart rate (HR) was higher throughout the match (p<0.05) and remained elevated two hours after the match (p<0001), and measures of HR variability were decreased during the match (p<0.01). Plasma endothelin-1 (ET-1), interleukin-6 (IL-6) and noradrenaline (NOR) increased during the match (p<0.01 for all), but markers of platelet activation and coagulation remained unchanged. ET-1 did not change during exercise but NOR, adrenaline, IL-6, and markers of platelet activation and blood coagulation increased statistically significantly (p<0.0001 for all). A statistically significantly more marked increase in both endothelin-1 and interleukin-6 was observed in CAD patients compared with healthy subjects during the match (time x group interaction p<0.05 for both). The high-frequency power of R-peak-to-R-peak intervals decreased in CAD patients (p<0.001) but did not change in healthy subjects during the match. Maximal metabolic equivalens (METs) were most strongly correlated with ET-1 response during the match (β =-0.45, partial correlation r=-0.43, p=0.002) when age, body mass index, METs, left ventricular ejection fraction, basal ET-1 and subjective experience of excitement were entered into the model as independent variables in a linear stepwise regression analysis. In conclusion, autonomic reactions and vasoconstriction may partly explain the vulnerability to cardiovascular events caused by this type of leisure-time emotional excitement. Emotional excitement causes concomitant increases in markers reflecting vulnerability to atherosclerotic plaque complications, while physical exercise causes more prominent changes in markers of coagulation. Emotional excitement causes more significant increases of markers of vasoconstriction and acute inflammation and withdrawal of cardiac vagal regulation in patients with CAD than in healthy subjects. Exercise capacity may protect against further cardiovascular events in CAD patients because it is associated with reduced ET-1 release during emotional excitement. / Tiivistelmä Jännittävän urheilutapahtuman on havaittu lisäävän sydäntapahtumia erityisesti sepelvaltimotautipotilailla. Syyt eivät ole selvillä. Tutkimuksen kohteena oli jääkiekon mestaruussarjan pudotuspelien seuraamisen vaikutus sekä sepelvaltimotautisten (n=55, 60±9 vuotta) että terveiden (n=16, 48±6 vuotta) jääkiekkofanien verenkiertoon, autonomiseen hermostoon, veren katekolamiinien, endoteliini-1:n (ET-1) ja interleukiini-6:n (IL-6) pitoisuuksiin sekä veren hyytymiseen paikan päällä jäähallissa seurattuna. Muuttujat mitattiin jäähallissa ottelun aikana. Ne mitattiin myös ennen ottelua ja eri päivänä sairaalassa ennen kuntopyörällä tehtyä maksimaalista sydämen kuormitustestiä ja heti sen jälkeen. Sepelvaltimotautipotilaiden ylä- ja alaverenpaineet kohosivat tilastollisesti merkitsevästi tuntia ennen jääkiekkopeliä ja sen aikana, ja ne olivat koholla vielä tunnin ajan pelin jälkeen kontrollipäivään verrattuina. Ottelun aikana yläpaineet olivat 180±14 vs. 145±15 ja alapaineet 103±13 vs. 82±11 mmHg (p<0.001 molemmille painetasoille). Sydämen syke oli korkeampi pelin ajan (p<0.05), ja se pysyi koholla kahden tunnin ajan pelin jälkeen (p<0.001). Lisäksi sykevaihtelu heikentyi pelin aikana (p<0.01) kontrollipäivään verrattuna. Veren ET-1-, IL-6- ja noradrenaliinipitoisuudet (p<0.01) nousivat pelin aikana, mutta veren hyytymistä kuvastavat lukemat säilyivät muuttumattomina. ET-1 ei noussut fyysisessä kuormitustestissä, mutta noradrenaliini- ja adrenaliinipitoisuudet sekä IL-6:n ja veren hyytymistä kuvaavat lukemat kasvoivat tilastollisesti merkitsevästi (p<0.0001). Pelin aikana sepelvaltimotautipotilaiden ET-1 ja IL-6 pitoisuudet kohosivat enemmän kuin terveiden vastaavat arvot (p<0.05). Lisäksi ottelun aikana sydämen sykevaihtelu laski sepelvaltimopotilailla (p<0.001), muttei muuttunut terveillä. Polkupyörätestin maksimaalinen suorituskyky (METs) oli voimakkaasti yhteydessä ET-1 vasteeseen pelin aikana (β =-0.45, r=-0.43, p=0.002), kun ikä, painoindeksi, METs, sydämen supistusvireys, ET-1:n lähtötaso ja koehenkilöiden kokema jännitystaso huomioitiin itsenäisinä muuttujina regressiotyyppisessä tilastolaskennassa. Yhteenvetona todetaan itsenäisesti toimivan hermoston muutosten ja verisuonten supistumisen voivan osittain selittää aiemmin havaitun sydäntapahtumien lisääntymisen tutkimuskohteen tyyppisessä vapaa-ajan tunne-elämyksessä. Jääkiekkopelin jännitys aiheuttaa muutoksia sepelvaltimotautialueiden repeämisherkkyyttä kuvaaviin tekijöihin, kun taas fyysinen rasitus vaikuttaa voimakkaammin veren hyytymistä ilmaiseviin lukemiin. Potilailla jännitys lisäsi enemmän suonten supistuvuutta, akuuttia tulehdusreaktiota ja nosti parasympaattisen hermoston vetäytymistä kuvaavia lukemia terveisiin koehenkilöihin verrattuna. Hyvä suorituskyky voi suojata korkean riskin sepelvaltimotautipotilaita sydäntapahtumilta vähentämällä ET-1:n vapautumista jännityksen aikana. autonomic regulation coronary artery disease emotional excitement endothelin-1 exercise interleukin-6 autonominen hermosto endotelin-1 interleukin-6 jännitys liikunta sepelvaltimotauti
442	Multi-targeting of the innate immune system by Toll/interleukin-1 receptor domain-containing bacterial effectors and the consequences in bacterial immune-evasion / Ciblage multiple du système immunitaire inné par les effecteurs bactériens contenant un domaine Toll/interleukin-1 receptor (TIR) et les conséquences dans l’évasion immunitaire bactérienne Imbert, Paul 25 November 2016 (has links) Le domaine TIR (Toll/interleukin (IL)-1 receptor) est une composante essentielle du système immunitaire inné, celui-ci est présent dans les récepteurs TLR (Toll-like receptor) et les protéines adaptatrices associées comme MyD88 et TIRAP. La détection de pathogènes déclenche l'interaction entre les domaines TIR permettant ainsi l'initiation et la propagation de la signalisation par les TLRs. Aussi, de nombreux pathogènes produisent des effecteurs contenant un domaine TIR tels que BtpA et BtpB chez Brucella abortus, TirS chez Staphylococcus aureus ou TcpC chez l'uropathogènique Escherichia coli. Tous ces effecteurs bloquent la signalisation des TLRs et sont capables de perturber les voies de signalisation de l'immunité innée pendant l'infection. Cependant les mécanismes moléculaires impliqués restent la plupart du temps non caractérisés et dans certains cas controversés. Dans le but de mieux comprendre le fonctionnement de ce type d'effecteurs bactériens, j'ai caractérisé chez Pseudomonas aeruginosa PA7 un nouvel effecteur contenant un domaine TIR que nous avons renommé PumA pour Pseudomonas UBAP1 Modulator A. En parallele, j'ai aussi participé à des projets de caractérisation de deux autres effecteurs avec un TIR domain : BtpB et TirS. Ainsi, PumA est un facteur essentiel pour la virulence de P. aeruginosa PA7 et son domaine TIR est essentiel pour interaction avec deux protéines adaptatrice, TIRAP et MyD88. Durant l'infection de cellules épithéliales pulmonaires par P. aeruginosa PA7, PumA est responsable du contrôle de la translocation du facteur de transcription NF-κB dans le noyau. De plus, la production de PumA dans une souche de P. aeruginosa non-TIR confère à cette bactérie de nouvelles propriétés d'immuno-modulation. PumA cible aussi UBAP1, une protéine du complexe de tri endosomal requis pour le transport, ESCRT-I (endosomal sorting complex require for transport I) qui a été récemment montré pour moduler l'activation de récepteur de cytokine. Nos résultats montrent que UBAP1 peut s'associer avec TIRAP et MyD88, provoquant le mouvement de MyD88 à la membrane cytoplasmique, suggérant une nouvelle voie cellulaire commune entre UBAP1 et les TLRs, et révélant UBAP1 comme nouvelle cible pour des effecteurs bactériens dans le cadre du contrôle des réponses immunitaires de l'hôte / In higher eukaryotes, the innate immune system provides the first line of defense against invading pathogens. The Toll/interleukin-1 receptor (TIR) domain is an essential component of the innate immune system. This domain is present in Toll-like receptors (TLRs) and associated adaptor proteins such as MyD88 and TIRAP. Pathogen detection requires interaction between the TIR domains, which initiates and triggers propagation of TLR signaling. However, many pathogens produce a TIR domain-containing protein such as BtpA and BtpB in Brucella abortus, TirS in Staphylococcus aureus or TcpC in the uropathogenic strain Escherichia coli. These effectors block TLR signaling and are able to disrupt innate immune response during infection. However, the molecular mechanisms involved remain mostly uncharacterized and in some cases controversial. The objective of this thesis was to study bacterial effectors containing a TIR domain particularly at the molecular level. For this, we focused on Pseudomonas aeruginosa PA7, an atypical multi-drug resistant strain that contains an effector with a TIR domain that we named PumA, for Pseudomonas UBAP1 Modulator A. In addition, during these four years of thesis work I also participated in the characterization of two other effectors with a TIR domain: BtpB in B. abortus and TirS in S. aureus.We found that PumA is essential for virulence of P. aeruginosa PA7 and its TIR domain is the key element for interaction with two adaptor proteins MyD88 and TIRAP. During infection of lung epithelial cells by P. aeruginosa PA7, PumA is responsible for controlling the translocation of NF-?B into the nucleus indicative of activation of this transcription factor. In addition, production of PumA by a TIR-deficient strain of P. aeruginosa confers to this bacterium a new immuno-modulation property. Furthermore, PumA targets ubiquitin-associated protein 1 (UBAP1), a protein of the endosomal sorting complex required for transport I (ESCRT-I) which has recently been shown to modulate cytokine receptor activation. Our results also show that UBAP1 can associated with TIRAP and MyD88, causing movement of MyD88 to the cytoplasmic membrane and suggesting a new cellular pathway between UBAP1 and TLRs. In summary, our data reveal UBAP1 as a novel target for bacterial effectors implicated in control of host immune responses Domaine Toll/interleukin-1 receptor Évasion immunitaire bactérienne Effecteur bactérien Toll/interleukin-1 receptor domain Bacterial immune-evasion Bacterial effector 616.9
443	A importância da interação entre estresse oxidativo, biogênese de mitocôndrias e mitofagia na resposta de células estreladas hepáticas ao resveratrol Martins, Leo Anderson Meira January 2014 (has links) A fibrose hepática é uma patologia que acompanha outras doenças crônicas do fígado como a cirrose e o hepatocarcinoma. As células estreladas hepáticas (HSC, do inglês hepatic stellate cells) compõem uma população celular heterogênea que se caracteriza por transitar entre dois fenótipos. As células com fenótipo quiescente possuem a capacidade de armazenar vitamina A em gotas lipídicas. Os insultos ao fígado desencadeiam uma resposta inflamatória que gera estímulos parácrinos e autócrinos mediados por citocinas e espécies reativas. Neste contexto, as HSC assumem um fenótipo ativado fibrogênico e tornam-se responsáveis pela cicatrização hepática. Danos crônicos ao fígado levam a uma deposição de matriz extracelular exagerada que configura o estado patológico da fibrose. O resveratrol (RSV – 3,4’,5-tri-hidroxi-trans-estilbeno) é uma fitoalexina produzida por algumas espécies de plantas. Inúmeros efeitos benéficos à saúde são atribuídos ao RSV por causa do seu potencial antioxidante, antiinflamatório e pró-apoptótico. Estudos anteriores mostraram que tratamento da GRX, uma linhagem murina de HSC ativadas, com concentrações de RSV próximas as biodisponíveis (0,1 a 1 μM) resultou em parada do ciclo na fase S com consequente inibição de proliferação celular, um efeito associado à citotoxicidade e que pode favorecer a resolução da fibrose hepática. Neste estudo, por técnicas espectrofotométricas, foi demonstrado que tratamento da GRX por 24 horas com concentrações entre 0,1 a 50 μM de RSV promoveu um efeito pró-oxidante que causa uma citotoxicidade dependente da dose, bastante aumentada no grupo tratado com a concentração mais alta. Os efeitos citotóxicos atenuados encontrados nas células tratadas por 120 horas sugerem que a GRX pode se tornar resistente a estes efeitos. O potencial pró-oxidante do RSV foi o ponto de partida para investigar a possibilidade de que esta fitoalexina provocasse uma alteração no metabolismo mitocondrial da GRX. Para isso, os efeitos do RSV (1 a 50 μM) na função mitocondrial, na indução de morte mediada por estas organelas e na autofagia/mitofagia foram investigados por técnicas de espectrofotometria, de imunocitoquímica, de citometria de fluxo, de microscopia confocal e de microscopia eletrônica de transmissão em GRX tratadas por 24 e 120 horas. Foi demonstrado que todas as concentrações de RSV promovem apoptose por meio da ativação de caspases, alteram a dinâmica/função mitocondrial e induzem o aumento de autofagia/mitofagia na GRX. No entanto, o RSV provocou biogênese de mitocôndrias nos grupos tratados com 1 e 10 μM, enquanto que o tratamento com 50 μM causou dano celular evidente na GRX, sem induzir biogênese de mitocôndrias. Desta forma, é possível que a citotoxicidade “dose-dependente” do RSV, que causa a morte celular e dano oxidativo em 24 horas de tratamento, esteja relacionada com o desequilíbrio entre a indução concomitante de apoptose mediada por dano mitocondrial, autofagia/mitofagia e biogênese de mitocôndrias. Por fim, foi investigada a liberação de TNF-α, Interleucina-6 e Interleucina-10 pela GRX tratada por 24 e 120 horas com RSV (0,1 a 50 μM), considerando o papel antiinflamatório do RSV e o papel das HSC ativadas na sinalização autócrina que contribui para a modulação fenotípica destas células. Foi demonstrado que o tratamento da GRX com RSV por 24 e 120 horas induziu a redução da liberação de Interleucina-6; enquanto que a liberação de TNF-α e Interleucina-10 foi aumentada. Estes resultados confirmam um efeito antiinflamatório do RSV que deve contribuir na prevenção da ativação ou da perpetuação do estado ativado das HSC por meio de sinalização autócrina. Ainda que a concentração do RSV seja importante para efetivamente induzir a morte das HSC ativadas, o tratamento com esta fitoalexina pode ser promissor para a resolução da fibrose hepática por diminuir a população de células ativadas e, possivelmente, prevenir a perpetuação do estado fenotípico ativado. Estudos avaliando indicadores de quiescência em células tratadas são ainda necessários para desvendar completamente os efeitos do RSV quanto às possibilidades de inibição da perpetuação ou reversão fenotípica das HSC ativadas. / Liver fibrosis is a disease that accompanies other hepatic chronic diseases such as cirrhosis and hepatocellular carcinoma. Hepatic stellate cells (HSC) are a heterogeneous cell population characterized by transiting between two phenotypes. Cells with a quiescent phenotype are able to store vitamin A into lipid droplets. Damage to the liver trigger an inflammatory response that generates paracrine and autocrine stimulation mediated by cytokines and reactive species. In this context, HSC assume an activated and fibrogenic phenotype responsive for hepatic wound-healing. Chronic insults to the liver lead to an excessive deposition of extracellular matrix that configures the pathological state of fibrosis. Resveratrol (RSV – 3,4’,5-tri-hidroxi-trans-stilbeno) is a phytoalexin produced by some species of plants. Several beneficial effects are attributed to this molecule due to its antioxidant, antiproliferative and pro-apoptotic potential. Previous studies showed that treatment with bioavailable concentrations of RSV (0.1 to 1 μM) promoted an arrest cycle at the S phase in GRX, a murine activated HSC model, leading to cell proliferation inhibition, a cytotoxic effect that contributes to the liver fibrosis resolution. In this study, it was shown by spectrophotometric techniques that GRX treatment for 24 hours at concentrations between 0.1 to 50 μM of RSV promoted a fairly clear pro-oxidant effect that causes a dose-dependent cytotoxicity that was higher in the group treated with 50 μM. The attenuated cytotoxicity found after 120 hours of GRX treatment suggest that these cells became resistant to this effect. The pro-oxidant potential of RSV was the starting point for investigating the possibility that this phytoalexin would cause a change in the GRX mitochondrial metabolism. Thus, the effects of RSV (1 to 50 μM) on altering the mitochondrial function, on inducing mitochondrial-mediated cell death, and autophagy/mitofagia were investigated in GRX treated for 24 and 120 hours by spectrophotometric techniques, immunocytochemistry, flow cytometry, confocal microscopy, and transmission electron microscopy. All the RSV concentrations promote cell apoptosis through caspases activation, alter the mitochondrial dynamics and function, and induce an increase of autophagy/mitofagia. Curiously, only 1 and 10 μM of RSV induced mitochondrial biogenesis in GRX, while the highest concentration caused an evident cell damage without inducing mitochondrial biogenesis. Thus, it is possible that the "dose-dependent" cytotoxicity of RSV, which causes cell death and oxidative damage in 24 hours of treatment, is related to an imbalance between the concomitant induction of mitochondrial-mediated apoptosis, autophagy/mitofagia, and mitochondrial biogenesis. Finally, it was investigated the release of TNF-α, Interleukin-6 and Interleukin-10 by GRX treated for 24 and 120 hours with RSV (0.1 to 50 μM), considering the anti-inflammatory role of RSV and the autocrine signalling role of HSC that contributes to the perpetuation of its activated phenotype. It was demonstrated that GRX treatment with RSV for 24 and 120 hours reduced the release of Interleukin-6 in the culture medium; whereas the release of TNF-α and Interleukin-10 was increased. These results confirm the anti-inflammatory properties of RSV and may contribute to the prevention of HSC activation through autocrine signalling. Although RSV concentration is important to effectively induce activated HSC death, cells treatment with this phytoalexin may be promising for liver fibrosis resolution through decreasing the population of activated cells or through preventing the perpetuation of activated state of HSC. Future studies evaluating the quiescence indicators of GRX under RSV treatment are still needed to fully unravel the effects of this phytoalexin on inhibiting the perpetuation of activated HSC or reversing its activated phenotype. Células estreladas do fígado Mitocôndrias Biogênese Resveratrol Sobrevivência celular Estresse oxidativo GRX Hepatic stellate cells Interleukin-6 Interleukin-10 Mitochondrial biogenesis Mitochondrial function Resveratrol TNF-α
444	Untersuchungen zur Wechselwirkung von Interleukin-10 mit Glykosaminoglykanen mittels NMR-Spektroskopie Künze, Georg 04 August 2015 (has links) Das Zytokin Interleukin-10 (IL-10) ist ein Schlüsselspieler in der Regulation des Immunsystems mit pro- und anti-inﬂammatorischen Funktionen. Es spielt eine wichtige Rolle bei der Terminierung und Unterdrückung einer Entzündungsantwort, die ansonsten zu einer bleibenden Schädigung des Gewebes führen kann. Eine Dysregulation von IL-10 ist mit verschiedenen Krankheitsbildern wie chronischen Entzündungen, Autoimmunerkrankungen und Krebs assoziiert. IL-10 wird von einem breiten Spektrum von Zelltypen, darunter hauptsächlich hämatopoetische Zellen, aber auch epitheliale und mesenchymale Zellen, gebildet und in den extrazellulären Raum freigesetzt, wo es mit Komponenten der extrazellulären Matrix in Kontakt kommt. Es ist bekannt, dass IL-10 an Glykosaminoglykane (GAGs) binden kann und dass diese Interaktion seine biologische Aktivität beeinﬂusst. GAGs sind eine Klasse linearer Polysaccharide der extrazellulären Matrix. Sie bestehen aus wiederholenden Disaccharideinheiten und haben einen hoch negativ geladenen Charakter, welcher durch einen hohen Grad an Sulfatierung in der Zuckerkette zustandekommt. Sie binden eine Vielzahl an Signalproteinen und regulieren deren biologische Funktionen, etwa indem sie Einﬂuss auf die Rezeptorbindung oder die räumliche Verteilung des Proteins im Gewebe nehmen. Die molekularen Mechanismen, wodurch GAGs die biologische Aktivität von IL-10 beeinﬂussen, sind bisher unbekannt. Insbesondere ist nichts über die strukturellen Grundlagen der Interaktion bekannt, die Voraussetzung für ihr funktionelles Verständnis sind. In dieser Arbeit wurden daher die Bindungseigenschaften von IL-10 und GAGs sowie der strukturelle Aufbau ihres molekularen Komplexes unter Verwendung von NMR-Spektroskopie in Lösung charakterisiert. Es wurde eine deﬁnierte GAG-Bindungsstelle in IL-10 identiﬁziert und die Bindungsepitope und Bindungsaﬃnitäten von GAGs bestimmt. Die Ergebnisse dieser Arbeit weisen auf eine wichtige Rolle, die GAGs in der Biologie von IL-10 spielen können, hin – etwa für seine Speicherung im Gewebe oder für die IL-10-Rezeptorbindung. info:eu-repo/classification/ddc/570 ddc:570
445	The Impacts of Inflammation on Adult Prostate Stem Cells Paula Cooper (9189491) 04 August 2020 (has links) <p>Adult prostate stem cells (PSC) are a rare epithelial progenitor population in the prostate. While essential for normal homeostasis, they have also been implicated in hyperplasia and cancer initiation. While studies have shown that inflammatory growth factors and cytokines can fuel stem cell expansion, the impact of inflammation on PSC is not well understood. To study the impact of inflammation on the prostate, the Ratliff laboratory developed the Prostate Ovalbumin Expressing Transgenic 3 (POET3), an inducible mouse model of abacterial T cell mediated prostate inflammation, which functions as a model for human autoimmune prostatitis. Previous studies using the POET3 demonstrated that inflammation increased proliferation and differentiation of PSC enrichments. Based on these findings, it was speculated that inflammation impacts prostate stem cells to enhance mechanisms of survival, possibly as a means of tissue protection.</p><p>Since androgen receptor (AR) signaling is the major driver of cellular differentiation and survival in the prostate, it was further hypothesized that inflammation promotes AR signaling in the PSC. To address this hypothesis, PSC and their resulting organoids from inflamed and non-inflamed (naïve) POET3 mice as well as human patient samples were assessed for AR and its signaling components.</p><p>These data were expanded by single cell mRNA sequencing using Fluidigm’s C1 platform, which revealed changes in stem cell populations, differential expression of interleukin 1 alpha (IL-1⍺) and its signaling components, and upregulation of various genes associated with immune regulation. Thus, experiments described herein probed the impacts of inflammation on AR, IL-1⍺, and T cell regulatory abilities in the PSC.</p>The results of these studies indicate that indeed, inflammation increases PSC survival. Inhibition of IL-1⍺ via inflammation-mediated up-regulation of IL-1 receptor antagonist (IL-1RA) promotes AR signaling, resulting in proliferation, differentiation, and AR target gene expression which can be modulated by Enzalutamide (a clinical AR inhibitor). Furthermore, PSC from inflamed mice are able to suppress cytotoxic T cell function in <i>ex vivo</i> assays. These studies set the foundation for new ways to treat proliferative diseases of the prostate by targeting IL-1⍺, AR, and immune regulation in the PSC. Cell Biology Immunology Stem Cells Cellular Immunology Cancer Cell Biology Prostate Stem Cells Androgen Receptor Inflammation T Cells Hyperplasia Interleukin 1 alpha Interleukin 1 Receptor Antagonist
446	Die Rolle von Interleukin-2 für die Interaktion von Foxp3+ regulatorischen T-Zellen mit Effektorzellen im Darm Händel, Norman 26 January 2011 (has links) Natürlich vorkommende regulatorische T-Zellen spielen eine entscheidende Rolle für die intestinale Immunhomöostase und Limitierung von (Auto)-Immunität. Sie exprimieren den Transkriptionsfaktor Foxp3 und an der Oberfläche die α-Kette des IL-2 Rezeptors (CD25). Im Tiermodell verhindern regulatorische T-Zellen Autoimmunopathien, Transplantatabstoßungen und entzündliche Darmerkrankungen. Da Foxp3+ regulatorische T-Zellen nur äußerst geringe Mengen an Interleukin-2 synthetisieren, sind sie auf eine adäquate Versorgung angewiesen. Konventionelle T-Zellen werden als bedeutende IL-2 Quelle für Treg-Zellen vermutet, doch über die Mechanismen und räumlich-zeitliche Dynamik der Treg-Effektor-Zellinteraktion ist bisher nur wenig bekannt. In dieser Arbeit wurden Foxp3+ regulatorische T-Zellen in Mausgeweben analysiert und Zellinteraktionen mit Effektorzellen im Darm charakterisiert. Es wurde ein theoretisches Modell zur Evaluierung von Zell-Zellkontakten erarbeitet und experimentell überprüft. Es konnte gezeigt werden, dass in der Akutphase einer T-Zell-induzierten Kolitis und im Kolon von gesunden Wildtyp-Mäusen Foxp3+ regulatorische T-Zellen an Ki-67+ proliferierenden T-Zellen akkumulieren. Diese Zellinteraktionen sind abhängig von Interleukin-2, da IL-2 defiziente Mäuse keine signifikanten Treg-Effektor-Zellakkumulationen aufweisen. Die Analyse der Genexpression konnte zeigen, dass Ki-67+ Zellen Interleukin-2 produzieren. Lokal sezerniertes Interleukin-2 könnte als Sensor für Entzündungsprozesse chemotaktisch auf Foxp3+ regulatorische T-Zellen wirken und die Akkumulation an proliferierenden, IL-2 produzierenden Effektorzellen bedingen. Dieser Mechanismus könnte einerseits zur lokalen Versorgung mit IL-2 dienen und gleichzeitig regulierend auf Effektorzellen in unmittelbarer Umgebung wirken. Dieser Prozess würde zur Erhaltung von regulatorischen T-Zellen in der Peripherie und zur Sicherung der intestinalen Immunbalance beitragen.:Bibliographische Beschreibung Inhaltsverzeichnis Abkürzungsverzeichnis 1 Einleitung 1.1 Charakterisierung von intestinalen Foxp3+ regulatorischen T-Zellen 1.2 Mechanismen der Treg-vermittelten Immunregulation 1.3 Zielstellung der Arbeit 2 Publikation Cell-Cell-Neighborhood Relations in Tissue Sections - A Quantitative Model for Tissue Cytometry 3 Appendix A Herleitung des Modellsystems zur Berechnung der zufälligen Kontaktwahrscheinlichkeit 4 Appendix B Automatische Bildanalyse mit CellProfiler 4.1 Einleitung 4.2 Algorithmus der histologischen Bildanalyse mit CellProfiler 4.3 Validierung der Messdaten 4.4 Zusammenfassung 4.5 Detaillierte Darstellung des CellProfiler-Algorithmus 5 Unpublizierte Experimente Die Rolle von Interleukin-2 für die Akkumulation von Foxp3+ Treg-Zellen an Ki-67+ proliferierenden Effektorzellen im Darm 5.1 Einleitung 5.2 Material und Methoden 5.2.1 Mausgewebe 5.2.2 Immunfluoreszenzfärbung 5.2.3 Laser-Mikrodissektion 5.2.4 RNA Isolation, Reverse Transkription, quantitative Real-Time PCR 5.2.5 Sequenzierung 5.3 Ergebnisse 6 Abschließende Diskussion 7 Zusammenfassung der Arbeit Erklärung über die eigenständige Abfassung der Arbeit Lebenslauf Danksagung Literaturverzeichnis info:eu-repo/classification/ddc/610 ddc:610
447	The Characterization of Iron and Zinc Redistribution in Pancreatic Beta-Cells Under Conditions of Low-Grade Inflammation Counts, Grace P. 28 April 2022 (has links) No description available. Biomedical Research Biology Cellular Biology type 2 diabetes beta-cell iron zinc inflammation cytokines interleukin-1beta (IL-1beta) interleukin-6 (IL-6)
448	Eosinophils as Drivers of the IL-23/IL-17 Axis: Implications for Acute Aspergillosis and Allergic Asthma: A Dissertation Guerra, Evelyn V. Santos 23 February 2016 (has links) Aspergillus fumigatus is an opportunistic fungal pathogen that causes lethal invasive pulmonary disease in immunocompromised hosts and allergic asthma in sensitized individuals. This dissertation explores how eosinophils may protect hosts from acute infection while driving asthma pathogenesis by co-producing IL-23 and IL-17 in both contexts. In an acute model of pulmonary aspergillosis, eosinophils were observed to associate with and kill A. fumigatus spores in vivo. In addition, eosinopenia was correlated with higher mortality rates, decreased recruitment of inflammatory monocytes to the lungs, and decreased expansion of lung macrophages. As IL-17 signaling must occur on a local level to elicit its stereotypical response, such as the up-regulation of antimicrobial peptides and specific chemokines from stromal cells, eosinophils were discovered to be a significant source of pulmonary IL-17 as well as one of its upstream inducers, IL-23. In the context of asthma, this discovery opens a new paradigm whereby eosinophils might be driving asthma pathogenesis. Aspergillus fumigatus Asthma Eosinophils Interleukin-17 Interleukin-23 Pulmonary Aspergillosis Dissertations, UMMS Immunology of Infectious Disease Immunopathology Pathogenic Microbiology Respiratory Tract Diseases
449	Transcription factor regulation of T helper subset function Awe, Olufolakemi O. 01 May 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The immune system protects the body from foreign organisms. T cells and B cells are integral components of the ability of the immune system to generate focused immune responses. The development of specialized subsets of T helper cells is governed by transcription factors. Previous work demonstrated a requirement for the transcription factor PU.1 in the development of IL-9-secreting Th9 cells. Work in this dissertation demonstrates that the Th9 subset is not stable in vitro, and that PU.1 expression decreases during long-term culture. To examine a role for PU.1 in Th9-independent immunity we examined a model of multiple sclerosis termed experimental autoimmune encephalomyelitis (EAE). Mice that lack PU.1 expression in T cells (Sfpi1lck-/- mice) demonstrated more severe disease with attenuated recovery compared to control mice, and this was accompanied by an increase of T cells in the central nervous system. We also observed that following multiple routes of immunization Sfpi1lck-/- mice had increased numbers of T follicular helper (Tfh) cells and increased germinal center responses. This correlated with increased expression of the cytokine IL-21 and the surface protein CD40L in T cells that lacked PU.1 expression and resulted in increased numbers of germinal center B cells and antigen-specific antibody titers compared to control mice. The increased germinal center B cells and antibody titers were attenuated with blocking CD40L antibody but not with neutralizing IL-21 antibody. These results suggest that PU.1 limits the expression of CD40L on Tfh cells to regulate the humoral immune response. Together, the data in this dissertation demonstrate Th9-independent functions of PU.1. Moreover, this work shows that transcription factors promoting the development of one subset of T helper cells can simultaneously have negative effects on distinct T cell lineages. CD40L EAE Interleukin 21 PU.1 Tfh cells Th9 cells T cells B cells Transcription factors Cytokines Interleukin-21 Immune response -- Regulation Immunology Mice as laboratory animals
450	IL-4 and IL-10 Modulation of CD40-Mediated Signaling of Monocyte IL-1beta Synthesis and Rescue From Apoptosis Poe, J C., Wagner, D. H., Miller, R W., Stout, R D., Suttles, J. 15 July 1997 (has links) Previous studies have demonstrated that the interaction of CD40 on monocytes with CD40 ligand, present on activated CD4+ T cells, induces monocyte inflammatory cytokine synthesis and rescues monocytes from apoptosis. These findings suggest a role for CD40 signaling of monocyte activation in the maintenance and/or exacerbation of nonseptic (e.g., autoimmune) inflammatory responses. In the present study the effects of the modulatory cytokines IL-4 and IL-10 on CD40-mediated signaling of monocyte IL-1beta synthesis and rescue from apoptosis were examined. Both IL-4 and IL-10 decreased CD40-dependent IL-1beta synthesis in a dose-dependent manner individually and synergized in this effect when used concurrently, with minimal effect on CD40 surface expression. CD40 signaling of IL-1beta synthesis was shown to be dependent on the induction of protein tyrosine kinase (PTK) activity, and both IL-4 and IL-10 diminished CD40-mediated tyrosine phosphorylation of monocyte cellular proteins. However, IL-4, but not IL-10, blocked CD40-mediated rescue from apoptosis, an event that we have demonstrated previously to be dependent on PTK activity as well. Together these results suggest that in monocytes 1) both IL-4 and IL-10 target CD40-induced PTK activity in the down-regulation of IL-1beta synthesis; and 2) IL-4 and IL-10 have divergent effects on the CD40 signaling pathway, in that these cytokines are synergistic with respect to their abilities to inhibit CD40-mediated IL-1beta synthesis and differ in their abilities to block CD40-mediated rescue from apoptosis. apoptosis (drug effects) CD40 antigens (metabolism) cells cultured flow cytometry humans interleukin-10 (pharmacology) interleukin-4 (pharmacology) monocytes (metabolism pathology) signal transduction (drug effects)

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