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Extracullular Atp Regulates Il-1beta Release From Microglial Cells Via Purinergic Receptor After In Vitro TraumaLiang, Chengya 01 January 2004 (has links)
Traumatic brain injury (TBI) induces a state of microglialactivation, which includes upregulation of macrophage functions and release inflammatory mediators such as certain inflammatory cytokines. Current literature suggests that interleukin-1Beta is an important cytokine mediator, which is dramatically increased after brain injury. Previous studies indicate that ATP is released by traumatically injured astrocytes and serves as a cell-to-cell mediator through purinergic receptors after in vitro injury. However, the mechanism of interleukin-1Beta release after traumatic brain injury remains poorly defined and is difficult to study using in vivo models. Using an in vitro model for traumatic brain injury (cell strain or stretch), we investigated the role of the extracellular nucleotides (ATP) in regulation of interleukin-1Beta release in rat cortical brain cells. We now report that activated microglia constitute the major source of interleukin-1Beta release after in vitro trauma. ATP is a powerful stimulus for interleukin-1Beta release from microglial cultures. Glutamate inhibits interleukin-1Beta release. ATP-induced interleukin-1Beta release was blocked completely by the P2X7 receptor antagonist, oxidized ATP, and partially by the P2X7 receptor antagonist suramin, suggesting that ATP stimulates interleukin-1Beta release from microglia via purinergic receptor and the P2X7 receptor is responsible for the interleukin-1Beta release. Blockage of interleukin-1Beta release by the purinergic receptor antagonists oATP and suramin decreased cell damage in uninjured mixed organotypic brain cell culture exposed to activated microglia. Taken together, these results suggest that interleukin-1Beta mediated inflammatory events are regulated in activated microglia by extracellular nucleotides (ATP) via purinergic receptors in central nervous system after in vitro trauma.
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The stage-specific effects of IL-1β on human natural killer cell developmentHughes, Tiffany L. 20 July 2011 (has links)
No description available.
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Characterization of IL-1 and IL-36 Cytokines in Health and DiseaseMilora, Katelynn Ann January 2017 (has links)
Epithelial cells are the first line of defense against invading pathogens and external threats in the environment. Keratinocytes, often not perceived of as immune cells, release cytokines in response to infection or injury to signal danger to neighboring cells and recruit effector leukocytes to prevent further damage to the host. IL-1 and IL-36 cytokines are a group of closely related proteins that share similarities in structure and function and have been shown to play key roles in inflammatory responses of epithelial tissues. While IL-1, consisting of IL-1α and IL-1β, have been widely studied and recognized as pinnacle cytokines in a variety of inflammatory responses, relatively little is understood about IL-36 cytokines since their discovery more than 15 years ago, and how they differ from their better-known IL-1 relatives. IL-36 cytokines, consisting of IL-36α, IL-36β, and IL-36γ, signal through the same receptor, IL-36R, which is expressed most abundantly on epithelial cells. IL-36 proteins garnered attention when it was discovered that a missense mutation in the gene encoding the naturally occurring receptor antagonist, IL-36Ra, was associated with the deadly form of psoriasis, generalized pustular psoriasis (GPP). This disease is characterized by episodic flares of keratinocyte hyperproliferation leading to red scaly lesions all over the body, excessive neutrophil recruitment to the epidermis resulting in pustule formation, and severe fever. Our data presented here demonstrate that IL-36α, but not IL-36β or IL-36γ is critical for the psoriatic phenotype, including epidermal thickening and neutrophil recruitment, generated during a murine model of psoriasis induced by the drug Imiquimod. Furthermore, IL-36α was found to induce IL-1α expression and vice versa through a signaling feedback loop which perpetuated disease. These data provide insight into mechanisms whereby IL-36 signaling can lead to excessive inflammatory effects in patients with pre-existing regulation deficiencies, which can lead to acute flares of disease. Beyond their association with disease, IL-1 has been shown to contribute to anti-bacterial and anti-viral responses of the immune system by upregulating inflammatory signals and chemoattractants. Herpes Simplex Virus-1 (HSV-1) is a human pathogen that has developed several strategies to manipulate elements of the immune system to avoid detection by the host. One such mechanism is the prevention of activation and release of IL-1β from infected cells thereby blocking its pro-inflammatory responses. Our data show that keratinocytes infected with HSV-1 actively release IL-1α to alert danger to neighboring cells to circumvent this blockage of IL-1β signaling. This release of IL-1α initiates recruitment of leukocytes to early HSV-1 microinfection sites resulting in increased protection against disease, as evident by the increased mortality rate of mice deficient in the IL-1 receptor, IL-1R1. This study, for the first time in vivo, demonstrates the ability of IL-1α to act as an alarmin to initiate an immune response to combat infection. The role of IL-36 cytokines during viral infections has been less defined than that of IL-1. Several studies have shown the upregulation of IL-36 expression during viral infections in epithelial tissues, such as HSV-1 and Influenza, yet a direct link has not been established between these proteins and anti-viral responses. Our research presented within this thesis show that IL-36β, but not IL-36α nor IL-36γ, provides protection against the lethal outcome of cutaneous HSV-1 infection, as demonstrated by IL-36β knockout mice dying earlier and more often than wild type mice. Surprisingly, while previous reports have found IL-36 cytokines to be capable of activating the adaptive immune system, our results found no significant differences in development of HSV-1 specific antibodies or CD8+ T cell development between wild type and IL-36β knockout mice. Furthermore, we found no significant differences in viral copy numbers at infection sites between the two groups. Although our data show that IL-36β clearly plays a critical role in controlling the outcome of HSV-1 infection, further studies are necessary to define the mechanisms behind this protection. The final section of this thesis focuses on the endogenous nature of IL-36 cytokines, specifically IL-36γ, and their potential processing. IL-36 cytokines were originally believed to be synthesized as full-length fully active proteins; however, large concentrations of the recombinant proteins were required to elicit cellular responses in vitro. Since then, studies have shown that IL-36 cytokines gained up to 1000-fold increases in reactivity following processing at very specific N-terminal locations of each individual cytokine, however this processing has never been shown to occur in vivo. These studies were recently expanded when neutrophil proteases were found to be responsible for processing of these proteins in vitro. Data presented here show, for the first time, that IL-36γ may be endogenously processed by neutrophils in wounded murine skin in vivo, yet, the amino acid processing site appears to be different from that predicted. Although further studies are required to fully characterize the nature of this processing, these data provide valuable insight into the natural mechanisms involved in the potential activation of these cytokines. Taken together, the research presented within this thesis sheds light on the mechanisms whereby IL-1 and IL-36 cytokines enhance immunological defenses against potential threats, and yet, can contribute to disease if unregulated. Furthermore, these studies demonstrate the evolutionary advantage of producing multiple cytokines that appear to have redundant roles within the body, yet can provide multiple levels of protection to the host. This knowledge contributes to our overall understanding of these proteins and their contribution to immunological systems within the body. / Microbiology and Immunology
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Receptor de aerobactina férrica de Escherichia coli - IutA: um novo antígeno T-independente do tipo 1 / Ferric aerobactin receptor from Escherichia coli IutA: a new type 1 T-independent antigenLandgraf, Taise Natali 15 June 2012 (has links)
Alguns fatores de virulência em bactérias de microbiota normal, tais como sideróforos moléculas captadoras de ferro e determinadas fímbrias, possibilitam que esses microorganismos causem infecção quando a colonização ocorre fora de seu habitat normal. Dentre as diferentes espécies bacterianas da microbiota normal com potencial para causar doenças, como as infecções do trato urinário (ITUs), destaca-se Escherichia coli. Certas cepas dessa espécie bacteriana apresentam um plasmídeo (pColV) que contém um gene que codifica IutA, o receptor para a aerobactina férrica, que é um sideróforo frequentemente associado às ITUs. Recentemente, nosso grupo estabeleceu que IutA apresenta a capacidade de induzir proliferação de linfócitos B. Neste trabalho, objetivamos identificar as moléculas e os mecanismos que modulam a proliferação de linfócitos B induzida por IutA recombinante (rIutA) de E. coli. Para avaliar se a proliferação era dependente de outras células, foram realizados ensaios de proliferação de células B marcadas com CFSE utilizando o sobrenadante de macrófagos ou células dendríticas estimulados com rIutA, por 24 horas, ou coculturas em placas de transwell. As análises desses ensaios revelaram que a proliferação das células B induzida por rIutA é dependente de moléculas liberadas por células acessórias, ou seja, ocorre de forma indireta. Os resultados dos ensaios utilizando células deficientes da molécula adaptadora MyD88 mostraram dependência da sinalização por essa molécula nos linfócitos B, mas não nas células acessórias, para que ocorresse a proliferação. Posteriormente, os ensaios in vitro utilizando células de animais deficientes para TLR4, TLR2 e IL-33R mostraram que a sinalização por esses receptores é dispensável. Contrariamente, a utilização do antagonista do receptor de IL-1 reduziu significativamente a proliferação de células B tratadas com esse antagonista. Além disso, identificamos que rIutA leva à expressão de IL-1 em macrófagos e células dendríticas estimuladas com essa proteína. Assim, nossos resultados sugerem que rIutA de E. coli induz a proliferação policlonal de linfócitos B de maneira independente de células T, por um mecanismo mediado por células acessórias, como macrófagos e células dendríticas. Embora não identifiquemos o receptor macrofágico ou das células dendríticas a qual rIutA se liga, sugerimos que a ação de rIutA sobre essas células induz a produção de IL-1 que age sobre seu receptor em células B, induzindo-as a proliferação. Esses resultados abrem perspectivas de estudo de IutA como molécula estimuladora do tecido linfóide associado a mucosa, assim como evasina de E. coli patogênicas. / Indigenous bacteria may contain some virulence factors, such as siderophores iron chelator molecules and fimbriae, that allow these microorganisms to become pathogens in sites others than their normal habitat. Among the different indigenous bacterial species in the gut, Escherichia coli is one with potential to cause infections, mainly urinary tract infection (UTI). Certain strains of E. coli have a plasmid (pColV), which encode ferric aerobactin outer membrane receptor, IutA, often associated with UTI. Our group has recently described IutA as an inducer of B cell proliferation. Here, we identify the molecules and mechanisms that modulate the proliferation of B lymphocytes induced by recombinant IutA (rIutA) from E. coli. To determine whether the B cell proliferation induced by rIutA is dependent on other cell, we carried out assays with CFSE-labeled B cells cocultured separately with macrophages or dendritic cells stimulated with rIutA using transwell membranes or incubated with conditioned medium from these cells. The analysis of the results showed that rIutA indirectly induced the proliferation of B cells in a manner dependent on molecules released by accessory cells. When we analyzed the ability of rIutA in inducing proliferation of cells from mice deficient in adapter molecule MyD88, we found that this signaling molecule is crucial for signaling induced by rIutA in B cells, but not in accessory cells. A similar analysis with cells from mice deficient in Toll like receptor (TLR) 4, TLR2 or inteukin (IL-) 33 receptor revealed that these receptors were not required for rIutA signaling of any tested cells. Conversely, the pretreatment of the B cells with IL-1 receptor antagonist significantly decreased the proliferation of these cells in response to conditioned medium from cultures of IutAstimulated macrophages. Moreover, we determined that rIutA induced the expression of IL-1 in macrophages and dendritic cells stimulated with IutA. Altogether, our results suggest that IutA from E. coli induces polyclonal B-cell proliferation independently of T cells in a mechanism mediated by accessory cells such as macrophages and dendritic cells. Although the IutA-binding receptors from macrophages and dendritic cells have not been identified, we suggested that rIutA induces these cells to produce IL-1, which in turns acts on its receptor on B cells, triggering proliferation. These results open perspectives for studying IutA as a molecule that stimulates the mucosa-associated lymphoid tissue and as an immune-evasion molecule from pathogenic E. coli.
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Receptor de aerobactina férrica de Escherichia coli - IutA: um novo antígeno T-independente do tipo 1 / Ferric aerobactin receptor from Escherichia coli IutA: a new type 1 T-independent antigenTaise Natali Landgraf 15 June 2012 (has links)
Alguns fatores de virulência em bactérias de microbiota normal, tais como sideróforos moléculas captadoras de ferro e determinadas fímbrias, possibilitam que esses microorganismos causem infecção quando a colonização ocorre fora de seu habitat normal. Dentre as diferentes espécies bacterianas da microbiota normal com potencial para causar doenças, como as infecções do trato urinário (ITUs), destaca-se Escherichia coli. Certas cepas dessa espécie bacteriana apresentam um plasmídeo (pColV) que contém um gene que codifica IutA, o receptor para a aerobactina férrica, que é um sideróforo frequentemente associado às ITUs. Recentemente, nosso grupo estabeleceu que IutA apresenta a capacidade de induzir proliferação de linfócitos B. Neste trabalho, objetivamos identificar as moléculas e os mecanismos que modulam a proliferação de linfócitos B induzida por IutA recombinante (rIutA) de E. coli. Para avaliar se a proliferação era dependente de outras células, foram realizados ensaios de proliferação de células B marcadas com CFSE utilizando o sobrenadante de macrófagos ou células dendríticas estimulados com rIutA, por 24 horas, ou coculturas em placas de transwell. As análises desses ensaios revelaram que a proliferação das células B induzida por rIutA é dependente de moléculas liberadas por células acessórias, ou seja, ocorre de forma indireta. Os resultados dos ensaios utilizando células deficientes da molécula adaptadora MyD88 mostraram dependência da sinalização por essa molécula nos linfócitos B, mas não nas células acessórias, para que ocorresse a proliferação. Posteriormente, os ensaios in vitro utilizando células de animais deficientes para TLR4, TLR2 e IL-33R mostraram que a sinalização por esses receptores é dispensável. Contrariamente, a utilização do antagonista do receptor de IL-1 reduziu significativamente a proliferação de células B tratadas com esse antagonista. Além disso, identificamos que rIutA leva à expressão de IL-1 em macrófagos e células dendríticas estimuladas com essa proteína. Assim, nossos resultados sugerem que rIutA de E. coli induz a proliferação policlonal de linfócitos B de maneira independente de células T, por um mecanismo mediado por células acessórias, como macrófagos e células dendríticas. Embora não identifiquemos o receptor macrofágico ou das células dendríticas a qual rIutA se liga, sugerimos que a ação de rIutA sobre essas células induz a produção de IL-1 que age sobre seu receptor em células B, induzindo-as a proliferação. Esses resultados abrem perspectivas de estudo de IutA como molécula estimuladora do tecido linfóide associado a mucosa, assim como evasina de E. coli patogênicas. / Indigenous bacteria may contain some virulence factors, such as siderophores iron chelator molecules and fimbriae, that allow these microorganisms to become pathogens in sites others than their normal habitat. Among the different indigenous bacterial species in the gut, Escherichia coli is one with potential to cause infections, mainly urinary tract infection (UTI). Certain strains of E. coli have a plasmid (pColV), which encode ferric aerobactin outer membrane receptor, IutA, often associated with UTI. Our group has recently described IutA as an inducer of B cell proliferation. Here, we identify the molecules and mechanisms that modulate the proliferation of B lymphocytes induced by recombinant IutA (rIutA) from E. coli. To determine whether the B cell proliferation induced by rIutA is dependent on other cell, we carried out assays with CFSE-labeled B cells cocultured separately with macrophages or dendritic cells stimulated with rIutA using transwell membranes or incubated with conditioned medium from these cells. The analysis of the results showed that rIutA indirectly induced the proliferation of B cells in a manner dependent on molecules released by accessory cells. When we analyzed the ability of rIutA in inducing proliferation of cells from mice deficient in adapter molecule MyD88, we found that this signaling molecule is crucial for signaling induced by rIutA in B cells, but not in accessory cells. A similar analysis with cells from mice deficient in Toll like receptor (TLR) 4, TLR2 or inteukin (IL-) 33 receptor revealed that these receptors were not required for rIutA signaling of any tested cells. Conversely, the pretreatment of the B cells with IL-1 receptor antagonist significantly decreased the proliferation of these cells in response to conditioned medium from cultures of IutAstimulated macrophages. Moreover, we determined that rIutA induced the expression of IL-1 in macrophages and dendritic cells stimulated with IutA. Altogether, our results suggest that IutA from E. coli induces polyclonal B-cell proliferation independently of T cells in a mechanism mediated by accessory cells such as macrophages and dendritic cells. Although the IutA-binding receptors from macrophages and dendritic cells have not been identified, we suggested that rIutA induces these cells to produce IL-1, which in turns acts on its receptor on B cells, triggering proliferation. These results open perspectives for studying IutA as a molecule that stimulates the mucosa-associated lymphoid tissue and as an immune-evasion molecule from pathogenic E. coli.
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O hidrogênio molecular potencializa a hipotermia e previne a hipotensão e a febre durante a inflamação sistêmica induzida por LPS / Molecular hydrogen potentiates hypothermia and prevents hypotension and fever in LPS-induced systemic inflammationSaramago, Eduardo Alves 29 November 2018 (has links)
O hidrogênio molecular (H2) exerce efeito antioxidante, anti-apoptótico e antiinflamatório. Nesse estudo testamos a hipótese que o H2 modula as mudanças cardiovasculares, inflamatórias e termorregulatórias na inflamação sistêmica (IS) induzida por lipopolissacarídeo (LPS) em diferentes doses (0,1 ou 1,5 mg/kg, intravenoso, induzindo IS moderada ou severa) em ratos machos Wistar (250-300 g). LPS ou salina foi injetada imediatamente antes do início dos 360 minutos de inalação do H2 (2% H2, 21% O2, balanceado com nitrogênio) ou ar ambiente (21% O2, balanceado com nitrogênio). A temperatura corporal (Tc) foi mensurada por datalogger pré-implantados na cavidade peritoneal. O H2 não causou mudança nos parâmetros cardiovasculares, inflamatórios e na Tc dos ratos controle (tratados com salina). Durante a IS moderada o H2 reduziu o surgimento das citocinas pró-inflamatórias no plasma (TNF-? e IL-6) enquanto causou um aumento da IL-10 plasmática (citocina anti-inflamatória) e preveniu a febre. Durante a IS severa o H2 potencializou a hipotermia e preveniu a febre e a hipotensão. Além disso, o H2 causou uma redução no surgimento das citocinas pró-inflamatórias (TNF-? e IL-1? do plasma) e prostaglandina E2 [(PGE2), no plasma e no hipotálamo], e um aumento da IL-10 plasmática. Esses dados são consistentes com o entendimento que o H2 atenua a febre na IS moderada e durante a IS severa potencializa a hipotermia, previne a hipotensão e exerce um efeito antiinflamatório forte o suficiente para prevenir a febre alterando a sinalização febrigênica e alterando a produção hipotalâmica de PGE2 / Molecular hydrogen (H2) exerts anti-oxidative, anti-apoptotic, and anti-inflammatory effects. Here we tested the hypothesis that H2 modulates cardiovascular, inflammatory, and thermoregulatory changes in systemic inflammation (SI) induced by lipopolysaccharide (LPS) at different doses (0.1 or 1.5 mg/kg, intravenously, to induce mild or severe SI) in male Wistar rats (250-300 g). LPS or saline was injected immediately before the beginning of 360- minute inhalation of H2 (2% H2, 21% O2, balanced with nitrogen) or room air (21% O2, balanced with nitrogen). Deep body temperature (Tb) was measured by dataloggers preimplanted in the peritoneal cavity. H2 caused no change in cardiovascular, inflammatory parameters, and Tb of control rats (treated with saline). During mild SI, H2 reduced plasma surges of proinflammatory cytokines (TNF-? and IL-6) while caused an increase in plasma IL-10 (anti-inflammatory cytokine) and prevented fever. During severe SI, H2 potentiated hypothermia, and prevented fever and hypotension. Moreover, H2 caused a reduction in surges of proinflammatory cytokines (plasma TNF-? and IL-1?) and prostaglandin E2 [(PGE2), in plasma and hypothalamus], and an increase in plasma IL-10. These data are consistent with the notion that H2 blunts fever in mild SI, and during severe SI potentiates hypothermia, prevents hypotension and exerts anti-inflammatory effects strong enough to prevent fever by altering febrigenic signaling and ultimately down-modulating hypothalamic PGE2 production
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O hidrogênio molecular potencializa a hipotermia e previne a hipotensão e a febre durante a inflamação sistêmica induzida por LPS / Molecular hydrogen potentiates hypothermia and prevents hypotension and fever in LPS-induced systemic inflammationEduardo Alves Saramago 29 November 2018 (has links)
O hidrogênio molecular (H2) exerce efeito antioxidante, anti-apoptótico e antiinflamatório. Nesse estudo testamos a hipótese que o H2 modula as mudanças cardiovasculares, inflamatórias e termorregulatórias na inflamação sistêmica (IS) induzida por lipopolissacarídeo (LPS) em diferentes doses (0,1 ou 1,5 mg/kg, intravenoso, induzindo IS moderada ou severa) em ratos machos Wistar (250-300 g). LPS ou salina foi injetada imediatamente antes do início dos 360 minutos de inalação do H2 (2% H2, 21% O2, balanceado com nitrogênio) ou ar ambiente (21% O2, balanceado com nitrogênio). A temperatura corporal (Tc) foi mensurada por datalogger pré-implantados na cavidade peritoneal. O H2 não causou mudança nos parâmetros cardiovasculares, inflamatórios e na Tc dos ratos controle (tratados com salina). Durante a IS moderada o H2 reduziu o surgimento das citocinas pró-inflamatórias no plasma (TNF-? e IL-6) enquanto causou um aumento da IL-10 plasmática (citocina anti-inflamatória) e preveniu a febre. Durante a IS severa o H2 potencializou a hipotermia e preveniu a febre e a hipotensão. Além disso, o H2 causou uma redução no surgimento das citocinas pró-inflamatórias (TNF-? e IL-1? do plasma) e prostaglandina E2 [(PGE2), no plasma e no hipotálamo], e um aumento da IL-10 plasmática. Esses dados são consistentes com o entendimento que o H2 atenua a febre na IS moderada e durante a IS severa potencializa a hipotermia, previne a hipotensão e exerce um efeito antiinflamatório forte o suficiente para prevenir a febre alterando a sinalização febrigênica e alterando a produção hipotalâmica de PGE2 / Molecular hydrogen (H2) exerts anti-oxidative, anti-apoptotic, and anti-inflammatory effects. Here we tested the hypothesis that H2 modulates cardiovascular, inflammatory, and thermoregulatory changes in systemic inflammation (SI) induced by lipopolysaccharide (LPS) at different doses (0.1 or 1.5 mg/kg, intravenously, to induce mild or severe SI) in male Wistar rats (250-300 g). LPS or saline was injected immediately before the beginning of 360- minute inhalation of H2 (2% H2, 21% O2, balanced with nitrogen) or room air (21% O2, balanced with nitrogen). Deep body temperature (Tb) was measured by dataloggers preimplanted in the peritoneal cavity. H2 caused no change in cardiovascular, inflammatory parameters, and Tb of control rats (treated with saline). During mild SI, H2 reduced plasma surges of proinflammatory cytokines (TNF-? and IL-6) while caused an increase in plasma IL-10 (anti-inflammatory cytokine) and prevented fever. During severe SI, H2 potentiated hypothermia, and prevented fever and hypotension. Moreover, H2 caused a reduction in surges of proinflammatory cytokines (plasma TNF-? and IL-1?) and prostaglandin E2 [(PGE2), in plasma and hypothalamus], and an increase in plasma IL-10. These data are consistent with the notion that H2 blunts fever in mild SI, and during severe SI potentiates hypothermia, prevents hypotension and exerts anti-inflammatory effects strong enough to prevent fever by altering febrigenic signaling and ultimately down-modulating hypothalamic PGE2 production
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Der Einfluss von Glykosaminoglykanen auf die Bildung und Freisetzung von Prostaglandin E2Grahl, Katrin 16 November 2015 (has links) (PDF)
Diese Arbeit verdeutlicht die Wirkung von Chondroitinsulfat auf die Synthese von Prostaglandin E2 in humanen mesenchymalen Stromazellen in Abhängigkeit ihres Sulfatierungsgrades. MSC zeichnen sich durch ihre antiinflammatorischen Eigenschaften aus und haben damit einen modulierenden Effekt auf Wundheilungsprozesse. Als Vorläuferzellen von Osteoblasten sind sie direkt an der Knochenneubildung beteiligt. Eine persistierende Entzündung hat eine kontinuierliche Freisetzung von Zytokinen, wie IL-1 zur Folge. Es konnte gezeigt werden, dass IL-1 in hMSC zu einer Freisetzung von PGE2 führt. Unter kurzzeitiger Wirkung stimuliert PGE2 die Knochenneubildung. Eine langanhaltende Präsenz leitet dagegen die Bildung des Faktors RANKL, einen die Osteoklastogenese stimulierenden Faktor, ein. Seit langem ist der positive Effekt von Chondroitinsulfat in chronischen Entzündungsprozessen, wie Rheumatoider Arthritis, bekannt. Zudem werden sie in aktuellen Studien als Beschichtungsbestandteile von Knochenimplantaten verwendet. Sie führten hier zu einer besseren Bioinduktivität und Biokonduktivität. Bisher ist dennoch der molekulare Wirkmechanismus nicht genau beschrieben. Die Schwierigkeit besteht darin, dass die molekularen Signalkaskaden für die einzelnen Kulturmoldelle Unterschiede aufweisen und kein ubiquitärer Mechanismus dargestellt wird.
In hMSC führte die Stimulation mit IL-1 unter vorheriger Zugabe von Chondroitinsulfat zu einer Reduktion der PGE2 Freisetzung. Der Effekt des hochsulfatierten sCS3 war gegenüber dem nativen C4S verstärkt. Die reduzierende Wirkung von C4S setzte verzögert ein. Es ist bereits bekannt, dass die negative Ladung der CS zu einer Bindung von Zytokinen führt. Dadurch wird eventuell die Konzentration der Zytokine, wie IL-1 im Bereich der Zellrezeptoren erniedrigt und führt zu einer verringerten Stimulation der Zelle. Denkbar ist auch die Beeinflussung der intrazellulären Signaltransduktionskaskade durch die Bindung der CS an einen speziellen, bisher unbekannten, Membranrezeptor. Die entscheidenden Enzyme der PGE2 Synthese sind die Cyclooxygenase-2 (Cox-2) und die mikrosomale Prostaglandin E Synthase 1 (mPGES1). Die mRNA beider Enzyme war unabhängig vom Sulfatierungsgrad der CS reduziert. Dieser Effekt konnte auf Protein-ebene nicht belegt werden. Die produzierte Proteinmenge an mPGES1 wird durch IL-1 induziert, bleibt aber auch durch Zugabe von CS unverändert. Somit kann von einer erhöhten Translationseffizient und mRNA Stabilität der mPGES1 RNA ausgegangen werden. MAPK Kinasen sind entscheidende Schnittstellen bei der Regulation der mRNA Stabilität als auch der Aktivität von Transkriptionsfaktoren. In dieser Studie konnte die MAPK p38 als entscheidendes Enzym bei der Wirkung von CS auf die PGE2 Synthese ermittelt werden. Dabei führten sowohl das natürliche C4S als auch das hochsulfatierte sCS3 zu einer verringerten Aktivierung.
Der Transkriptionsfaktor NfkB ist einer von mehreren, die an den Promotorbereichen der beiden induzierbaren PGE2 Enzyme, Cox-2 und mPGES1, binden. Es ist anzunehmen, dass die hier aufgezeigte verringerte Aktivität von NfkB als auch die verhinderte Translokation in den Zellkern eine reduzierte Transkription der jeweiligen mRNA bedingten. Abhängig vom untersuchten Modell und den verwendeten Kulturbedingungen können diese Prozesse moduliert sein.
Die Erkenntnisse dieser experimentellen Arbeit liefern einen weiteren wichtigen Baustein zum Verständnis der molekularbiologischen Abläufe während entzündlicher Prozesse. Die Verwendung von Chondroitinsulfat, insbesondere hochsulfatiertes CS, in Kombination mit hMSC kann gezielt zu einer Verringerung der Entzündungsreaktion während der Implantateinheilung führen. Die durch PGE2 hervorgerufenen Symptome, wie erhöhte Gefäßpermeabilität, Schwellung und verstärktes Schmerzempfinden begründen diese positiven Effekte.
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Nachweis parodontalpathogener Bakterien-DNA, von Lipopolysaccharid-Binding-Protein (LBP), LBP-Rezeptor (CD14), Makrophagen (CD68) sowie von Herzinsuffizienzmarkern (proBNP NT) im humanen Myokard Ergebnisse einer Pilotstudie / Detection of periodontal pathogenic bacteria DNA, lipopolysaccharide binding protein (LBP), LBP receptor (CD14), macrophages (CD68) and heart failure markers (proBNP NT) in the human myocardiumRost, Christoph 07 December 2016 (has links)
No description available.
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Obesidade induzida por dieta hiperlipídica aumenta a inflamação pulmonar e a suscetibilidade à infecção por Mycobacterium tuberculosis / Diet-induced obesity increases pulmonary inflammation and susceptibility to Mycobacterium tuberculosis infectionAlbornoz, Sandra Patricia Palma 29 June 2018 (has links)
A doença infecciosa que causa o maior número de mortes no mundo é a tuberculose, causada pelo bacilo Mycobacterium tuberculosis. Um dos fatores de risco que aumenta três vezes o desenvolvimento de tuberculose é a diabetes, sendo a obesidade associada com predisposição à diabetes. A obesidade gera inflamação de baixo grau que agrava a progressão de doenças crônicas. Estudos que avaliaram a associação da obesidade com tuberculose são controversos, e o tema merece maior investigação. No presente estudo, usamos um modelo experimental para determinar a interface da obesidade e da tuberculose. Camundongos C57BL/6 foram alimentados com dieta hiperlipídica (HFD - High Fat Diet) durante 60 dias, quando foram infectados com M. tuberculosis (HFD/Mtb) por via intra-traqueal. Como controles experimentais, animais foram alimentados com dieta padrão (LFD - Low Fat Diet) e infectados (LFD/Mtb). Paralelamente, um grupo recebeu HFD e outro LFD, e seguiram sem infecção. Após 30 dias de infecção, totalizando 90 dias de dieta, os diferentes grupos foram avaliados. Os animais obesos e infectados (HFD/Mtb) apresentaram aumento do peso corporal e do peso dos tecidos adiposos, aumento da expressão gênica de IL-1? no tecido adiposo, intolerância à glicose, deficiência na produção de insulina e aumento dos níveis séricos de IFN-? comparados aos animais LFD/Mtb. Além disso, o grupo HFD/Mtb foi mais suscetível e apresentou maior inflamação pulmonar comparado ao grupo LFD/Mtb. A inflamação foi caracterizada por aumento na expressão gênica para IL-17, IFN-?, TNF, IL-1?, IL-1?, NLRP3, caspase-1, IL-18, IL-6, aumento de células CD4+ produtoras de IFN-? e/ou IL-17 nos pulmões, e foi também acompanhada por aumento de células CD8+ e células CD4+Foxp3+ quando comparado ao grupo LFD/Mtb. Como NLRP3 é uma molécula chave na metainflamação induzida pela obesidade, mas seu papel ainda não está bem definido na tuberculose, animais deficientes de NLRP3 receberam HFD e foram infectados (NLRP3-/- HFD/Mtb). Esse grupo NLRP3-/- HFD/Mtb foi mais resistente e exibiu redução da inflamação pulmonar comparado ao grupo WT (Wild Type) HFD/Mtb. Sabendo que a obesidade está associada à disbiose e que produtos bacterianos derivados da dieta alimentar ou da microbiota podem estimular a liberação de IL-1? pela ativação de NLRP3, avaliamos o papel da microbiota na comorbidade obesidade e tuberculose. Encontramos disbiose intestinal, caracterizada por aumento do Filo Firmicutes e redução dos Filos Bacteroidetes e Proteobacteria, além do aumento de butirato e redução de acetato e propionato nos intestinos do grupo HFD/Mtb comparado ao grupo LFD/Mtb. O aumento na expressão de claudina-2 sugere alteração na permeabilidade intestinal e possível translocação bacteriana, caracterizada pela disbiose nos pulmões, nos quais foi detectado aumento de Firmicutes, Bacteroidetes e Actinobacteria, e redução de Proteobacteria no grupo HFD/Mtb. Em conclusão, a obesidade aumenta a magnitude da inflamação pulmonar e a suscetibilidade à infecção por M. tuberculosis por um mecanismo dependente de NLRP3. Ambos, aumento da suscetibilidade à infecção e da inflamação pulmonar estão associadas com disbiose intestinal e pulmonar, e aumento da permeabilidade intestinal. / The infectious disease that causes the largest number of deaths in the word is tuberculosis, caused by Mycobacterium tuberculosis bacilli. One of the risk factors that increases the devolpment of tuberculosis three times is diabetes. Obesity generates lowgrade inflammation that magnify the progression of chronic disease. Studies that have evaluated the association between obesity and tuberculosis are controversial, and the issue requires further investigation. In this study, we used an experimental model to determine the interface between obesity and tuberculosis. C57BL/6 mice were fed a highfat diet (HFD) for 60 days and infected by M. tuberculosis (HFD/Mtb) via intratracheal. As experimental control, animals were fed a light-fat diet (LFD) and were infected (LFD/Mtb). In parallel, one group was fed with HFD and another LFD, and they remained without infection. After 30 days of diet completing 90 days of feeding, the different groups were evaluated. Obese and infected animals (HFD/Mtb) showed increased body mass and adipose tissue weight, increased of IL-1? gene expression in adipose tissue, glucose intolerant, impaired insulin production and increased of serum levels of IFN-? compared to LFD/Mtb animals. In addition to, HFD/Mtb animals were more susceptible and exhibited higher lung inflammation compared to LFD/Mtb animals. The inflammation was characterized by increased of IL-17, IFN-?, TNF, IL-1?, IL-1?, NLRP3, caspase-1, IL-18, IL-6 gene expression and increase of IFN-? and/ or IL-17- producing CD4+ cells in the lungs, and was also accompanied by increased CD8+ and CD4+Foxp3+ cells compared to the LFD/Mtb group. As NLRP3 is a key molecule in obesity-induced meta-inflammation, but its role is still not well defined in tuberculosis, NLRP3 deficient animals fed with HFD and were infected (NLRP3-/- HFD/Mtb). This NLRP3-/- HFD/Mtb group was more resistant and exhibited reduction of lung inflammation compared to the WT (Wild Type) HFD/ Mtb group. Considerate that obesity-associated dysbiosis and that bacterial products derived from diet or microbiota can stimulate the release of IL-1? by the activation of NLRP3, we evaluated the microbiota role in obesity and tuberculosis comorbidity. We found intestinal dysbiosis characterized by increased Firmicutes phylum and reduction of Bacteroidetes and Proteobacteria phylum, as well as increased butyrate and diminished acetate and propionate in the intestine of the HFD/Mtb group compared to the LFD/Mtb group. An increase of claudin-2 expression suggests an alteration in intestinal permeability and a possible bacterial translocation characterized by dysbiosis in the lungs, with increased of Firmicutes, Bacteroidetes and Actinobacteria and diminished of Proteobacteria in the HFD/Mtb group. In conclusion, obesity increases the magnitude of pulmonary inflammation and susceptibility to M. tuberculosis infection by an NLRP3-depedent mechanism. Both increased susceptibility to infection and pulmonary inflammation are associated with intestinal and pulmonary dysbiosis, and increased intestinal permeability.
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