Tolerogenní dendritické buňky jako nová buněčná terapie v diabetu I. typu / Tolerogenic dendritic cells as a novel cell-based therapy in type 1 diabetes

Kroulíková, Zuzana

January 2019

Utilization of tolerogenic dendritic cells (tolDCs) as a cell-based therapy represents a promising strategy in treatment of autoimmune diseases including type 1 diabetes (T1D). Numerous protocols have been established to generate tolDCs ex vivo and their therapeutic effect has been demonstrated in animal models of autoimmune diseases. In this thesis we compared three different variants of such protocols which are based on the combined treatment of bone marrow- derived DCs with vitamin D and dexamethasone applied at different time points of their maturation towards tolDCs. We assessed the efficiency of these protocols in regards of their effect on the expression of co-stimulatory molecules CD40, CD80, CD86, and MHC II and the chemokine receptor CCR7 on the surface of tolDCs. Then, we evaluated the migration pattern of antigen unloaded tolDCs in vivo as well as their effect on the induction of immune responses and cell proliferation of lymph node cells. This was achieved by labelling of tolDCs with membrane dye PKH26 and by following their migration path by flow cytometry after intraperitoneal (i.p) or subcutaneous (s.c.) injection into either left or right side of the body. On day 1, 3, 5, 7, and 9, the presence of PKH26+ tolDCs was examined in spleen, pancreatic, mesenteric, inguinal and axillary...

Engineering nanomaterials with enhanced functionality

Li, Shanghua

January 2006

This thesis deals with the engineering of novel nanomaterials, particularly nanocomposites and nanostructured surfaces with enhanced functionalities. The study includes two parts; in the first part, an in situ sol-gel polymerization approach is used for the synthesis of polymer-inorganic hybrid material and its exceptional transparent UV-shielding effect has been investigated. In the second part, electrodeposition process has been adapted to engineer surfaces and the boiling performance of the fabricated nanostructured surfaces is evaluated. In the first part of the work, polymer-inorganic hybrid materials composed of poly(methylmethacrylate) (PMMA) and zinc compounds were prepared by in situ sol-gel transition polymerization of zinc complex in PMMA matrix. The immiscibility of heterophase of solid organic and inorganic constituents was significantly resolved by an in situ sol-gel transition polymerization of ZnO nanofillers within PMMA in the presence of dual functional agent, monoethanolamine, which provided strong secondary interfacial interactions for both complexing and crosslinking of constituents. In the second part of the work, nanoengineering on the surface of copper plates has been performed in order to enhance the boiling heat transfer coefficient. Micro-porous surfaces with dendritic network of copper nanoparticles have been obtained by electrodeposition with dynamic templates. To further alter the grain size of the dendritic branches, the nanostructured surfaces underwent a high temperature annealing treatment. Comprehensive characterization methods of the polymer-inorganic hybrid materials and nanoengineered surfaces have been undertaken. XRD, 1H NMR, FT-IR, TGA, DSC, UV-Vis, ED, SEM, TEM and HRTEM have been used for basic physical properties. Pool boiling tests were performed to evaluate the boiling performance of the electrodeposited nanostructured micro-porous structures. The homogeneous PZHM exhibited enhanced UV-shielding effects in the entire UV range even at very low ZnO content of 0.02 wt%. Moreover, the relationship between band gap and particle size of incorporated ZnO by sol-gel process was in good agreement with the results calculated from the effective mass model between bandgap and particle size. The fabricated enhanced surface has shown an excellent performance in nucleate boiling. At heat flux of 1 W/cm2, the heat transfer coefficient is enhanced over 15 times compared to a plain reference surface. A model has been presented to explain the enhancement based on the structure characteristics. / QC 20101118

PMMA-ZnO

nanocomposite

hybrid material

in situ sol-gel polymerization

quantum dots

UV-shielding

Nanostructured surface

Pool boiling

Heat transfer coefficient

Bubble nucleation

Enhanced boiling

dendritic branch

Electrodeposition

Nanoengineering

Materials Chemistry

Materialkemi

Funktionelle Charakterisierung von CD16+ Monozytensubpopulationen

Kraus, Stephan Georg

11 October 2011

Seit 20 Jahren unterteilt man Monozyten in eine klassische CD14++/CD16-Population und eine proinflammatorische CD16+ Population. Letztere macht 10-20 % der peripheren Blutmonozyten aus und ist unter verschiedenen pathologischen Zuständen drastisch erhöht. Seit Kurzem wird die CD16+ Fraktion in zwei weitere Untergruppen aufgeteilt, die CD14++/CD16+ und die CD14+/CD16+ Monozyten. In der hier vorliegenden Arbeit wurde versucht, die relativ neue und wenig charakterisierte Subpopulation der CD14++/CD16+ Monozyten näher zu beschreiben. Es sollte die Frage beantwortet werden, ob diese sich von den übrigen Subpopulationen abzugrenzen lässt und damit als eigenständige Zellgruppe anzusehen ist. Die von gesunden Spendern gewonnen peripheren mononukleären Blutzellen (PBMCs) wurden mithilfe einer Magnetsäulenvorseparation von einem Großteil der T-, B- und NK-Zellen befreit. Die restlichen Zellen wurden mit Anti-CD14-FITC und Anti-CD16-PE markiert. In einem Hochgeschwindigkeitssortierer wurden diese, anhand ihres Fluoreszenzmusters, in die drei Subpopulationen CD14++/CD16- (Sub1), CD14++/CD16+ (Sub2) und CD14+/CD16+ (Sub3) aufgeteilt. Durch dieses Verfahren konnte ein hoher Reinheitsgrad erreicht werden. Die erhaltenen Subpopulationen wurden mit heterologen CD4+ T-Lymphozyten zusammen gebracht. Die Reaktion dieser T-Zellen auf die verschiedenen Subpopulationen wurde im Proliferations- und Sekretionsassay (IFN-γ, IL-4) studiert. Des Weiteren wurde die Zytokinsekretion der Monozytenarten nach definierter Stimulierung (LPS, Zymosan, aktivierte T-Zellen) analysiert. In einem zweiten Versuchskomplex wurden aus den jeweiligen Subpopulationen unreife dendritische Zellen (Sub-DCs) differenziert und diese auf bestimmte Oberflächenmarker bzw. deren Verhalten mit heterologen CD4+ T-Zellen im Proliferations-/Sekretionsassay (IFN-γ, IL-4) untersucht. Nach 7 Tagen Inkubation fanden sich im Sub2- und Sub3-Ansatz ca. 10 % mehr proliferierende T-Zellen als im Sub1-Ansatz. Dabei lag der Anteil der CD25+ T-Zellen in diesen beiden Versuchsansätzen ebenfalls um 10 % höher. Der Proliferationsassay über 14 Tage zeigte für die Sub3 ca. 10-15 % mehr proliferierende T-Zellen als für die anderen Populationen. Das Niveau der CD25-Expression der T-Zellen war hierbei in allen drei Ansätzen gleich. Im Sekretionsassay induzierten alle drei Subpopulationen eine Th1-Antwort, jedoch mit einem leicht höheren Anteil IFN-γ-positiver T-Zellen für die CD16+ Monozyten. Durch LPS-Gabe produzierten die CD14+/CD16+ Monozyten am meisten TNF-α, gefolgt von den CD14++/CD16+. Bei den CD14++/CD16- fanden sich die geringsten Mengen an TNF-α. Zusammen mit aktivierten T-Zellen demonstrierten die CD14++/CD16+ Monozyten die stärkste TNF-α-Sekretion unter allen anderen Subpopulationen. Für die beiden CD16+ Populationen wurden nach LPS-Stimulation höhere Werte für IL-1β bestimmt als für die klassischen Monozyten. Sowohl im LPS- als auch im Zymosanansatz lag die IL-6-Sekretion der CD14++/CD16- Subpopulation über der der anderen zwei Fraktionen. Unter allen drei Stimuli wurden die höchsten Werte für IL-8 bei den CD14++/CD16- Monozyten detektiert, gefolgt von den CD14++/CD16+. Am niedrigsten lag die IL-8-Produktion bei den CD14+/CD16+. Die IL-10-Sekretion im LPS- und im Zymosanansatz der CD14++/CD16- und CD14++/CD16+ Monozyten war gegenüber der CD14+/CD16+ Subpopulation erhöht. Nach Entwicklung der unreifen dendritischen Zellen aus den entsprechenden Monozytenarten weisen diese eine differenzierte Morphologie auf. Die DCs der CD14+/CD16+ Monozyten hatten eine stärkere HLA-DR-Expression in der mittleren Fluoreszenzintensität als die anderen beiden Sub-DC-Populationen, wobei sich keine Unterschiede in der HLA-DRExpressionsintensität zwischen Sub1- und Sub2-DCs feststellen ließen. Der Anteil der CD11c positiven Zellen war bei den Sub1-DCs deutlich größer als bei den Sub2-DCs. Dagegen exprimierten die Sub3-DCs praktisch kein CD11c. Im Proliferationsassay über 7 Tage ergaben sich keine signifikanten Differenzen zwischen den Subpopulationen. Allerdings zeigte sich eine Tendenz zu geringeren Werten im Anteil proliferierender bzw. CD25-positiver T-Lymphozyten für den Sub2-DC-Ansatz. Nach 14 Tagen im Assay war der Anteil der proliferierenden T-Zellen bei den Sub1-DCs um 10 % höher als bei den Sub2-DCs. Es fanden sich ca. 10 % mehr CD25+ T-Zellen im Sub1-DC-Ansatz als in den anderen beiden Ansätzen. Der Sekretionsassay erbrachte für alle Sub-DCs eine Th1-Induktion der T-Zellen. Dabei ließen sich keine Abweichungen im Anteil IFN-γ-positiver T-Zellen zwischen den einzelnen Sub-DC-Kulturen nachweisen. Die gewonnen Ergebnisse dieser Arbeit verdeutlichen auf der einen Seite das proinflammatorische Potential (z.B. TNF-α-Sekretion, erhöhte Proliferation), auf der anderen Seite die antiinflammatorische Komponente (IL-10-Sekretion) der CD14++/CD16+ Monozyten. Eine Rolle in der Regulation von entzündlichen und infektiologischen Erkrankungen erscheint für diese Subpopulation denkbar. Die Subpopulation 2 kann dabei als eigenständige Monozytenfraktion betrachtet werden. Die funktionellen Unterschiede zwischen den analysierten Monozytensubpopulationen zeigten sich auch nach deren Differenzierung zu unreifen dendritischen Zellen. In Anbetracht des erhöhten Anteils der CD16+ Monozyten im Rahmen diverser autoimmuner Krankheiten und der immer klarer werdenden Unterteilung in eine CD14++/CD16+ und eine CD14+/CD16+ Subpopulation, sollten weitere Untersuchungen zur klinischen Relevanz dieser Monozytengruppen durchgeführt werden. Die in der vorliegenden Arbeit erzielten Ergebnisse könnten bei der Zuordnung und Interpretation in diese zukünftigen klinischen Befunde behilflich sein. / For more than 20 years monocytes were subdivided in the classical CD14++/CD16- population and the proinflammatory CD16+ populations. The latter one includes about 10-20 % of the peripheral blood monocytes and is dramatically expanded under different pathological circumstances. Recently, the CD16+ fraction was further subdivided into two subpopulations: The CD14++/CD16+ and CD14+/CD16+ monocytes. In the present paper, the subpopulation of CD14++/CD16+ monocytes was characterized in order to answer the question if this subset can be distinguished as an independent cell population. T cells, B cells and NK cells were depleted from peripheral mononuclear blood cells (PBMCs) from healthy donors using immunomagnetic cell separation. Subsequently, the pre-separated cells were stained with anti-CD14-FITC and anti-CD16-PE and separated by fluorescence activated cell sorting (FACS) in three subpopulations: The CD14++/CD16- (Sub1), the CD14++/CD16+ (Sub2) and the CD14+/CD16+ (Sub3). The achieved purity was sufficient for the subsequent experiments. The obtained subpopulations were co-cultured together with heterologous CD4+ T lymphocytes. The reaction of these T cells to the different subpopulations was studied in the proliferation and secretion assay (IFN-γ, IL-4). Furthermore, the cytokine secretion of the monocyte subsets after defined stimulation (LPS, Zymosan, activated T cells) was analysed. In a second set of experiments, immature dendritic cells were differentiated from the monocyte subpopulations (Sub-DCs) and phenotypically and functionally characterized according to the expression of cell surface markers and the response to heterologous CD4+ T cells in the proliferation/secretion assay (IFN-γ, IL-4). After 7 days of incubation, the Sub2 and Sub3 of the monocytes induced approximately 10 % higher proliferation rates of T cells than the Sub1. The resulting frequency of CD25+ T cells in these two co-culture settings was also 10 % higher. The proliferation analysis after 14 days again showed for the Sub3 ca. 10-15 % more proliferating T cells than for the other populations. At this, the frequency of CD25 expression was equal in all co-cultures. In the secretion assay all three subpopulations induced a Th1 response, but the range of IFN-γ-positive T cells was somewhat higher for the CD16+ monocytes. Under LPS stimulation the CD14+/CD16+ monocytes produced the highest amounts of TNF-α followed by the CD14++/CD16+. The CD14++/CD16- showed the lowest amounts of TNF-α. In co-culture with activated T cells the CD14++/CD16+ monocytes demonstrated the strongest TNF-α secretion from all subpopulations. After LPS stimulation, a higher level of IL-1β was measured for both CD16+ populations than for the classical monocytes. In the LPS and the Zymosan stimulated cultures, the IL-6 secretion of the CD14++/CD16- subpopulation was higher than in the two other fractions. Under all three stimuli the highest levels of IL-8 were detected for the CD14++/CD16- monocytes followed by the CD14++/CD16+. The lowest IL-8 production was found by the CD14+/CD16+. The IL-10 secretion of the CD14++/CD16- and CD14++/CD16+ monocytes was increased compared to the CD14+/CD16+ subpopulation after LPS and Zymosan stimulation. The in vitro generated immature dendritic cells from the different monocyte subsets showed a differentiated morphology. The DCs of the CD14+/CD16+ monocytes had the strongest HLA-DR expression compared to the other two Sub-DC populations. No differences in the HLA-DR intensity were found between the Sub1- and Sub2-DCs. The rate of CD11c-positive cells was significantly higher in the Sub1-DCs than in the Sub2-DCs. However, the Sub3-DCs expressed no CD11c altogether. The proliferation assay over 7 days showed no significant differences between the subpopulations. Nevertheless, a tendency for lower levels of proliferating or CD25-positive T lymphocytes was seen in T cells co-cultured with the Sub2-DC. After 14 days, the ratio of proliferating T cells was 10 % higher with the Sub1-DCs than with the Sub2-DCs. The Sub1-DC co-culture yielded ca. 10 % more CD25+ T cells than the other two. The secretion assay revealed for all Sub-DCs a Th1 response of the T cells, with no differences in the amount of IFN-γ-positive T cells between the Sub-DC cultures. The results illustrate on one hand the proinflammatory potential (e.g. TNF-α secretion, higher proliferation), on the other hand the antiinflammatory effect (IL-10 secretion) of CD14++/CD16+ monocytes. A role in the regulation of inflammatory and infectious diseases seems to be possible for this subpopulation. The subpopulation 2 can be regarded as an independent fraction of monocytes. The functional differences between the analyzed monocyte subpopulations are further underscored following differentiation into immature dendritic cells. Considering the increased proportion of CD16+ monocytes in various autoimmune diseases and their clear subdivision in a CD14++/CD16+ and a CD14+/CD16+ subpopulation, new investigations about the clinical relevance are warranted. The findings obtained in the work presented could be in the basis for these future clinical studies.

info:eu-repo/classification/ddc/610

ddc:610

Innate Immune Sensing of HIV-1 RNA in Human Myeloid Cells

Güney, Mehmet Hakan

31 March 2022

Human immunodeficiency virus type 1 (HIV-1) is a lentivirus that causes acquired immunodeficiency syndrome (AIDS). Since the first cases of AIDS were described in 1981, HIV-1 has become one of the most serious public health threats in the world. There are approximately 38 million people worldwide currently living with HIV-1. 28 million of these people have access to antiretroviral therapy (ART) that is highly effective in reducing viral load to undetectable levels, thereby curbing the risk of viral transmission and preventing progression to AIDS. Despite their effectiveness in suppressing HIV-1 viremia, systemic inflammation remains as a hallmark of HIV-1 infection in vivo. This persistent immune activation is often associated with non-AIDS related complications, including elevated risk of neurocognitive and cardiovascular disorders. Several different mechanisms may contribute to this chronic immune activation and inflammation in people living with HIV-1 on ART. One of the contributing factors might be HIV-1 RNA expressed from the provirus. Even though ART potently suppresses HIV-1 replication, it fails to eradicate proviruses established prior to initiation of ART. Ongoing activation of CD4+ T cells and macrophages by HIV-1 proviral transcripts might contribute to the persistent inflammation that remains even after HIV-1 suppression by ART. Previously, our laboratory has shown that induction of innate immune signaling after HIV-1 challenge of primary human dendritic cells (DCs), macrophages, or CD4+ T cells requires integration, transcription from the nascent provirus, and nuclear export of intron-containing HIV-1 RNA through the Rev-CRM1 pathway. However, these studies failed to identify the innate immune sensor of intron-containing HIV-1 RNA. Here we conducted a targeted loss-of-function screen, using shRNA-expressing lentivectors in human DCs to identify this innate immune receptor. Of the twenty-one candidate genes targeted for knockdown by shRNA, the innate immune response to HIV-1 was inhibited only by knockdown of IFIH1, MAVS, and XPO1. The effect of IFIH1 and MAVS knockdowns on HIV-1-induced immune activation was confirmed in macrophages, and rescue of the knockdown with non-targetable coding sequence showed that IFIH1 protein was required. IFIH1 mutants that are defective for interaction with MAVS blocked activation, demonstrating that MAVS acts downstream of IFIH1 in this system. Since both IFIH1 and DDX58 signal via MAVS, the specificity of HIV-1 RNA detection by IFIH1 was demonstrated by the fact that DDX58 knockdown had no effect on activation; the IFIH1-specific inhibitor Nipah virus V protein blocked the activation by HIV-1. RNA-Seq showed that IFIH1-knockdown in DCs globally disrupted the induction of IFN-1-stimulated genes. Altogether, results presented in this thesis reveal that IFIH1 is required for innate immune activation by intron-containing RNA from the HIV-1 provirus, and potentially contributes to chronic inflammation in people living with HIV-1.

HIV-1

Human Immunodeficiency Virus

AIDS

RNA

innate immunity

innate immune sensing

MDA5

IFIH1

inflammation

sensing

myeloid cells

dendritic cell

DC

macrophage

virus

interferon

ISG

immunity

Immunology and Infectious Disease

Virology

L’IL-7 et les cellules dendritiques dans le développement et l’homéostasie des lymphocytes T

Mohamed Moutuou, Moutuaata

08 1900

Les cellules dendritiques (CD) et l'interleukine-7 (IL-7) sont deux facteurs essentiels au développement et à l'homéostasie des lymphocytes T. Une anomalie de la production ou de la signalisation de l’IL-7 est associée à un défaut de la thymopoïèse en plus d’une profonde lymphopénie. Parallèlement, la déficience des CD, entraine une rupture de la tolérance au soi menant au développement de maladies auto-immunes et une altération de l’homéostasie des Lymphocyte T. Dans le cadre de cette thèse, nous nous sommes intéressés globalement à la contribution de l’IL-7 et des CD dans la reconstitution et l'homéostasie des lymphocytes dans deux contextes thérapeutiques différents. Premièrement, il a été démontré que le traitement avec l'imatinib (médicament utilisé pour traiter la leucémie myéloïde chronique (LMC)) induisait une diminution du nombre de lymphocytes T chez les patients atteints de LMC. À partir de notre étude in vitro sur des cellules mononuclées du sang périphérique (peripheral blood mononuclear cells) (PBMC) humaines cultivées en présence d’imatinib avant d’être stimuler par l’IL-7 à différentes concentrations, nous avons mis en évidence une perturbation de la signalisation de l’IL-7 dans les lymphocytes T suite à une interférence avec l’imatinib. À l’aide de notre modèle murin traité à l’imatinib, nous avons également montré in vivo, une altération de l’homéostasie des lymphocyte T. La modulation négative de l’homéostasie des LT par l’imatinib est également accompagnée d’une diminution dramatique de la proportion des CD, ce qui pourrait également faire décliner le pool des lymphocyte T. Deuxièmement, dans un contexte de greffe de moelle osseuse (MO) syngénique, nous avons analysé la contribution de l’IL-7 produite par les CD, dans la thymopoïèse et l’homéostasie des lymphocyte T. Pour évaluer la contribution de l’IL-7 produite par les cellules hématopoïétiques dans la reconstitution et l’homéostasie lymphocytaire T, nous avons généré des chimères de MO avec une production d’IL-7 exclusivement limitée aux cellules stromales, par greffe de MO IL-7-/- dans des souris Rag -/-. Les souris Rag -/- transplantées avec des cellules de MO IL-7 - /- développent une maladie auto-immune systémique létale à 4-5 semaines post greffe. Nos résultats suggèrent fortement une contribution cruciale de l’IL-7 produite par les CSH (Cellules Souches Hématopoïétiques) dans la reconstitution immunitaire après greffe de MO. L’ensemble de nos travaux contribue à élargir la compréhension de la biologie de l'axe IL-7/ IL-7Rα et des CD dans le développement et l’homéostasie des lymphocytes T. / Dendritic cells (DCs) and interleukin-7 (IL-7) are two factors essential for the development and homeostasis of T lymphocytes. An abnormality in the production or signaling of IL-7 is associated with a defective thymopoiesis and severe lymphopenia. DCs deficiency leads to a breakdown in self-tolerance leading to the development of autoimmune diseases and impaired T cells homeostasis. In this thesis, we have focused on the contribution of IL-7 and DCs in the reconstitution and homeostasis of lymphocytes in two different therapeutic contexts. Firstly, imatinib (drug used to treat chronic myeloid leukemia (CML)) has been shown to induce a decrease of T lymphocytes number in patients with CML. From our in vitro study on human peripheral blood mononuclear cells (PBMCs) cultured in the presence of imatinib before stimulation by IL-7 at different concentrations, we demonstrated a disruption of IL-7 signaling in T cells following interference with imatinib. Using our imatinib-treated mouse model, we also showed in vivo impaired T cells homeostasis. The negative modulation of T lymphocytes homeostasis by imatinib is also accompanied by a dramatic decrease in the proportion of DCs, which could also decline T cells pool. Secondly, we used murine syngeneic bone marrow transplantation (BMT) models to study the contribution of IL-7 produced by DCs in thymopoiesis and T cells homeostasis. To assess the role of IL-7 produced by DCs in T cell reconstitution and homeostasis, we generated BM chimeras with IL-7 production exclusively limited to stromal cells, by BMT of IL-7 - / - into Rag - / - mice. Rag - / - mice transplanted with IL-7 -/- BM cells develop a lethal systemic autoimmune disease post-transplant at 4-5 weeks post-BMT. Our results strongly suggest a major contribution of Hematopoietic stem cells (HSC)-produced IL-7 in immune reconstitution after BM transplantation. Our work contributes to expanding our understanding of the biology of the IL-7 / IL-7Rα axis and DCs in T cell development and homeostasis.

IL-7

Lymphopénie

LMC

Reconstitution immunitaire

Auto-immunité

Cellules dendritiques

Thymus

Lymphocytes T

Rag-/-

IL-7-/-

Lymphopenia

CML

Immune reconstitution

Autoimmunity

Dendritic cells

T lymphocytes

Effects of Varying Insulin Concentration Treatments following Insulin Receptor Knockdown on the Growth Regulating RhoGAP, Arhgap39

Colpo, Matthew M.

10 May 2019

No description available.

Biomedical Research

Biology

Cellular Biology

Arhgap39

cognitive decline

cognitive impairment

diabetes

insulin

insulin resistance

insulin-like growth factor-1

IGF-1

Rho GTPase

RhoGAP

GAP

learning

memory

Porf-2

Pre-optic regulatory factor-2

Vilse

CrossGap

dendritic spines

Étude de l’effet d’une pré-infection avec Mycoplasma hyopneumoniae et/ou Mycoplasma hyorhinis sur la pathogénèse de Streptococcus suis sérotype 2

Pageaut, Héloïse

12 1900

Le « porcine respiratory disease complex » (PRDC) est un trouble multifactoriel dû à une infection simultanée ou séquentielle de divers micro-organismes pouvant intensifier ou prolonger les signes cliniques des porcs. On retrouve dans ce complexe Mycoplasma hyopneumoniae, un des agents initiateurs du PRDC et agent primaire de la pneumonie enzootique (EP) chez les porcs. Streptococcus suis est l’un des agents pathogènes secondaires du PRDC, c’est également un agent pathogène important induisant principalement des méningites, des septicémies et la mort subite des porcelets post-sevrés. Mycoplasma hyorhinis est également l’un des agents pathogènes secondaires du PRDC, et va induire des inflammations sérofibrineuses chez les porcelets. Comme ces trois pathogènes sont retrouvés au sein du PRDC et au niveau des voies respiratoires supérieures des porcs, il pourrait exister un effet positif des mycoplasmes sur la pathogénèse de S. suis. C’est pourquoi différentes expériences in vitro ont été réalisées avec les cellules épithéliales porcines (NPTr), les macrophages alvéolaires porcins (PAMs) et les cellules dendritiques porcines (BM-DCs) qui ont été pré-infectés par les mycoplasmes puis infectés avec S. suis. Il a été observé que la cytotoxicité et l’inflammation des cellules porcines ont été significativement augmentées lorsqu’elles ont été pré-infectées par les mycoplasmes puis infectées par S. suis. Cependant, la pré-infection des cellules n’a pas joué de rôle sur l’adhésion et l’invasion de S. suis, sur la phagocytose et la survie intracellulaire de la bactérie. Cette étude semble montrer que la pré-infection des mycoplasmes pourraient induire un contexte inflammatoire favorisant la pathogenèse de S. suis. / Porcine respiratory disease complex (PRDC) is a multifactorial disorder due to simultaneous or sequential infection with various microorganisms that can intensify or prolong clinical signs in pigs. Included in this complex is Mycoplasma hyopneumoniae, one of the initiating agents of PRDC and the primary agent of enzootic pneumonia (EP) in pigs. Streptococcus suis is one of the secondary pathogens of PRDC and is also an important pathogen, mainly causing meningitis, septicemia, and sudden death in post-weaned piglets. Mycoplasma hyorhinis is also one of the secondary pathogens of PRDC and will also induce serofibrinous inflammation in piglets. As all three pathogens are found in the PRDC and in the upper respiratory tract of pigs there may be a positive effect of mycoplasma on the pathogenesis of S. suis. Therefore, different in vitro experiments were performed with newborn pig tracheal cells (NPTr), primary porcine alveolar macrophages (PAMs) and porcine bone-marrow-derived dendritic cells (BM-DCs) that were pre-infected with mycoplasma and then infected with S. suis. It was observed that cytotoxicity and inflammation of pig cells were significantly increased when they were pre-infected with mycoplasma and then infected with S. suis. However, pre-infection of the cells did not play a role in the adhesion and invasion of S. suis and in the phagocytosis and intracellular survival of the bacteria. This study suggests that pre-infection with mycoplasma may induce an inflammatory context favoring the pathogenesis of S. suis.

Streptococcus suis

Mycoplasma hyopneumoniae

Mycoplasma hyorhinis

co-infection

cellules épithéliales

macrophages alvéolaires

cellules dendritiques

cytotoxicité

inflammation

Streptococcus suis

Mycoplasma hyopneumoniae

Mycoplasma hyorhinis

co-infection

epithelial cells

alveolar macrophages

dendritic cells

cytotoxicity

inflammation

Dendritiska nanogeler som platform för läkemedelsleverans / Dendritic nanogel for drug delivery platform

UYSAL, GÜNES

January 2019

Utveckling av polymer baserade läkemedelsbärare i nanostorlek har blivit allt viktigare för att effektivisera behandling och diagnosering av olika sjukdomar, speciellt cancer. Flera läkemedel som används i kemoterapi har bristfälliga egenskaper som låg löslighet i vatten, oönskad nedbrytbara till dess inaktiva form, och distribution i stora volymer till oönskade organ p.g.a. dess icke-selektiva förmåga. Nanopartiklar är små partiklar med diameter 1-500 nm som genom passiv/aktiv transport kan passera olika biologiska barriärer och transportera läkemedel i optimala mängder till specifika celler. Denna selektiva transport bidrar till ökad terapeutiskt index och minskning av toxiska effekter i övriga delar av kroppen. Hyperförgrenade linjär-dendritiska hybrider är en subgrupp av dendritiska polymer som har stor potential att användas som byggstenar i utvecklingen av läkemedelsbärare. I detta projekt producerades ett bibliotek av hyperförgrenade linjär-dendritiska material via Fischer esterifikation reaktionen som är en snabb, billig och uppskalningsbar produktionsmetod. Vidare post funktionaliserades materialen med allyl grupper för produktion av nano geler genom UV-inducerad korslänkning och vidare funktionalisering. Samtliga producerade hyperförgrenade linjär-dendritiska material hade förmågan att bilda miceller i vatten. Materialen med bäst micelle bildningsförmåga användes för att kemiskt korslänka dem och producera nano geler. Nano gelernas inre del funktionaliserades framgångsrikt med tre olika funktionella grupper; katjoniska, anjoniska och hydrofoba via resterande fria allyler. Detta påvisar att dessa dendritiska nano geler har potential att bära olika material som hydrofobiska läkemedel eller genetiskt material. Dom producerade nano gelerna hade en hydrodynamisk volym inom intervallet 124-200 nm. Detta är fördelaktigt då dem kan transporteras till tumörområdet via ökad permeabilitet och retention, också kallad EPR effekten, utan att initiera ett immunologiskt svar eller filtreras från blodomloppet via njuren. / The development of nano- based drug carriers is of high importance in anti-cancer treatment as anticancer drugs suffers from limitations as low aqueous solubility, non-selective targeting, off-target degradation and low therapeutic concentrations at target site. Hyperbranched polymers are potential candidates as drug carrier due to its unique properties as globular shape, high number of functional groups and high degree of branching. In addition, hyperbranched polymers are synthesized via one-step polymerization reaction with high yields, low costs and good scale-up possibilities. In this project a library of hyperbranched linear-dendritic hybrid materials based of 2,2-bis(hydroxymethyl)propionic acid (bis-MPA) and monofunctional poly (ethylene glycol) (mPEG) was synthesized via the Fischer esterification reaction. The materials were then post functionalised with hydrophobic allyl groups. The materials self-assembled into micelles in water and candidates with best self-assembly ability were used to fabricate dendritic nanogels by UV-induced cross-linking. The formed dendritic nanogels obtained a hydrodynamic volume between 124-200 nm, which indicates that these dendritic nanogels can be used as drug carrier and accumulate at target-site via the enhanced permeability and retention (EPR) effect. The dendritic nanogels inner core was also successfully attached with cationic, hydrophobic and anionic groups respectively. This confirmed that the dendritic nanogels have the potential to encapsulate different types of cargo such as DNA or hydrophobic drugs in the inner core.

hyperbranched polymers

anticancer treatment

dendritic nanogels

EPR-effect

hydrophobic drugs

nano partiklar

anti-cancer behandling

dendritiska nano geler

funktionalisering

hydrodynamisk volym

Engineering and Technology

Teknik och teknologier

Effect of Convection Associated with Cross-section Change during Directional Solidification of Binary Alloys on Dendritic Array Morphology and Macrosegregation

Ghods, Masoud

17 July 2017

No description available.

Aerospace Materials

Automotive Materials

Chemical Engineering

Condensed Matter Physics

Engineering

Fluid Dynamics

High Temperature Physics

Materials Science

Metallurgy

Directional Solidification

Natural Convection

Fluid Flow

Binary Alloys

Macrosegregation

Dendritic Array

Dendrite Morphology

Solutal Remelting

Thermosolutal Convection

Aluminum Alloy

Cross section Change

Material-driven fibronectin fibrillogenesis to engineer cell function

Llopis Hernández, Virginia

03 November 2017

This thesis ventures with the extracellular matrix protein (ECM) fibronectin (FN) as an interface protein in the interaction between cells and materials to design microenvironment for future use in tissue engineering. It is studied the FN adsorption and conformations, cell behaviour to different FN conformation, cell adhesion, reorganisation and remodelling of FN at the material interface, the role of growth factors (GF) and their interactions with components of the extracellular matrix (ECM), the immunology cell response, and the stem cell fate influenced by the extrinsic signals coming from the engineered microenvironments using ECM's proteins. To investigate the FN response, in terms of adsorbed amount and conformation to different chemical properties of the material, model surfaces were used. Self assembled monolayers (SAM) with different percentages of two different chemical groups were used: CH3 and OH. FN adsorption, initial cell adhesion and signalling (focal adhesions, integrin expression and phosphorylation of FAK) is related with the reorganisation and secretion of FN and matrix degradation. It is shown that matrix degradation at the cell material interface depends on surface chemistry in metalloproteinase-dependent way. A direct relationship between FN activity at the cell-material interface and metalloproteinase 9 (MMP9) expression was found, being the product of a sequence of events that include integrin expression, focal adhesion formation, matrix reorganisation and focal adhesion kinase (FAK) phosphorylation. Two different materials with subtle variations in their chemical composition were employed as a drastically different FN conformation: from a globular conformation on PMA (poly (methyl acrylate)) to the formation of a well-interconnected FN network (similar to the FN physiological fibrillar network) triggered by PEA (poly (ethyl acrylate)). The formation of focal adhesions (vinculin), FAK expression and phosphorylation, specific integrin binding, protein and gene expression for ¿5 and ¿v was studied, seeking to correlate cell adhesion with matrix degradation. It is demonstrated that the material-driven FN fibrillogenesis on PEA triggers proteolytic activity: MMP activity is higher as a compensatory mechanism to the inability of cells to reorganise this FN network. Looking into the role of protein-material interactions and stem cell fate, and with the knowledge on PEA, we engineer different synergistic microenvironments to direct cell and stem cell fate. FN has a growth factor (GF) binding domain on its molecule (FNIII12-14) and has been demonstrated to produce a synergistic response when occurs at the same time the recognition of the cell binding domain (FNIII9-10). It is demonstrated that this domain is available on the FN coated PEA, and exploiting these interactions between PEA, FN and GF, it is developed a microenvironment to control cell behaviour and tissue repair. It is studied the BMP2 binding and presentation, the effect of BMP2 presentation on MSC proliferation and differentiation. These systems allow not only enhanced activity of GF compared to soluble administration, but also reduce GF doses, improving safety and cost effectiveness. Finally, the immunological reaction of the microenvironment developed is studied using dendritic cells, beside the conformational structure of ECM protein importance in DC integrin-based activation it is studied, helping to establish the field of adhesion-based modulation of DC as a general mechanism that has previously not been defined. The microenvironment didn't induce any maturation in DC, while different FN conformation shows differences in DC morphology and citokine level production (IL-10 and IL-12). / En esta tesis se estudia la interacción de una proteina de la matriz extracelular, fibronectina (FN) como interfase en la interacción entre células y materiales, para diseñar microambientes con el propósito de ser usados en el futuro en ingeniería tisular. Se estudia la adsorción y conformación de FN y la relación con el diferente comportamiento celular: la adhesión celular, la reorganización y remodelado de la FN en la interfase célula-material, el papel que juegan los factores de crecimiento y sus interacciones con los componentes de la matriz extracelular, la respuesta immunológica y el destino celular de células madre influenciadas por las señales extrínsecas provenientes de microambientes elaborados a partir de proteínas de la matriz extracelular. Con el objetivo de investigar la respuesta a la FN en términos de conformación y cantidad absorbida a diferentes propiedades químicas del material, se usaron materiales modelo: monocapas autoensambladas (self-assembled monolayers, SAM). Las químicas estudiadas fueron CH3 and OH. La adsorption de FN, adhesion y señalización (adhesiones focales, expresión de interinas y fosforilación de quinasas de adhesiones focales (FAK)) se estudiaron en relación a la reorganización y secreción de FN y degradación de la matriz extracelular. Se demuestra que la degradación de la matriz extracelular en la interfase célula-material depende de la química de la superficie, a través de las metaloproteinasas. Se ha descubierto una relación directa entre la actividad de la FN que se encuentra en el material y la expresión de metaloproteinasa 9 (MMP9), a través de la expresión de integrinas, formación de adhesiones focales, reorganización de la matriz extracelular y fosforilación de FAK En el siguiente capítulo se emplean materiales poliméricos con una sutil diferencia en la composición química, provocando una diferencia drástica en la conformación de la FN: se pasa de una conformación globular en PMA (polimetil acrilato) a una conformación en forma de red interconectada en PEA (polietil acrilato). Con el propósito de relacionar la adhesión celular con la degradación de la matriz extracelular, se estudia la formación de adhesiones focales (vinculina), la expresión y fosforilación de FAK, la unión específica de integrinas y la expresión de las integrinas ¿5 and ¿v. Se demuestra que la formación de una red de FN sobre PEA induce la actividad proteolítica: la actividad de las MMPs es mayor, actuando como mecanismo compensatorio a la incapacidad de reorganización de la red de FN. Haciendo uso de la conformación de la FN sobre PEA, se estudiaron las interacciones entre la proteína-material y el destino celular de células madres. La FN posee un dominio de unión de factores de crecimiento (FNIII12-14) y se ha demostrado que se produce una respuesta sinérgica cuando el reconocimiento ocurre junto con el dominio de unión celular (FNIII9-10). En esta tesis se demuestra que el dominio de unión de factores de crecimiento está disponible en la conformación que adquiere sobre PEA y se diseñan microambientes para controlar el comportamiento celular y regeneración de tejido. Se estudia la unión y presentación de BMP2 y su efecto en la diferenciación de células madre mesenquimales. Los microambientes desarrollados, ademas de mejorar la actividad de los factores de crecimiento comparado con la administración soluble, también reduce la cantidad de factores de crecimiento que se tendría que administrar, mejorando la seguridad y efectividad. Finalmente se estudió la reacción inmunológica a los microambientes desarrollados usando células dendríticas, estudiando además la influencia de la estructura de la conformación de las proteínas en la activación de las células dendríticas a través de las integrinas. Los microambientes no indujeron ninguna maduración de células dendríticas, mientras que la conformación de la FN muestra control / En aquesta tesi s'estudia la interacció entre una proteïna de la matriu extracel.lular, fibronectina (FN) com interfase en la interaccio entre cèl·lules i materials, per a dissenyar microambients amb el propòsit d'utilitzar-se al futur en enginyeria tissular. S'estudia l'adsorció i conformació de la FN i la relació amb el diferent comportament cel·lular: l'adhesió cel·lular, la reorganització i remodelat de la FN a la interfase cèl·lula-material, el paper que juguen els factors de creixement i les seus interaccions amb els components de la matriu extracel·lular, la resposta immunològica i el destí cel·lular de cèl·lules mare influenciades pels senyals extrínseques provinents de microambients elaborats a partir de proteïnes de la matriu extracel·lular. Amb l'objectiu d'investigar la respostar a la FN en termes de conformació i quantitat absorbida a diferents propietats químiques del material, s'utilitzaren materials model: monocapes autoacoblades (self-assembled monolayers, SAM). Les químiques estudiades van ser CH3 and OH. L'absorció de FN, adhesió i senyalització (adhesions focals, expressió d'integrines i fosforilació de quinases d'adhesions focals (FAK)) es van estudiar en relació a al reorganització i secreció de la FN i degradació de la matriu extracel·lular. Es demostra que la degradació de la matriu extracelular en la interfase cèl·lula-material depèn de la química de la superficie, a través de les metal·loproteïnases. S'ha descobert una relació directa entra l'activitat de la FN que es troba en el material i l'expressió de metaloproteinasa 9, a través de l'expressió d'integrines, formació d'adhesions focals, reorganització de la matriu extracel·lular i fosforilació de FAK. Al següent capítol es fan servir materials polimèrics amb una subtil diferència en la composició química, provocant una diferència dràstica en la conformació de la FN: es passa d'una conformació globular en PMA (polimetil acrilat) a una conformació en forma de xarxa interconnectada en PEA (polietil acrilat). Amb el propòsit de relacionar l'adhesió cel·lular amb la degradació de la matriu extracel·lular, s'estudia la formació d'adhesions focals (vinculina), l'expressió i fosforilació de FAK, la unió específica d'integrines i l'expressió de les integrines ¿5 and ¿v. Es demostra que la formació d'una xarxa de FN sobre PEA indueix l'activitat proteolítica: l'activitat de les MMPs és més gran, actuant com a mecanisme compensatori a la incapacitat de reorganització de la xarxa de FN. Fent ús de la conformació de la FN sobre PEA, es van estudiar les interaccions entre la proteïna-material i el destí cel·lular de cèl·lules mares. La FN posseeix un domini d'unió de factors de creixement (FNIII12-14) i s'ha demostrat que es produeix una resposta sinèrgica quan el reconeixement ocurreix juntament amb el domini d'unió cel·lular (FNIII9- 10). En aquesta tesi es demostra que el domini d'unió de factors de creixement està disponible a la conformació que adquireix sobre PEA i es dissenyen microambients per controlar el comportament cel·lular i regeneració de teixit. S'estudia la unió i presentació de BMP2 i el seu efecte en la diferenciació de cèl·lules mare mesenquimals. Els microambientes desenvolupats, a més de millorar l'activitat dels factors de creixement comparat amb l'administració soluble, també redueix la quantitat de factors de creixement que s'hauria d'administrar, millorant la seguretat i efectivitat. Finalment es va estudiar la reacció immunològica als microambients desenvolupats usant cèl·lules dendrítiques, estudiant a més la influència de l'estructura de la conformació de les proteïnes en l'activació de les cèl·lules dendrítiques a través de les integrines. Els microambients no van induir cap maduració de cèl·lules dendrítiques, mentre que la conformació de la FN mostra controlar la morfologia de les cèl·lules dendrítiques i / Llopis Hernández, V. (2017). Material-driven fibronectin fibrillogenesis to engineer cell function [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/90412

Cell-protein-material interactions

Protein adsorption

Fibronectin

Cell adhesion

Fibronectin reorganization

Cell differentiation

Surface properties

Mensenquimal stem cell

BMP-2

Extracellular matrix degradation

Extracellular matrix reorganization

Self-assembled monolayers

Dendritic cells

FISICA APLICADA