Global ETD Search

41	The Role of Tumor Suppressors, SHIP and Rb, in Immune Suppressive Cells Collazo Ruiz, Michelle Marie 01 January 2012 (has links) Regulatory T cells (Tregs) and myeloid-derived suppressor cells (MDSC) have been extensively studied in the past 30-40 years. Their potent suppressive capacity shown in several pathological and clinical settings, such as cancer and transplantation, has made it evident that better understanding their development and function is critical. Specifically, Tregs play a pivotal role in preventing autoimmunity, graft-versus-host disease (GvHD), and organ graft rejection. We previously demonstrated that germline or induced SH2 domain-containing inositol 5-phosphatase (SHIP) deficiency in the host abrogates GvHD. Here we show that SHIP-deficiency promotes an increase of FoxP3+ cells in both the CD4+CD25+ and the CD4+CD25- T cell compartments with increased expression of Treg-associated markers. Importantly, SHIP-deficiency does not compromise Treg function. Interestingly, like conventional Tregs, SHIP-/- CD4+CD25- T cells are unresponsive to allogeneic stimulators and suppress allogeneic responses by T cells in vitro, and can mediate reduced lethal GvHD in vivo. Thus, SHIP limits the immunoregulatory capacity of CD4+ T cell, particularly in allogeneic settings. SHIP-deficiency expands the number of immunoregulatory cells in both the T lymphoid and myeloid lineages. Here, we examined if these increases are interrelated. Specifically, we found that myeloid specific SHIP-deficiency leads to expansion of both MDSC and Treg numbers. Conversely, T lineage specific ablation of SHIP leads to expansion of Treg numbers, but not expansion of MDSC, indicating an intrinsic role for SHIP in limiting Treg numbers. Interestingly, MDSC lack SHIP expression suggesting that another SHIP-deficient myeloid cell promotes MDSC and Treg expansion. Also, increased levels of G-CSF, a myelopoietic growth factor, in SHIP-/- mice may extrinsically promote MDSC expansion since we found that G-CSF is required for the expansion of splenic MDSC in mice with induced SHIP-deficiency. MDSC consist of two distinct subsets, granulocytic-MDSC (G-MDSC), and monocytic-MDSC (M-MDSC) that differ in morphology, phenotype, suppressive capacity and differentiation potential. Importantly, M-MDSC can further differentiate into dendritic cells, macrophages and preferentially into G-MDSC, in the presence of tumor-derived factors (TDF). The retinoblastoma gene (Rb1), a tumor suppressor gene and central regulator of the cell cycle and differentiation, has been shown to influence monocytic and neutrophilic lineage commitment and to limit myeloproliferative disease. Here, we examined the role of Rb1 in the biology of MDSC subsets in tumor-bearing mice. Firstly, M-MDSC expressed high levels of Rb1 which remained relatively stable in culture with GM-CSF. Conversely, freshly isolated G-MDSC initially expressed undetectable levels of Rb1 that increased over time in culture, which correlated with increased histone acetylation at the Rb1 promoter. This increased Rb1 expression and histone acetylation was accelerated by histone deacetylase inhibitors (HDACi) treatment, suggesting Rb1 expression may be controlled by histone modification. Furthermore, when treated with HDACi, M-MDSC did not differentiate into G-MDSC in culture, even with TDF present. Finally, induced Rb1 deficiency in vivo promoted an expansion of splenic CD11b+Ly6G+Ly6Clo cells, similar to G-MDSC in tumor-bearing mice. Although further studies are required, these results strongly suggest that Rb1, like SHIP, plays a role in MDSC accumulation, particularly G-MDSC in cancer. Allogeneic immune response Cancer granulocytic MDSC Myeloid-derived suppressor cells Regulatory T cells retinoblastma gene American Studies Arts and Humanities Cell Biology Immunology and Infectious Disease Molecular Biology
42	Interleukin-6 as a Potential Mediator of Breast Cancer Progression and Non-Melanoma Skin Carcinogenesis Sullivan, Nicholas James 11 September 2009 (has links) No description available. Biomedical Research Immunology Molecular Biology Oncology interleukin-6 IL-6 breast cancer epithelial-mesenchymal transition EMT E-cadherin STAT3 non-melanoma skin cancer UV myeloid-derived suppressor cells MDSC
43	Thermisch härtende Polymerverbundmaterialien als Basis für neue Befestigungssysteme Pöhlmann, Milena 16 October 2006 (has links) Mit der Entwicklung und Einführung ökologischer Bauweise im Neubau sowie neuen Baustoffsystemen in Sandwichbauweise wird es zunehmend erforderlich, neue effektive Befestigungsvarianten zu entwickeln, die eine dauerhafte Fixierung auch unter sicherheitstechnischen Bestimmungen sowie aus Garantie- bzw. haftungsrechtlichen Gründen ermöglichen. Die aus der Praxis bisher bekannten chemischen Befestigungssysteme (Zweikomponentenverbundmörtel, Verbundankerpatronen) weisen hinsichtlich der Applikation unter bautechnischen Bedingungen noch einige Nachteile auf. Dazu gehören vor allem längere Aushärtungszeiten zur Realisierung der abschließenden Verbundfestigkeit, Inhomogenitäten im Verbund, der Einsatz toxischer Verbindungen und eine Limitierung der Applikationsmöglichkeiten in horizontalen und Überkopf-Einsatzbereichen sowie Hohlkammersystemen. Alle zuvor genannten Punkte haben bis jetzt die Nutzung solcher Verbundwerkstoffe als universale Anwendungsmöglichkeit verhindert. Ein neues chemisches Befestigungssystem, welches aus Novolak gehärteten mit Hexamethylentetramin (Hexa) und anorganischen Füllstoff besteht, wurde für Applikationen in Beton entwickelt. Das Bindemittel härtet bei der Temperaturzuführung aus. Die unkatalysierte Befestigungsmasse zeigt bei einer Temperatur zwischen 150-300 °C eine hohe Reaktivität. Die Vorteile dieses Systems sind die unbegrenzte Lagerfähigkeit der vorgemischten härtbaren Masse sowie die Gewährleistung einer homogenen Netzwerkstruktur im gesamten Verbund und sie ist frei von giftigen und flüchtigen Substanzen. Auf den Einsatz toxischer Substanzen wurde verzichtet. In dieser Arbeit wurde die Gesamtkinetik der Reaktion während des Aushärtungsprozesses dieser Polymerkomposite untersucht. Die DSC- (nicht-isothermen, isothermen) und MDSC-Untersuchungen haben sich als ein sicheres Verfahren zur Qualitätskontrolle des Aushärtezustands der Befestigungssysteme herausgestellt. Parallel zur nicht-isothermischen und isothermischen DSC wurden Leitfähigkeitsmessungen durchgeführt, um den Endpunkt der Aushärtungsreaktion zu bestimmen. / The development and introduction of ecological construction methods and the use of sandwich materials make it necessary to develop new fixing systems and technologies. Dealing with the application in concrete and other substrates commercial chemical fixing systems show some disadvantages up to date. Especially the rather long curing time in order to realize the final bond strength, inhomogenities in the composite, the partial use of toxic substances and application limits of such systems in horizontal direction as well as hollow section materials has so far prevented the use of such composites for all-purpose applications. A new chemical fixing system, which consists of hexamethylene tetramine (hexa) cured novolac and inorganic filler, was developed for application in concrete. It is applied by a thermo-curing procedure. The uncatalyzed curable mixture has a high reactivity at temperature between 150-300 °C. Compared with commercial chemical fixing systems, the premixed curable mass has many benefits. First it has a unique storage stability and second, it is free of toxic and volatile substances. Another important aspect is, it is self-foaming. In this study was investigated the overall kinetics of the reaction during the curing process of these polymer composites. An appropriate method for this experiment proved to be the DSC in isothermal and non-isothermal mode and MDSC. This turned out to be a safe quality control technique for these systems. Parallel to the non-isothermal and isothermal DSC conductivity measurements have been performed to determine the end point of the curing reaction. info:eu-repo/classification/ddc/620 ddc:620
44	Imunitní odpověď a nádorové mikroprostředí při léčbě polymerními cytostatiky / Immune response and tumor microenvironment in the treatment with polymer cytotoxic drugs Malátová, Iva January 2020 (has links) Chemotherapy is still one of the most widely used anticancer therapies. It is mostly about inhibiting the proliferation of rapidly dividing cells, so it is not selective for tumor cells. As a result, many undesirable side effects are associated with chemotherapy. The disadvantageous properties of chemotherapeutics can be largely eliminated by using conjugates of polymers with low molecular weight drugs. An example of such a conjugate is a doxorubicin-linked HPMA polymer. In addition to the properties obtained by polymer binding, such as achieving solubility in aqueous solutions, reducing systemic toxicity, increasing the maximum tolerated dose, or passive targeting by the EPR effect, the fact that doxorubicin induces immunogenic cell death is used in therapy with this drug. It has already been shown that after complete cure of the experimental mice with polymeric conjugates of HPMA with doxorubicin, some mice develop long-term resistance to re-inoculation with a lethal dose of tumor cells. Resistance is specific to the particular line of tumor cells from which the mouse was cured, and CD8+ cytotoxic T cells and IFNγ play an important role. In this work, we monitored changes in the proportion of immune populations and their activation markers after treatment with HPMA-based polymers with doxorubicin...
45	Development, Expansion and Role of Myeloid-Derived Suppressor Cells in Post-Sepsis Immune Suppression Alkhateeb, Tuqa 01 August 2020 (has links) Myeloid-derived suppressor cells (MDSCs) numbers increase significantly in sepsis and are associated with high mortality rates. These myeloid cell precursors promote immunosuppression, especially in the late (post sepsis) stage. However, the mechanisms that underlie MDSC expansion and programming are not completely understood. To investigate these mechanisms, we used a cecal-ligation and puncture (CLP) mouse model of polymicrobial sepsis that progresses from an early/acute proinflammatory phase to a late/chronic immunosuppressive phase. Previous studies in our laboratory showed that microRNA (miR)-21 and miR-181b elevate levels of the transcription factor nuclear factor 1 (NFI-A) that promotes MDSC expansion. We report here that miR-21 and miR-181b regulate NFI-A expression via a post-transcriptional regulatory mechanism by recruiting RNA-binding proteins HuR and Ago1 to stabilize NFI-A mRNA, thus increasing its protein levels. Studies in our laboratory also showed that inflammatory mediator S100A9 accumulates in the nucleus in Gr1+CD11b+ myeloid precursors in the later phases of sepsis and is necessary for their expansion and programming into immunosuppressive MDSCs. We demonstrate here that nuclear S100A9 associates with specific transcription factors that activate miR-21 and miR-181b expressions. In our final manuscript, we uncover another layer of the mechanisms of MDSC expansion and programming. We found that long non-coding RNA (lncRNA) Hotairm1 binds to and recruits S100A9 to the nucleus to program Gr1+CD11b+ myeloid precursors into MDSCs in the later phases of sepsis. Together, our results reveal three regulatory layers involving NFI-A, S100A9 and Hotairm1 in the pathway leading to MDSCs development in sepsis and suggest that therapeutically targeting these molecular switches might improve sepsis survival. Sepsis MDSC miRNA NFI-A S100A9 Hotairm1 Allergy and Immunology Critical Care Immune System Diseases Immunity Immunology of Infectious Disease Immunopathology Immunotherapy Internal Medicine Medical Immunology Medical Microbiology Pathogenic Microbiology Pathology
46	The production of a lyotropic liquid crystal coated powder precursor through twin screw extrusion. Likhar, Lokesh January 2013 (has links) The twin screw extrusion technique has been explored to produce lyotropic liquid crystal coated powder precursor by exploiting Pluronic F127 thermoreversible gelation property to get powder precursor without granular aggregates or with less compacted granular aggregates. The highly soluble chlorpheniramine maleate loaded in Pluronic F127 solution coated MCC particles prepared through twin screw extrusion was examined to produce the cubic phase (gel) for the development of controlled release formulation and for coating of very fine particles which cannot be achieved by traditional bead coaters. Controlled release formulations are beneficial in reducing the frequency of administration of highly soluble drugs having short half life and also to address the problem of polypharmacy in old age patients by reduction of dosage frequency. An unusual refrigerated temperature (5 C) profile for twin screw extrusion was selected based on the complex viscoelastic flow behaviour of Pluronic F127 solution which was found to be highly temperature sensitive. The Pluronic F127 solution was found to be Newtonian in flow and less viscoelastic at low temperature, such that low temperature (5 C) conditions were found to be suitable for mixing and coating the MCC particles to avoid compacted aggregates. At higher temperatures (35-40 C) Pluronic F127 solution exhibited shear thinning and prominent viscoelasticity, properties which were exploited to force CPM containing Pluronic F127 solution to stick over the MCC surface. This was achieved by elevating the temperature of the last zone of the extrusion barrel. It was found that to avoid compacted aggregates the MCC must be five times the weight of the Pluronic F127 solution and processed at a screw speed of 400 RPM or above at refrigerated temperature. Processing was not found to be smooth at ambient temperature with frictional heat and high torque generation due to significant compaction of coated particles which can be attributed to the elastic behaviour of Pluronic F127 solution at temperatures between ambient to typical body temperature. PLM images confirmed the cubic phase formation (gel) by Pluronic F127 coating which was found to be thick with maximum Pluronic F127 concentration (25%). SEM images showed smoothing of surface topography, and stretching and elongation of MCC fibres after extrusion which is indicative of coating through extrusion processing. Plastic deformation was observed for the lower Pluronic F127 concentration and higher MCC proportions. There was a significant decrease in work done for cohesion by the powder flow analyser observed in the batches with more aggregates compared with batches with least aggregates. A regression analysis study on factorial design batches was conducted to investigate the significant independent variables and their impact on dependent variables for example % torque, geometric mean diameter and work done for cohesion, and to quantitatively evaluate them. From the regression analysis data it was found that the coefficient of determination for all three dependent variables was in the range of 55-62%. The pharmaceutical performance of the prepared coated LLC precursor through twin screw extrusion in terms of controlled release was found to be very disappointing. Almost 100% chlorpheniramine maleate was released within 10-15mins, defined as providing burst release. The MDSC method was developed within this work to detect Pluronic F127 solution cubic phase formation. The MDSC method was developed to consider sample size, effect of heating and cooling, sample heat capacity, and the parameters for highest sensitivity which can be followed by sample accurately without the phase lag to produce accurate repeatable results. Lyotropic liquid crystal Twin screw extrusion Pluronic F127 Chlorpheniramine maleate Microcrystalline cellulose Cubic phase MDSC PLM SEM Work done for cohesion Geometric mean diameter
47	Cellules suppressives d'origine myéloïde au cours du sepsis / Myeloid-derived suppressor cells in septic patients Uhel, Fabrice 19 May 2016 (has links) Le sepsis est à l’origine d’une dysfonction immunitaire prolongée responsable d’infections nosocomiales et d’une mortalité tardive élevée. Sa physiologie complexe demeure mal connue et il n’existe aucun traitement spécifique en dehors de l’antibiothérapie et des thérapeutiques de suppléance d’organes. Nous nous sommes intéressés au rôle des cellules myéloïdes dans cette dysfonction immunitaire. Nous avons pu montrer qu’il existe chez les patients atteints de sepsis une augmentation du nombre de cellules suppressives d’origine myéloïde monocytaires (M-MDSC) CD14+HLA-DRlow/- et granulocytaires (G-MDSC) identifiées comme des granulocytes de faible densité CD14-CD15+. Ces cellules sont responsables d’une activité Indoléamine 2,3-dioxygénase (IDO) et arginase 1, et leur déplétion permet de restaurer la prolifération des lymphocytes T in vitro. L’augmentation précoce des G-MDSC prédit la survenue ultérieure d’infections nosocomiales. De même, l’augmentation de l’activité IDO et de l’arginase 1 plasmatique sont associées à un mauvais pronostic. Au total, nous avons pu démontrer que les cellules myéloïdes acquièrent un phénotype suppresseur en partie responsable de l’immunodépression acquise et du pronostic péjoratif chez les patients septiques. Afin de restaurer les capacités immunitaires des patients, les MDSC pourraient devenir une future cible thérapeutique. / Sepsis results in a sustained immune dysfunction responsible for poor prognosis and nosocomial infections. Sepsis physiology remains poorly understood and no treatment exists currently, excepted from antibiotherapy and life-support techniques. We asked if myeloid cells could play a role in this sustained immune dysfunction. We demonstrated that Peripheral CD14+HLA-DRlow/- monocytic-myeloid-derived suppressor cells (MDSCs) and CD14-CD15+ low-density granulocytes identified as granulocytic- (G-)MDSCs were increased in septic patients. In vitro, arginase and IDO activities relied on MDSCs and depletion of both subsets restored T-cell proliferation. The initial proportion of G-MDSC predicted occurrence of nosocomial infections. Similarly, high plasma Indoleamine 2,3-dioxygenase (IDO) activity and arginase 1 level were associated with poor outcome. Altogether, our results demonstrate that myeloid cells acquire suppressive functions during sepsis, partially responsible for the sustained immune dysfunction and poor outcome. MDSCs may become a future therapeutic target to restore the immune capacities of septic patients. Sepsis Choc septique Infection Infections nosocomiales Immunologie Monocytes Granulocytes, neutrophiles Immunosuppression Arginase Arginine Tryptophane Lymphome diffus à grandes cellules B Sepsis Septic shock Infections Nosocomial infections Immunology Monocytes Granulocytes Neutrophils Arginase Arginine Tryptophan Diffuse large B cells lymphoma Myeloid-Derived suppressor cells Mdsc.
48	Inhibiting KDM6A Demethylase Represses Long Non-Coding RNA Hotairm1 Transcription in MDSC During Sepsis Bah, Isatou, Youssef, Dima, Yao, Zhi Q., McCall, Charles E., Elgazzar, Mohamed 01 January 2022 (has links) Myeloid-derived suppressor cells (MDSCs) prolong sepsis by promoting immunosuppression. We reported that sepsis MDSC development requires long non-coding RNA Hotairm1 interactions with S100A9. Using a mouse model that simulates the immunobiology of sepsis, we find that histone demethylase KDM6A promotes Hotairm1 transcription by demethylating transcription repression H3K27me3 histone mark. We show that chemical targeting of KDM6A by GSK-J4 represses Hotairm1 transcription, which coincides with decreases in transcription activation H3K4me3 histone mark and transcription factor PU.1 binding to the Hotairm1 promoter. We further show that immunosuppressive IL-10 cytokine promotes KDM6A binding at the Hotairm1 promoter. IL-10 knockdown repletes H3K27me3 and reduces Hotairm1 transcription. GSK-J4 treatment also relocalizes nuclear S100A9 protein to the cytosol. To support translation to human sepsis, we demonstrate that inhibiting H3K27me3 demethylation by KDM6A ex vivo in MDSCs from patients with protracted sepsis decreases Hotairm1 transcription. These findings suggest that epigenetic targeting of MDSCs in human sepsis might resolve post-sepsis immunosuppression and improve sepsis survival. hotairm1 KDM6A MDSC immune suppression sepsis animals benzazepines (pharmacology) calgranulin B (metabolism) histone code histone demethylases (metabolism) histones (genetics metabolism) humans immunosuppression therapy interleukin-10 (genetics metabolism) male mice inbred C57BL MicroRNAs (genetics metabolism) pyrimidines (pharmacology) sepsis (metabolism pathology) Internal Medicine

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