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Showing 181 to 188 of 188 (0.046 seconds)Spelling suggestions: "subject:"tumor necrosis factoralpha"" "subject:"tumor necrosis fatoralpha""
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Role and Regulation of Fat Specific Protein (FSP27) in Lipolysis in 3T3-L1 Adipocytes: A DissertationRanjit, Srijana 27 May 2010 (has links)
The alarming rate of increase in incidence and prevalence of the type 2 diabetes mellitus has prompted intense research on understanding the pathogenesis of the type 2 diabetes. It is observed that the development of type 2 diabetes is preceded by a state of insulin resistance and obesity. Previous studies have suggested that the obesity induced insulin resistance may be mediated by elevated levels of circulating free fatty acids (FFAs). The increase in circulating levels of FFAs may be contributed by the release of FFAs from stored triglycerides (TG) in adipocytes via lipolysis. It is hypothesized that the decrease in levels of circulating FFAs by sequestration and storage of FFAs in adipocytes may prevent deleterious effects of FFAs on insulin sensitivity. Recently our lab and others have shown that the storage of TG in adipocytes is promoted by a novel protein, Fat Specific Protein 27 (FSP27). Although, these studies also revealed FSP27 to be a lipid droplet associated protein that suppresses lipolysis to enhance TG accumulation in adipocytes, the role of FSP27 in lipolysis remains largely undetermined. Therefore, this study investigates the role and regulation of FSP27 in adipocytes in both the basal state, as well as during lipolysis.
The studies presented here show FSP27 to be a remarkably short-lived protein (half-life=15 min) due to its rapid ubiquitination and proteasomal degradation. Thus, I tested the hypothesis that lipolytic agents like the cytokine, TNF-α and the catecholamine isoproterenol modulate FSP27 protein levels to regulate FFA release. Consistent with this concept, TNF-α markedly decreased FSP27 mRNA and protein along with lipid droplet size as it increased lipolysis in cultured adipocytes. Similarly, FSP27 depletion using siRNA mimicked the effect of TNF-α to enhance lipolysis, while maintaining stable FSP27 protein levels by expression of HA epitope-tagged FSP27 blocked TNF-α mediated lipolysis. In contrast, the robust lipolytic action of isoproterenol is paradoxically associated with increases in FSP27 protein and a delayed degradation rate that corresponds to decreased ubiquitination. This catecholamine-mediated increase in FSP27 abundance, probably a feedback mechanism to restrain excessive lipolysis by catecholamines, is mimicked by forskolin or 8-Bromo-cAMP treatment, and prevented by Protein Kinase A (PKA) inhibitor KT5720 or PKA depletion using siRNA. These results show that isoproterenol stabililizes FSP27 via the canonical PKA pathway and increased cAMP levels. However, the work presented here also suggests that FSP27 does not get phosphorylated in response to isoproterenol treatment, and the stabilization of FSP27 is independent of isoproterenol mediated lipolysis.
The data presented in this thesis not only identifies the regulation of FSP27 as an important intermediate in mechanism of lipolysis in adipocytes in response to TNF-α and isoproterenol, but also suggests that FSP27 may be a possible therapeutic target to modulate lipolysis in adipocytes.
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Role of MAP4K4 Signaling in Adipocyte and Macrophage Derived Inflammation: A DissertationTesz, Gregory J. 22 July 2008 (has links)
Human obesity is increasing globally at an impressive rate. The rise in obesity has led to an increase in diseases associated with obesity, such as type 2 diabetes. A major prerequisite for this disease is the development of insulin resistance in the muscle and adipose tissues. Interestingly, experiments in rodent models suggest that adipocytes and macrophages can profoundly influence the development of insulin resistance. Accordingly, the number of adipose tissue macrophages increases substantially during the development of obesity. Numerous research models have demonstrated that macrophages promote insulin resistance by secreting cytokines, like TNFα, which impair whole body insulin sensitivity and adipose tissue function. Additionally, enhancements of murine adipose function, particularly glucose disposal, prevent the development of insulin resistance in mice on a high fat diet. Thus, mechanisms which enhance adipose function or attenuate macrophage inflammation are of interest.
Our lab previously identified mitogen activated protein kinase kinase kinase kinase 4 (MAP4K4) as a potent negative regulator of adipocyte function. In these studies, TNFα treatment increased the expression of adipocyte MAP4K4. Furthermore, the use of small interfering RNAs (siRNA) to block the increase in MAP4K4 expression protected adipocytes from some of the adverse effects of TNFα. Because MAP4K4 is a potent negative regulator of adipocyte function, an understanding of the mechanisms by which TNFα regulates MAP4K4 expression is of interest. Thus, for the first part of this thesis, I characterized the signaling pathways utilized by TNFα to regulate MAP4K4 expression in cultured adipocytes. Here I show that TNFα increases MAP4K4 expression through a pathway requiring the transcription factors activating transcription factor 2 (ATF2) and the JUN oncogene (cJUN). Through TNFα receptor 1 (TNFR1), but not TNFR2, TNFα increases MAP4K4 expression. This increase is highly specific to TNFα, as the inflammatory agents IL-1β, IL-6 and LPS did not affect MAP4K4 expression. In agreement, the activation of cJUN and ATF2 by TNFα is sustained over a longer period of time than by IL-1β in adipocytes. Finally, MAP4K4 is unique as the expression of other MAP kinases tested fails to change substantially with TNFα treatment.
For the second part of this thesis, I assessed the role of MAP4K4 in macrophage inflammation in vitro and in vivo. To accomplish this task, pure β1,3-D-glucan shells were used to encapsulate siRNA. Glucan shells were utilized because they are effectively taken up by macrophages which express the dectin-1 receptor and they survive oral delivery. I demonstrate that these β1,3-D-glucan encapsulated RNAi particles (GeRPs) are efficiently phagocytosed and capable of mediating the silencing of multiple macrophage genes in vitro and in vivo. Importantly, oral treatment of mice with GeRPs fails to increase plasma IFNγ and TNFα or alter serum AST and ALT levels. Orally administered GeRPs are found in macrophages isolated from the spleen, liver, lung and peritoneal cavity and mediate macrophage gene silencing in these tissues.
Utilizing this technology, I reveal that MAP4K4 augments the expression of TNFα in macrophages following LPS treatment. Oral delivery of MAP4K4 siRNA in GeRPs silences MAP4K4 expression by 70% and reduces basal TNFα and IL-1β expression significantly. The depletion of MAP4K4 in macrophages protects 40% of mice from death in the LPS/D- galactosamine (D-GalN) model of septicemia, compared to less than 10% in the control groups. This protection associates with significant decreases in serum TNFα concentrations following LPS/D-GalN challenge. Consistent with reduced macrophage inflammation, hepatocytes from mice treated orally with GeRPs targeting MAP4K4 present less apoptosis following LPS/D-GalN treatment. Thus, MAP4K4 is an important regulator of macrophage TNFα production in response to LPS.
The results presented here add to the knowledge of MAP4K4 action in adipocyte and macrophage inflammation substantially. Prior to these studies, the mechanism by which TNFα controlled MAP4K4 expression in adipocytes remained unknown. Considering that MAP4K4 is a negative regulator of adipocyte function, identifying the mechanisms that control MAP4K4 expression was of interest. Furthermore, the role of macrophage MAP4K4 in LPS stimulated TNFα production was also unknown. To address this question in vivo, new technology specifically targeting macrophages was needed. Thus, we developed a technology for non toxic and highly specific macrophage gene silencing in vivo. Considering that macrophages mediate numerous diseases, the application of GeRPs to these disease models is an exciting new possibility.
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Lactate Suppresses Macrophage Pro-inflammatory Response to Lps Stimulation by Inhibition of YAP and Nf-κB Activation via GPR81-Mediated SignalingYang, Kun, Xu, Jingjing, Fan, Min, Tu, Fei, Wang, Xiaohui, Ha, Tuanzhu, Williams, David L, Li, Chuanfu 06 October 2020 (has links)
Recent evidence from cancer research indicates that lactate exerts a suppressive effect on innate immune responses in cancer. This study investigated the mechanisms by which lactate suppresses macrophage pro-inflammatory responses. Macrophages [Raw 264.7 and bone marrow derived macrophages (BMDMs)] were treated with LPS in the presence or absence of lactate. Pro-inflammatory cytokines, NF-κB and YAP activation and nuclear translocation were examined. Our results show that lactate significantly attenuates LPS stimulated macrophage TNF-α and IL-6 production. Lactate also suppresses LPS stimulated macrophage NF-κB and YAP activation and nuclear translocation in macrophages. Interestingly, YAP activation and nuclear translocation are required for LPS stimulated macrophage NF-κB activation and TNFα production. Importantly, lactate suppressed YAP activation and nuclear translocation is mediated by GPR81 dependent AMKP and LATS activation which phosphorylates YAP, resulting in YAP inactivation. Finally, we demonstrated that LPS stimulation induces an interaction between YAP and NF-κB subunit p65, while lactate decreases the interaction of YAP and NF-κB, thus suppressing LPS induced pro-inflammatory cytokine production. Our study demonstrates that lactate exerts a previously unknown role in the suppression of macrophage pro-inflammatory cytokine production via GPR81 mediated YAP inactivation, resulting in disruption of YAP and NF-κB interaction and nuclear translocation in macrophages.
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Tierexperimentelle Untersuchungen zur intestinalen Mikrozirkulation bei EndotoxinämieLehmann, Christian 17 July 2001 (has links)
Die Störung der intestinalen Mikrozirkulation gilt als ein kardinaler Mechanismus für die Entwicklung des Multiorganversagens bei Sepsis. Da das Intestinum für mikrozirkulatorische Studien klinisch kaum zugänglich ist, wurden die Auswirkungen einer Therapie mit den antioxidativen Substanzen Oxypurinol und U-74389G (Lazaroid) bzw. den vasoaktiven Substanzen Iloprost (Prostacyclin-Analogon) und Dopexamin auf die intestinale Mikrozirkulation und die systemische Mediatorfreisetzung in einem Tiermodell mit moderater und hoher Endotoxin-Belastung untersucht. Die intravitalmikroskopische Untersuchung der Kapillarperfusion in der Muskularisschicht bei Endotoxinämie erbrachte eine Verbesserung durch Oxypurinol- und Dopexamingabe. Die Perfusion der Mukosa konnte vor allem durch eine Iloprostapplikation gesteigert werden. Die Endotoxin-induzierte, intestinale Leukozytenadhärenz wurde insbesondere durch die Behandlung mit den antioxidativen Substanzen vermindert. Beide therapeutischen Optionen bewirkten eine ca. 60 %ige Reduktion der initialen Tumornekrosefaktor-alpha-Freisetzung in der Versuchsreihe mit der niedrigeren Endotoxin-Dosis. Parallel dazu konnte anhand von Malondialdehyd-Analysen gezeigt werden, dass Oxypurinol und U-74389G wirksam die intestinale, Radikal-induzierte Lipidperoxidation verringerten. Der intestinale mikrovaskuläre Blutfluss konnte durch beide vasoaktiven Substanzen - sowohl bei moderater als auch bei erhöhter Endotoxin-Dosierung - signifikant gesteigert werden. Die Ergebnisse beider Teilstudien bestätigten, dass sowohl reaktive Sauerstoffspezies als auch eine inadäquate Perfusion in der Mikrozirkulation wesentliche pathogenetische Faktoren bei Endotoxinämie bzw. Sepsis darstellen und entsprechende Therapieformen indiziert und effektiv sind. Eine kombinierte Gabe beider Substanzklassen erscheint daher sinnvoll und sollte in weiteren tierexperimentellen und klinischen Studien evaluiert werden. / The disturbance of the intestinal microcirculation is regarded as a pivotal mechanism in the development of multiorgan failure related to sepsis. Since the intestine is clinically not accessible for microcirculatory studies, the effects of a therapy with the antioxidants oxypurinol and U-74389G (lazaroid) as well as the vasoactive substances iloprost (a prostacyclin analogue) and dopexamine on the intestinal microcirculation and the systemic mediator release was studied in an animal model with moderate and high endotoxin challenge. The intravital microscopic examination of the capillary perfusion in the muscularis layer of the intestine during endotoxemia revealed an improvement by administration of oxypurinol and dopexamine. The perfusion of the mucosa could be increased by iloprost administration. The amount of the endotoxin induced, intestinal leukocyte adherence was especially decreased by the treatment with the antioxidants. Both therapeutic options caused a 60 % reduction in the initial tumor necrosis factor-alpha-release in the experiments with the lower endotoxin dose. Malondialdehyde analyses showed that oxypurinol and U-74389G reduced effectively the intestinal, radical-induced lipid peroxidation. The intestinal microvascular blood flow could be significantly increased by both vasoactive substances - as well as with moderately than also with elevated endotoxin-dosage. The results of the study confirmed that both reactive oxygen-species as well as an inadequate perfusion in the microcirculation represent essential pathogenetic factors during endotoxemia as well as sepsis and index corresponding therapy-forms and participates effective. A combined offering both substance-classes appears therefore meaningfully and should be evaluated in further experimental and clinical studies.
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Untersuchungen zum Verlauf von hämodynamischen und gasanalytischen Parametern während der isolierten hyperthermen Extremitätenperfusion mit Tumornekrosefaktor Alpha und MelphalanGeorgieff, Roland 19 April 2004 (has links)
Fragestellung: Es wird untersucht, ob die isolierte hypertherme Extremitätenperfusion (ILP) mit TNF-alpha und Melphalan eine akute systemische inflammatorische Reaktion (SIRS) auslöst. Weiterhin soll der Einfluß von zwei verschiedenen total intravenösen Narkoseverfahren sowie der Zusammenhang der unabhängig voneinander bestimmten Meßgrößen Herzindex/Sauerstoffverbrauchsindex (HI/VO2I) und Sauerstoffverbrauchsindex/Sauerstoffangebotsindex (VO2I/DO2I) beim Entstehen eines SIRS analysiert werden. Methodik: 73 Patienten, die sich einer ILP mit TNF-alpha und Melphalan in Allgemeinanästhesie unterzogen, wurden in diese klinische, retrospektive Untersuchung eingeschlossen. Ein erweitertes kardiopulmonales Monitoring, bestehend aus kontinuierlicher Thermodilution, kontinuierlicher indirekter Kalorimetrie, invasiver Blutdruckmessung sowie arterieller und gemischtvenöser Blutgasanalysen ermöglichte die Analyse von hämodynamischen, metabolischen und gasanalytischen Parametern an 8 definierten Zeitpunkten im Verlauf der ILP mit TNF-alpha und Melphalan. 21 Patienten erhielten eine Narkose mit Etomidate/Midazolam/Sufentanil/Pancuroniumbromid (N1), und bei 52 Patienten wurde die Narkose mit Propofol/Remifentanil/Cis-Atracurium (N2) durchgeführt. Ergebnisse: Während der ILP mit TNF-alpha und Melphalan kam es bei folgenden Parametern zu signifikanten Veränderungen in der systemischen Reperfusionsphase gegenüber den Ausgangswerten vor der extrakorporalen Zirkulation: Herzfrequenz, Herzindex, Temperatur, Gesamtsauerstoffaufnahme, pulmonale Sauerstoffaufnahme, Sauerstoffangebot, systemischer Gefäßwiderstand, pulmonalarterieller Mitteldruck, kardiale Füllungsdrücke, gemischtvenöser Kohlendioxid- und Sauerstoffpartialdruck, arterieller Kohlendioxid- und Sauerstoffpartialdruck, gemischtvenöse Sauerstoffsättigung, arterieller und gemischtvenöser Sauerstoffgehalt sowie arterieller pH- und Laktatwert. Bezüglich der Narkoseverfahren zeigte die Narkose N2 versus N1 signifikant geringere Herzfrequenzen und Herzindices, sowie signifikant erhöhte pulmonalarterielle Mitteldrücke, pulmonale und systemische Gefäßwiderstände. Die Korrelationen von HI/VO2I und VO2I/DO2I sind in der prä-Bypass-Phase gering, nehmen im Verlauf der ILP zu und erreichen zum Zeitpunkt der systemischen Reperfusion jeweils ihren Maximalwert. Schlußfolgerungen: Die ILP mit TNF-alpha und Melphalan kann als dynamisches in-vivo Modell für das Entstehen einer SIRS-Reaktion aufgefaßt werden. Die inflammatorische Antwort ist in ihrem Ausmaß eher gering und erreicht nach Aufhebung der extrakorporalen Zirkulation mit systemischer Reperfusion der behandelten Extremität ihr Maximum. Die Überwachung der Teilkreisläufe, ein erweitertes hämodynamisches Monitoring sowie forcierte intravenöse Volumentherapie in der Reperfusionsphase lassen dieses Behandlungsverfahren für die Patienten in Allgemeinanästhesie sicher erscheinen. Beide beschriebenen Narkoseverfahren sind für diese operative Therapie geeignet. Der Zusammenhang von HI/VO2I sowie VO2I/DO2I ist im Verlauf der ILP gering, kann sich aber mit Zunahme der inflammatorischen Reaktion verstärken. / objective: To determine whether the isolated hyperthermic limb perfusion (ILP) with tumor necrosis factor alpha (TNF-alpha) and melphalan causes an acute systemic inflammatory response syndrome (SIRS)? Also analysed will be the influence of two total intravenous anaesthesias and the correlation of independent measured values cardiac index/oxygen consumption index (HI/VO2I) and oxygen consumption index/oxygen delivery index (VO2I/DO2I). design: Retrospective review of hemodynamic, metabolic and blood gas values from 73 patients, undervented isolated hyperthermic limb perfusion of leg with TNF-alpha and Melphalan in general anaesthesia. methods: Cardiopulmonary monitoring consisted of continuous thermodilution, continuous calorimetry, arterial pressure and arterial as well as admixed blood-gas analyses. Values were measured on 8 time points in the course of ILP. In 21 patients anaesthesia was carried out with drug-combination of Etomidate/Midazolam/Sufentanil/Pancuroniumbromid (N1), and 52 patients were given anaesthesia with Propofol/Remifentanil/Cis-atracurium (N2). results: The following values changed significantly after limb-reperfusion compared with the baseline: heart rate, cardiac index, temperature, oxygen consumption, pulmonary oxygen consumption, oxygen delivery, systemic vascular resistance, mean pulmonary arterial pressure, precardial pressures, admixed carbon dioxide pressure, admixed oxygen pressure, arterial carbon dioxide pressure, arterial oxygen pressure, admixed oxygen saturation, arterial and admixed oxygen content as well as arterial pH- and lactat. conclusions: The isolated hyperthermic limb perfusion with TNF-alpha and melphalan may be used as a dynamic in-vivo model for the development of an SIRS. The inflammatory response is slight and reached the maximum after reperfusion of treated limb. Monitoring of the two circulations, extended cardiopulmonary monitoring and intravenous volumetherapie in the reperfusion time makes this cancer treatment in general anaesthesia safe. Both anaesthesia are suitable. The correlations of HI/VO2I as well as VO2I/DO2I are low in the beginning and rise with the increase of the inflammatory response.
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Tumour necrosis factor alpha induces rapid reduction in AMPA receptor-mediated calcium entry in motor neurones by increasing cell surface expression of the GluR2 subunit: relevance to neurodegenerationRainey-Smith, S.R., Andersson, D.A., Williams, R.J., Rattray, Marcus January 2010 (has links)
No / The alpha-amino-3-hydroxyl-5-methyl-4-isoxazole-propionate receptor (AMPAR) subunit GluR2, which regulates excitotoxicity and the inflammatory cytokine tumour necrosis factor alpha (TNFalpha) have both been implicated in motor neurone vulnerability in amyotrophic lateral sclerosis/motor neurone disease. TNFalpha has been reported to increase cell surface expression of AMPAR subunits to increase synaptic strength and enhance excitotoxicity, but whether this mechanism occurs in motor neurones is unknown. We used primary cultures of mouse motor neurones and cortical neurones to examine the interaction between TNFalpha receptor activation, GluR2 availability, AMPAR-mediated calcium entry and susceptibility to excitotoxicity. Short exposure to a physiologically relevant concentration of TNFalpha (10 ng/mL, 15 min) caused a marked redistribution of both GluR1 and GluR2 to the cell surface as determined by cell surface biotinylation and immunofluorescence. Using fura-2-acetoxymethyl ester microfluorimetry, we showed that exposure to TNFalpha caused a rapid reduction in the peak amplitude of AMPA-mediated calcium entry in a PI3-kinase and p38 kinase-dependent manner, consistent with increased insertion of GluR2-containing AMPAR into the plasma membrane. This resulted in a protection of motor neurones against kainate-induced cell death. Our data therefore, suggest that TNFalpha acts primarily as a physiological regulator of synaptic activity in motor neurones rather than a pathological drive in amyotrophic lateral sclerosis.
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Identification and characterization of miRNA-133b as a novel regulator of death receptor mediated apoptosisArcila, Juan Pablo Patrón 25 November 2010 (has links)
MicroRNAs (miRNAs) sind endogenene kurze RNA-Moleküle, die zentrale Aufgaben bei der Regulation der eukaryotischen Zellhomöostase erfüllen. MiRNAs wurden bereits als potente Immunregulatoren beschrieben. Trotz dieser Erkenntnisse blieb die Rolle dieser kurzen RNA Moleküle in Infektionen mit Mycobacterium tuberculosis weitgehend unerforscht. Im Rahmen dieser Arbeit wurde ein miRNA-Expressionsprofil von Makrophagen generiert, die mit Mycobacterium tuberculosis infiziert waren. Dies ermöglichte die Identifizierung von miRNAs, welche bei der Infektion differenziell reguliert waren. Anhand eines ex-vivo-Modells von Todesrezeptor-induzierter Apoptose konnte gezeigt werden, dass miRNA-133b apoptoseresitente Zellen empfindlich gegen Tumornekrosefaktor-alpha (TNFalpha), TNF-related apoptosis-inducing ligand (TRAIL) oder CD95 ligand (Fas/APO1 ligand) induzierte Zytotoxizität machte. Eine umfassende Studie führte zur Identifizierung der anti-apoptotischen Proteine Fas apoptosis inhibitory molecule (FAIM) und glutathione-S-transferase pi (GSTP1) als direkte Zielgene für miRNA-133b. Desweiteren zeigte sich die Expression von Osteoprotegerin (OPG) und Fettsäuresynthase (FASN), als miRNA-133b abhängig. Dies unterstrich die pleiotrope Art der pro-apoptotischen Aktivität dieser miRNA. Die Expression von miRNA-133b wurde durch Mitglieder der Toll-like Rezeptor (TLR)-Familie aktiviert. MiRNA-133b Transfektion führte zu einer verstärkten Aktivierung des Transkriptionsfaktors nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB). Diese resultierte in erhöhten Mengen an Interleukinen 6 und 8 (IL6/8). Diese Ergebnisse stellen die erste detaillierte Charakterisierung von miRNA-133b im Zusammenhang der Todesrezeptor-vermittelten Apoptose und der angeborenen Immunität dar. Die erforschten molekularen Wechselwirkungen ergänzen und bereichern das Verständnis über die regulatorischen molekularen Mechanismen, die mit der Tumorentstehung und Entzündung verbunden sind. / MicroRNAs (miRNAs) are endogenous short RNA molecules which perform essential tasks in the regulation of eukaryotic cell homeostasis. During the past few years miRNAs have emerged as very potent immune regulators. Despite the consequences of this discovery for our understanding of immune response regulation hitherto virtually nothing is known about miRNA function during innate immunity to Mycobacterium tuberculosis. Herein, a miRNA expression profile of human macrophages infected with Mycobacterium tuberculosis was generated. This led to the identification of miRNAs being differentially regulated during infection. By using an experimental ex-vivo model of death receptor (DR)-induced apoptosis it could be demonstrated that miRNA-133b rendered apoptosis-resistant cells sensitive to tumor necrosis factor-alpha (TNFalpha)-, TNF-related apoptosis-inducing ligand (TRAIL)- or CD95 ligand (Fas/APO1 ligand)-activated cytotoxicity. Comprehensive analysis led to the discovery of the anti-apoptotic proteins Fas apoptosis inhibitory molecule (FAIM) and glutathione-S-transferase pi (GSTP1) as direct miRNA-133b targets. Moreover, underlining the pleiotropic and synergistic nature of miRNA activity, the expression of osteoprotegerin (OPG) and fatty acid synthase (FASN) could be further proven as miRNA-133b dependent. Expression of miRNA-133b increased following innate immune activation by members of the Toll-like receptor (TLR) family. MiRNA-133b enhanced the activity of the transcription factor nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB). This translated into increased levels of the pro-inflammatory interleukins 6 and 8 (IL6/8). The results presented in this work represent the first detailed characterization of miRNA-133b in the context of DR-mediated apoptosis and innate immunity. The molecular interactions dissected herein improve the understanding of the regulatory processes associated with tumorigenesis and the immune response.
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Molecular Regulation of Interleukin-13 and Monocyte Chemoattractant Protein-1 Expression in Human Mast Cells by Interleukin-1betaLee, Steven A., Fitzgerald, S M., Huang, Shau K., Li, Chuanfu, Chi, David S., Milhorn, Denise M., Krishnaswamy, Guha 01 September 2004 (has links)
Mast cells play pivotal roles in immunoglobulin (Ig) E-mediated airway inflammation, expressing interleukin (IL)-13 and monocyte chemoattractant protein-1 (MCP-1), which in turn regulate IgE synthesis and/or inflammatory cell recruitment. The molecular effects of IL-1beta on cytokine expression by human mast cells (HMC) have not been studied well. In this report, we provide evidence that human umbilical cord blood-derived mast cells (CBDMC) and HMC-1 cells express the type 1 receptor for IL-1. We also demonstrate that IL-1beta and tumor necrosis factor-alpha are able to induce, individually or additively, dose-dependent expression of IL-13 and MCP-1 in these cells. The induction of IL-13 and MCP-1 gene expression by IL-1beta was accompanied by the activation of IL-1 receptor-associated kinase and translocation of the transcription factor, nuclear factor (NF) kappaB into the nucleus. Accordingly, Bay-11 7082, an inhibitor of NF-kappaB activation, inhibited IL-1beta-induced IL-13 and MCP-1 expression. IL-1beta also induced IL-13 promoter activity while enhancing the stability of IL-13 messenger RNA transcripts. Dexamethasone, a glucocorticoid, inhibited IL-1beta-induced nuclear translocation of NF-kappaB and also the secretion of IL-13 from mast cells. Our data suggest that IL-1beta can serve as a pivotal costimulus of inflammatory cytokine synthesis in human mast cells, and this may be partly mediated by IL-1 receptor-binding and subsequent signaling via nuclear translocation of NF-kappaB. Because IL-1beta is a ubiquitously expressed cytokine, these findings have important implications for non-IgE-mediated signaling in airway mast cells as well as for innate immunity and airway inflammatory responses, such as observed in extrinsic and intrinsic asthma.
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