963 resultados para reverse phase protein array
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Das metastasierende maligne Melanom ist durch eine geringe p53-Mutations-Rate und eine hohe Resistenz gegenüber Chemotherapie mit alkylierenden Agenzien wie Fotemustin (FM) und Temozolomid (TMZ) gekennzeichnet. In der vorliegenden Arbeit wurde die Rolle von p53 in der Resistenz von malignen Melanomzellen gegenüber FM untersucht und Möglichkeiten zur Sensitivierung von Melanomzellen gegenüber TMZ und FM aufgezeigt.rnAusgangspunkt war die Beobachtung, dass p53 Wildtyp (p53wt) Melanomzellen resistenter gegenüber FM sind als p53 mutierte (p53mt) Zellen. In der vorliegenden Arbeit wurde gezeigt, dass eine FM-Behandlung in p53wt Zellen eine Stabilisierung von p53 und eine Induktion des p53-Zielproteins p21 bewirkte. Mithilfe einer p53wt Zelllinie, welche einen p53 Knockdown trägt, konnte gezeigt werden, dass p53 für die geringe Apoptose-Rate nach FM-Behandlung verantwortlich ist. Eine Untersuchung der Interstrang-Crosslink (ICL)-Reparaturkapazität zeigte, dass p53mt Zellen im Gegensatz zu p53wt Zellen nicht in der Lage sind, FM-induzierte ICL zu reparieren. Dies ging mit einer im Vergleich zu p53wt Zellen starken DNA-Schadensantwort einher. Die Gene für die Proteine DDB2 und XPC wurden als durch FM regulierte DNA-Reparatur-Gene identifiziert, deren Induktion p53-abhängig und lang anhaltend (bis zu 144 h) erfolgt. Da XPC Knockdown-Zellen sensitiver als ihre Kontrollzellen gegenüber FM reagierten, konnte die biologische Relevanz von XPC bei der ICL-Reparatur bestätigt werden. Anhand von Xenograft-Tumoren wurde gezeigt, dass FM auch in situ eine Induktion von DDB2 und XPC auslöst. Die Beobachtung, dass DNA-Reparatur-Gene nach FM-Behandlung hochreguliert werden, liefert eine Erklärung für das schlechte Ansprechen von Melanomen auf eine Therapie mit ICL-induzierenden Chemotherapeutika.rnDes Weiteren befasste sich die vorliegende Arbeit mit Möglichkeiten zur Sensitivierung von Melanomzellen gegenüber den Chemotherapeutika TMZ und FM. In diesem Zusammenhang wurde Valproinsäure (VPA), ein in der Epilepsie-Therapie verwendetes Medikament und Histondesacetylase (HDAC)-Hemmer, bezüglich der chemosensitivierenden Wirkung untersucht. Zunächst konnte der in der Literatur häufig beschriebene stabilisierende Effekt von VPA auf „wildtypisches“ p53-Protein und destabilisierende Effekt auf mutiertes p53-Protein bestätigt werden. Zwei der vier untersuchten Zelllinien konnten mithilfe von VPA gegenüber TMZ sensitiviert werden, während nur eine der vier untersuchten Zelllinien gegenüber FM sensitiviert werden konnte. VPA begünstigt die Induktion von Apoptose, während der Effekt auf die Induktion von Nekrose nur gering ausfiel. Eine Wirkung von VPA auf die Aktivität des Resistenz-vermittelnden Enzyms O6-Methylguanin-DNA-Methyltransferase (MGMT) wurde nicht beobachtet. Zudem wurde ausgeschlossen, dass die Sensitivierung gegenüber TMZ und FM, welche S-Phase abhängige Gentoxine sind, auf einer VPA-induzierten Erhöhung der Proliferation beruht. Mithilfe einer Zelllinie, welche stabil dominant-negatives FADD (Fas-associated death domain) exprimiert, konnten keine Hinweise auf eine Beteiligung des extrinsischen Apoptose-Signalwegs an der VPA-vermittelten Sensitivierung gewonnen werden. Gleichzeitig wurde gezeigt, dass VPA keine Induktion der niedrig exprimierten Procaspase-8 verursachte. Mithilfe eines PCR-Arrays wurden transaktivierende und –reprimierende Effekte von VPA auf die Genexpression gezeigt, wobei das proapoptotische Protein BAX (Breakpoint cluster-2-associated x protein) als ein in der Sensitivierung involviertes Kandidatengen identifiziert wurde. Obwohl eine vollständige Aufklärung der dem Sensitivierungseffekt von VPA zu Grunde liegenden Mechanismen nicht erbracht werden konnte, zeigen die in dieser Arbeit erlangten Beobachtungen einen vielversprechenden Weg zur Überwindung der Resistenz von Melanomzellen gegenüber DNA-alkylierenden Zytostatika auf.rn
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Regulatorische T-Zellen (Tregs) leisten durch ihre suppressiven Eigenschaften einen essenziellen Beitrag zur Aufrechterhaltung der immunologischen Toleranz. Sie verhindern schädliche Immunreaktionen gegen Autoantigene, kommensale Bakterien, sowie harmlose Nahrungsmittel-bestandteile. Gleichzeitig gewährleisten sie die Entwicklung effektiver Immunantworten gegen eindringende Pathogene, wie z.B. Parasiten, Bakterien und Viren. Damit haben Tregs direkten Einfluss auf das Gleichgewicht zwischen Immunität und Toleranz. Fehler in der suppressiven Funktionsweise von Tregs begünstigen daher auf der einen Seite die Entstehung zahlreicher autoimmuner Erkrankungen und Allergien. Auf der anderen Seite können Tregs Immunreaktionen bei chronischen Infektionen reduzieren, sowie die Entstehung effektiver Immunantworten gegen Tumore hemmen. Ihre Beteiligung an der Ätiologie all dieser Krankheiten macht Tregs zu einem bedeutenden potenziellen Zielobjekt, um diese Krankheiten effektiv zu therapieren. Die Erweiterung des Grundwissens um die molekularen Mechanismen der Treg-vermittelten Suppression ist daher ein notwendiger Schritt bei der Entwicklung Treg-basierter Theraphieansätze. 2003 konnte mit Foxp3 ein Transkriptionsfaktor identifiziert werden, der maßgeblich die suppressiven Funktionen von Tregs steuert. Um weiteren Einblick in die der Suppression zugrundeliegenden Signalwege zu erhalten, wurde im Institut für Immunologie ein komparativer Kinomarray durchgeführt, anhand dessen die Casein Kinase 2 (CK2) als eine der aktivsten Kinasen in Tregs identifiziert wurde (Daten freundlicherweise von Prof. Dr. Tobias Bopp bereitgestellt). rnBasierend auf den Ergebnissen des Kinomarrays wurde in dieser Arbeit die Funktion der CK2 in Tregs untersucht. Dabei konnte in in vitro Experimenten die Treg-vermittelte Suppression durch den pharmakologische CK2 Inhibitor DMAT aufgehoben werden. Weil derartige Inhibitoren jedoch nicht absolut spezifisch die Aktivität nur einer Kinase supprimieren, wurden außerdem Mäuse mit konditionalem „knockout“ der CK2β Untereinheit spezifisch in Tregs gekreuzt (CK2βTreg-/- Mäuse). Die Analyse dieser Tiere offenbarte eine essenzielle Beteiligung der CK2 an den suppressiven Funktionen von Tregs. So entwickeln CK2βTreg-/- Mäuse mit zunehmendem Alter Splenomegalien und Lymphadenopathien, von denen in besonderem Maße die Mukosa-assoziierten Lymphknoten betroffen sind. Eine Analyse des Aktivierungsstatus der T-Zellen in den Tieren konnte zudem einen erhöhten Anteil sogenannter Effektor-Gedächtnis T-Zellen aufdecken, die charakteristische Merkmale eines Th2 Phänotyps zeigten. Erhöhte Titer des Antikörperisotyps IgE in den Seren von CK2βTreg-/- Mäusen suggerieren zusätzlich eine fehlerhafte Suppression speziell Th2-vermittelter Immunantworten durch CK2β-defiziente Tregs. In Th2-vermittelten Asthma Experimenten in vivo konnte der Verdacht der fehlerhaften Kontrolle von Th2-Antwort bestätigt werden, wobei zusätzlich aufgedeckt wurde, dass bereits unbehandelte CK2βTreg-/- Mäuse Zeichen einer Entzündungsreaktion in der Lunge aufweisen. Bei der Suche nach den molekularen Ursachen der fehlerhaften Suppression Th2-vermittelter Immunantworten durch CK2β-defiziente Tregs konnten zwei mögliche Erklärungsansätze gefunden werden. Zum einen zeigen CK2β-defiziente Tregs eine verringerte Expression von Foxp3, was, in Analogie zu Ergebnissen der Gruppe von R. Flavell (Wang Y.Y. Nature. 445, 766-770 (2007)), zu einer Konversion von Tregs zu Th2 Zellen und damit zur Entstehung eines Th2-basierten, autoimmunen Phänotyps führt. Des Weiteren weisen CK2β-defiziente Tregs eine reduzierte Expression des Transkriptionsfaktors IRF4 auf, der in Tregs entscheidend für die Kontrolle Th2-basierter Immunreaktionen ist (Zheng Y. Nature. 19; 351-356 (2009)). Die dargelegten Ergebnisse identifizieren die CK2 damit als Kinase, die entscheidend an der Treg-vermittelten Suppression speziell Th2-basierter Immunantworten beteiligt ist. Demnach könnten pharmakologische CK2 Inhibitoren beispielsweise dazu eingesetzt werden, um die Treg-vermittelte Suppression im Rahmen chronischer Parasiten-Infektionen aufzuheben. Die in CK2βTreg-/- Mäusen beobachtete Prävalenz der Funktion der CK2 für Mukosa-assoziierte Organe stellt dabei einen zusätzlichen Vorteil dar, weil systemische Nebenwirkungen, die durch die Blockade der Treg-vermittelte Suppression entstehen, zumindest in nicht-Mukosa-assoziierten Geweben nicht zu erwarten sind.rn
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Neutrophils are terminally differentiated cells with a short life-span due to constitutive apoptosis. Because of these characteristics, genetic manipulation of neutrophils has been difficult, although it is highly desired given the importance of neutrophils in the immune system. Here we demonstrate that transduction of primary human mature neutrophils with enhanced green fluorescent protein (eGFP)-encoding lentiviral particles results in GFP-containing cells as previously reported. Yet, our data further show that GFP expression in neutrophils upon transduction is largely due to protein transfer, a process called lentiviral pseudotransduction, and not due to bona fide transduction. Thus, inhibition of viral genome integration by the reverse transcriptase inhibitor 3'-azido-3'-deoxythymidine (AZT) or of protein biosynthesis by cycloheximide (CHX) did not abolish GFP levels in transduced neutrophils. Importantly, lentiviral pseudotransduction of the enzyme death-associated protein kinase 2 (DAPK2) into primary human mature neutrophils resulted in increased protein levels, but not enzymatic functionality. Based on our data and previous reports of unspecific viral effects on immune cells following lentiviral transduction, we discourage scientists to use lentiviral transduction methods to manipulate primary mature neutrophils.
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Providing care to a spouse with Alzheimer's disease (AD) may contribute to cardiovascular disease (CVD). The acute phase reactant C-reactive protein (CRP) is a well-established biomarker of an increased CVD risk.
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Non-alcoholic fatty liver disease (NAFLD) is strongly associated with obesity and the metabolic syndrome. It encompasses a clinico-pathologic spectrum of conditions ranging from simple steatosis to nonalcoholic steatohepatitis (NASH). The latter develops upon pro-inflammatory cell infiltration and is widely considered as the first relevant pathophysiological step in NAFLD-progression. The chemokine monocyte chemoattractant protein 1 (MCP-1) plays an important role in the progression of hepatic inflammation and fibrosis, and both increased hepatic expression and circulating serum levels have been described in NASH. Here, we aimed to investigate MCP-1 expression in simple hepatic steatosis. Upon feeding a high-fat diet mice developed hepatic steatosis in the absence of significant hepatic inflammation, but elevated hepatic MCP-1 expression compared to control mice fed a standard chow. Interestingly, high-fat diet fed mice had significantly higher MCP-1 serum levels, and MCP-1 mRNA expression was significantly increased in visceral adipose tissue. Furthermore, MCP-1 serum levels were also elevated in patients with ultrasound-diagnosed NAFLD and correlated with the body-mass index and fasting glucose. In conclusion, our data indicate both the liver and adipose tissue as cellular sources of elevated circulating MCP-1 levels already in the early phase of hepatic steatosis. Since MCP-1 derived from visceral adipose tissue reaches the liver via portal circulation at high concentrations it may significantly contribute to the progression of simple steatosis to NASH.
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Objective Increasing plasma glucose levels are associated with increasing risk of vascular disease. We tested the hypothesis that there is a glycaemia-mediated impairment of reverse cholesterol transport (RCT). We studied the influence of plasma glucose on expression and function of a key mediator in RCT, the ATP binding cassette transporter-A1 (ABCA1) and expression of its regulators, liver X receptor-α (LXRα) and peroxisome proliferator-activated receptor–γ (PPARγ). Methods and Results Leukocyte ABCA1, LXRα and PPARγ expression was measured by polymerase chain reaction in 63 men with varying degrees of glucose homeostasis. ABCA1 protein concentrations were measured in leukocytes. In a sub-group of 25 men, ABCA1 function was quantified as apolipoprotein-A1-mediated cholesterol efflux from 2–3 week cultured skin fibroblasts. Leukocyte ABCA1 expression correlated negatively with circulating HbA1c and glucose (rho = −0.41, p<0.001; rho = −0.34, p = 0.006 respectively) and was reduced in Type 2 diabetes (T2DM) (p = 0.03). Leukocyte ABCA1 protein was lower in T2DM (p = 0.03) and positively associated with plasma HDL cholesterol (HDL-C) (rho = 0.34, p = 0.02). Apolipoprotein-A1-mediated cholesterol efflux correlated negatively with fasting glucose (rho = −0.50, p = 0.01) and positively with HDL-C (rho = 0.41, p = 0.02). It was reduced in T2DM compared with controls (p = 0.04). These relationships were independent of LXRα and PPARγ expression. Conclusions ABCA1 expression and protein concentrations in leukocytes, as well as function in cultured skin fibroblasts, are reduced in T2DM. ABCA1 protein concentration and function are associated with HDL-C levels. These findings indicate a glycaemia- related, persistent disruption of a key component of RCT.
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Binding of hydrophobic chemicals to colloids such as proteins or lipids is difficult to measure using classical microdialysis methods due to low aqueous concentrations, adsorption to dialysis membranes and test vessels, and slow kinetics of equilibration. Here, we employed a three-phase partitioning system where silicone (polydimethylsiloxane, PDMS) serves as a third phase to determine partitioning between water and colloids and acts at the same time as a dosing device for hydrophobic chemicals. The applicability of this method was demonstrated with bovine serum albumin (BSA). Measured binding constants (K(BSAw)) for chlorpyrifos, methoxychlor, nonylphenol, and pyrene were in good agreement with an established quantitative structure-activity relationship (QSAR). A fifth compound, fluoxypyr-methyl-heptyl ester, was excluded from the analysis because of apparent abiotic degradation. The PDMS depletion method was then used to determine partition coefficients for test chemicals in rainbow trout (Oncorhynchus mykiss) liver S9 fractions (K(S9w)) and blood plasma (K(bloodw)). Measured K(S9w) and K(bloodw) values were consistent with predictions obtained using a mass-balance model that employs the octanol-water partition coefficient (K(ow)) as a surrogate for lipid partitioning and K(BSAw) to represent protein binding. For each compound, K(bloodw) was substantially greater than K(S9w), primarily because blood contains more lipid than liver S9 fractions (1.84% of wet weight vs 0.051%). Measured liver S9 and blood plasma binding parameters were subsequently implemented in an in vitro to in vivo extrapolation model to link the in vitro liver S9 metabolic degradation assay to in vivo metabolism in fish. Apparent volumes of distribution (V(d)) calculated from the experimental data were similar to literature estimates. However, the calculated binding ratios (f(u)) used to relate in vitro metabolic clearance to clearance by the intact liver were 10 to 100 times lower than values used in previous modeling efforts. Bioconcentration factors (BCF) predicted using the experimental binding data were substantially higher than the predicted values obtained in earlier studies and correlated poorly with measured BCF values in fish. One possible explanation for this finding is that chemicals bound to proteins can desorb rapidly and thus contribute to metabolic turnover of the chemicals. This hypothesis remains to be investigated in future studies, ideally with chemicals of higher hydrophobicity.
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The vascular-stromal compartment of lymph nodes is important for lymph node function, and high endothelial venules (HEVs) play a critical role in controlling the entry of recirculating lymphocytes. In autoimmune and autoinflammatory diseases, lymph node swelling is often accompanied by apparent HEV expansion and, potentially, targeting HEV expansion could be used therapeutically to limit autoimmunity. In previous studies using mostly flow cytometry analysis, we defined three differentially regulated phases of lymph node vascular-stromal growth: initiation, expansion, and the re-establishment of vascular quiescence and stabilization. In this study, we use optical projection tomography to better understand the morphologic aspects of HEV growth upon immunization with ovalbumin/CFA (OVA/CFA). We find HEV elongation as well as modest arborization during the initiation phase, increased arborization during the expansion phase, and, finally, vessel narrowing during the re-establishment of vascular quiescence and stabilization. We also examine acutely enlarged autoinflammatory lymph nodes induced by regulatory T cell depletion and show that HEVs are expanded and morphologically similar to the expanded HEVs in OVA/CFA-stimulated lymph nodes. These results reinforce the idea of differentially regulated, distinct phases of vascular-stromal growth after immunization and suggest that insights gained from studying immunization-induced lymph node vascular growth may help to understand how the lymph node vascular-stromal compartment could be therapeutically targeted in autoimmune and autoinflammatory diseases.
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Background Allergen-containing subpollen particles (SPP) are released from whole plant pollen upon contact with water or even high humidity. Because of their size SPP can preferentially reach the lower airways where they come into contact with surfactant protein (SP)-D. The aim of the present study was to investigate the influence of SP-D in a complex three-dimensional human epithelial airway model, which simulates the most important barrier functions of the epithelial airway. The uptake of SPP as well as the secretion of pro-inflammatory cytokines was investigated. Methods SPP were isolated from timothy grass and subsequently fluorescently labeled. A human epithelial airway model was built by using human Type II-pneumocyte like cells (A549 cells), human monocyte derived macrophages as well as human monocyte derived dendritic cells. The epithelial cell model was incubated with SPP in the presence and absence of surfactant protein D. Particle uptake was evaluated by confocal microscopy and advanced computer-controlled analysis. Finally, human primary CD4+ T-Cells were added to the epithelial airway model and soluble mediators were measured by enzyme linked immunosorbent assay or bead array. Results SPP were taken up by epithelial cells, macrophages, and dendritic cells. This uptake coincided with secretion of pro-inflammatory cytokines and chemokines. SP-D modulated the uptake of SPP in a cell type specific way (e.g. increased number of macrophages and epithelial cells, which participated in allergen particle uptake) and led to a decreased secretion of pro-inflammatory cytokines. Conclusion These results display a possible mechanism of how SP-D can modulate the inflammatory response to inhaled allergen.
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This field study examined the vitellogenin (VTG) biomarker response under conditions of low and fluctuating activities of environmental estrogenicity. The present study was performed on immature brown trout (Salmo trutta) exposed to the small river Luetzelmurg, which is located in the prealpine Swiss midland region and receives effluents from a single sewage treatment plant (STP). To understand better factors influencing the relationship between estrogenic exposure and VTG induction, we compared VTG levels in caged (stationary) and feral (free-ranging) fish, VTG levels in fish from up- and downstream of the STP, and two different methods for quantifying VTG (enzyme-linked immunosorbent assay vs real-time reverse transcription-polymerase chain reaction), and we used passive samplers (polar organic chemical integrative sampler [POCIS]) to integrate the variable, bioaccumulative estrogenic load in the river water over time. The POCIS from the downstream site contained approximately 20-fold higher levels of bioassay-derived estrogen equivalents than the POCIS from the upstream site. In feral fish, this site difference in estrogenic exposure was reflected in VTG protein levels but not in VTG mRNA. In contrast, in caged fish, the site difference was evident only for VTG mRNA but not for VTG protein. Thus, the outcome of VTG biomarker measurements varied with the analytical detection method (protein vs mRNA) and with the exposure modus (caged vs feral). Our findings suggest that for environmental situations with low and variable estrogenic contamination, a multiple-assessment approach may be necessary for the assessment of estrogenic exposure in fish.
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OBJECTIVE: Only a few studies have investigated variations of different markers for inflammatory processes during the physiological menstrual cycle. The results are conflicting, particularly concerning the correlation between the marker leptin and steroid hormones. The aim of the study was to investigate the inflammatory markers C-reactive protein (CRP) and leptin in the serum of healthy, normally ovulating women and to correlate these with each other and with the hormones of the gonadal axis. A cycle-dependence of the markers studied would imply an exact timing of the blood sampling for clinical needs. DESIGN: Observational study investigating the two inflammatory markers CRP and leptin in relation to the hormonal pattern of the gonadal axis during the normal cycle. METHODS: Ovulatory cycles of 36 healthy, young, normo-androgenic women, having a normal body mass index were evaluated. Serum concentrations of leptin and CRP, as well as of follicle-stimulating hormone, luteinising hormone, 17beta-oestradiol, progesterone, prolactin (PRL) and free testosterone were measured every 1-2 days during one full cycle. RESULTS: Serum levels of leptin and CRP behaved differently during ovulatory cycles, with higher concentrations for leptin only during certain phases. Significant correlations were found in the follicular phase between leptin and PRL and leptin and free testosterone. CONCLUSIONS: Leptin levels change during the menstrual cycle. Leptin levels are more stable on cycle days 1-5 than later in the cycle. For precise cycle-independent measurements, these fluctuations have to be taken into account. There is no similar cyclic pattern for CRP.
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Larval infection with Echinococcus multilocularis starts with the intrahepatic postoncospheral development of a metacestode that-at its mature stage-consists of an inner germinal and an outer laminated layer (GL ; LL). In certain cases, an appropriate host immune response may inhibit parasite proliferation. Several lines of evidence obtained in vivo and in vitro indicate the important bio-protective role of the LL. For instance, the LL has been proposed to protect the GL from nitric oxide produced by periparasitic macrophages and dendritic cells, and also to prevent immune recognition by surrounding T cells. On the other hand, the high periparasitic NO production by peritoneal exsudate cells contributes to periparasitic immunosuppression, explaining why iNOS deficienct mice exhibit a significantly lower susceptibility towards experimental infection. The intense periparasitic granulomatous infiltration indicates a strong host-parasite interaction, and the involvement of cellular immunity in control of the metacestode growth kinetics is strongly suggested by experiments carried out in T cell deficient mouse strains. Carbohydrate components of the LL, such as Em2(G11) and Em492, as well as other parasite metabolites yield immunomodulatory effects that allow the parasite to survive in the host. I.e., the IgG response to the Em2(G11)-antigen takes place independently of alpha-beta+CD4+T cells, and in the absence of interactions between CD40 and CD40 ligand. Such parasite molecules also interfere with antigen presentation and cell activation, leading to a mixed Th1/Th2-type response at the later stage of infection. Furthermore, Em492 and other (not yet published) purified parasite metabolites suppress ConA and antigen-stimulated splenocyte proliferation. Infected mouse macrophages (AE-MØ) as antigen presenting cells (APC) exhibited a reduced ability to present a conventional antigen (chicken ovalbumin, C-Ova) to specific responder lymph node T cells when compared to normal MØ. As AE-MØ fully maintain their capacity to appropriately process antigens, a failure in T cell receptor occupancy by antigen-Ia complex or/and altered co-stimulatory signals can be excluded. Studying the status of accessory molecules implicated in T cell stimulation by MØ, it could be shown that B7-1 (CD80) and B7-2 (CD86) remained unchanged, whereas CD40 was down-regulated and CD54 (=ICAM-1) slightly up-regulated. FACS analysis of peritoneal cells revealed a decrease in the percentage of CD4+ and CD8+T cells in AE-infected mice. Taken together the obstructed presenting-activity of AE-MØ appeared to trigger an unresponsiveness of T cells leading to the suppression of their clonal expansion during the chronic phase of AE infection. Interesting information on the parasite survival strategy and potential can be obtained upon in vitro and in vivo treatment. Hence, we provided very innovative results by showing that nitazoxanide, and now also, respectively, new modified compounds may represent a useful alternative to albendazole. In the context of chemotherapeutical repression of parasite growth, we searched also for parasite molecules, whose expression levels correlate with the viability and growth activity of E. multilocularis metacestode. Expression levels of 14-3-3 and II/3-10, relatively quantified by realtime reverse transcription-PCR using a housekeeping gene beta-actin, were studied in permissive nu/nu and in low-permissive wild type BALB/c mice. At 2 months p.i., the transcription level of 14-3-3 was significantly higher in parasites actively proliferating in nu/nu mice compared to parasites moderately growing in wild type mice. Immunoblotting experiments confirmed at the protein level that 14-3-3 was over-expressed in parasites derived from nu/nu mice at 2 months p.i. In vitro-treatment of E. multilocularis with an anti-echinococcal drug nitazoxanide for a period of 8 days resulted in a significant decrease of both 14-3-3 and II/3-10 transcription levels,
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Cyclin-dependent kinases (CDKs) successively phosphorylate the retinoblastoma protein (RB) at the restriction point in G1 phase. Hyperphosphorylation results in functional inactivation of RB, activation of the E2F transcriptional program, and entry of cells into S phase. RB unphosphorylated at serine 608 has growth suppressive activity. Phosphorylation of serines 608/612 inhibits binding of E2F-1 to RB. In Nalm-6 acute lymphoblastic leukemia extracts, serine 608 is phosphorylated by CDK4/6 complexes but not by CDK2. We reasoned that phosphorylation of serines 608/612 by redundant CDKs could accelerate phospho group formation and determined which G1 CDK contributes to serine 612 phosphorylation. Here, we report that CDK4 complexes from Nalm-6 extracts phosphorylated in vitro the CDK2-preferred serine 612, which was inhibited by p16INK4a, and fascaplysin. In contrast, serine 780 and serine 795 were efficiently phosphorylated by CDK4 but not by CDK2. The data suggest that the redundancy in phosphorylation of RB by CDK2 and CDK4 in Nalm-6 extracts is limited. Serine 612 phosphorylation by CDK4 also occurred in extracts of childhood acute lymphoblastic leukemia cells but not in extracts of mobilized CD34+ hemopoietic progenitor cells. This phenomenon could contribute to the commitment of childhood acute lymphocytic leukemia cells to proliferate and explain their refractoriness to differentiation-inducing agents.
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OBJECTIVE: C-reactive protein (CRP) is a marker of systemic inflammation. Recently, it has been shown that CRP is present in amniotic fluid and fetal urine, and that elevated levels are associated with adverse pregnancy outcome. However, the precise source of amniotic fluid CRP, its regulation, and function during pregnancy is still a matter of debate. The present in vivo and in vitro studies were designed to investigate the production of CRP in human placental tissues. MATERIAL AND METHODS: Ten paired blood samples from peripheral maternal vein (MV), umbilical cord artery (UA) and umbilical vein (UV) were collected from women with elective caesarean sections at term. The placental protein accumulation capacity of hCG, hPL, leptin and CRP was compared with the dual in vitro perfusion method of an isolated cotyledon of human term placentae and quantified by ELISA. Values for accumulation (release) were calculated as total accumulation of maternal and fetal circuits normalized for tissue weight and duration of perfusion. For gene expression, RNA was extracted from placental tissue and reverse transcribed. RT-PCR and real-time PCR were performed using specific primers. RESULTS: The median (range) CRP level was significantly different between UA and UV [50.1 ng/ml (12.1-684.6) vs. 61 ng/ml (16.9-708.1)]. The median (range) difference between UV and UA was 9.3 ng/ml (2.2-31.6). A significant correlation was found between MV CRP and both UA and UV CRP levels. Median (range) MV CRP levels [2649 ng/ml (260.1-8299)] were 61.2 (6.5-96.8) fold higher than in the fetus. In vitro, the total accumulation rates (mean+/-SD) were 31+/-13 (mU/g/min, hCG), 1.16+/-0.19 (microg/g/min, hPL), 4.71+/-1.91 (ng/g/min, CRP), and 259+/-118 (pg/g/min, leptin). mRNA for hCG, hPL and leptin was detectable using conventional RT-PCR, while CRP mRNA could only be demonstrated by applying real-time RT-PCR. In the perfused tissue the transcript levels for the four proteins were comparable to those detected in the native control tissue. CONCLUSIONS: Our results demonstrate that the human placenta produces and releases CRP mainly into the maternal circulation similarly to other analyzed placental proteins under in vitro conditions. Further studies are needed to explore the exact role of placental CRP during pregnancy.
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OBJECTIVES: Bone formation during guided tissue regeneration is a tightly regulated process involving cells, extracellular matrix and growth factors. The aims of this study were (i) to examine the expression of cyclooxygenase-2 (COX-2) during bone regeneration and (ii) the effects of selective COX-2 inhibition on osseous regeneration and growth factor expression in the rodent femur model. MATERIAL AND METHODS: A standardized transcortical defect of 5 x 1.5 mm was prepared in the femur of 12 male rats and a closed half-cylindrical titanium chamber was placed over the defect. The expression of COX-2 and of platelet-derived growth factor-B (PDGF-B), bone morphogenetic protein-6 (BMP-6) and insulin-like growth factor-I/II (IGF-I/II) was analyzed at Days 3, 7, 21 and 28 semiquantitatively by reverse transcriptase-polymerase chain reaction and immunohistochemistry. The effects of COX-2 inhibition by intraperitoneal injection of NS-398 (3 mg/kg/day) were analyzed in five additional animals sacrificed at Day 14. RESULTS: Histomorphometry revealed that new bone formation occurred in the cortical defect area as well as in the supracortical region, i.e. region within the chamber by Day 7 and increased through Day 28. Immunohistochemical evidence of COX-2 and PDGF-B levels were observed early (i.e. Day 3) and decreased rapidly by Day 7. BMP-6 expression was maximal at Day 3 and slowly declined by Day 28. In contrast, IGF-I/II expression gradually increased during the 28-day period. Systemic administration NS-398 caused a statistically significant reduction (P<0.05) in new bone formation (25-30%) and was associated with a statistically significant reduction in BMP-6 protein and mRNA expression (50% and 65% at P<0.05 and P<0.01, respectively). PDGF-B mRNA or protein expression was not affected by NS-398 treatment. CONCLUSION: COX-2 inhibition resulted in reduced BMP-6 expression and impaired osseous regeneration suggesting an important role for COX-2-induced signaling in BMP synthesis and new bone formation.
