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An investigation of Langerhans' cell function in aged skinOgden, Stephanie January 2013 (has links)
With increasing age, aspects of the innate and adaptive immune systems show functional decline. In the skin this is associated with an increased incidence of epidermal malignancies and infections, a decreased incidence of contact allergy, and the development of autoimmunity. The mechanisms underlying these clinical effects in aged skin are poorly understood. Langerhans’ cells (LCs), which are members of the wider family of dendritic cells (DCs), reside in the epidermis where they act as sentinels of the immune system by processing and presenting antigen and inducing T cell responses. Previous investigations have suggested that the number of epidermal LCs is reduced, and that the motility of LCs is impaired in aged skin. A series of investigations was performed to characterise the mechanistic basis for the reduced frequency and restricted mobility of epidermal LCs in the skin of the elderly. Initially LC-like cells were cultured from circulating monocyte precursors and characterised using flow cytometry. The ability of precursors to differentiate into LC-like cells was not impaired in the aged; furthermore there were no age-associated differences in expression of markers of LC activation at baseline or upon stimulation. The phenotype of epidermal LCs was assessed using flow cytometric analysis of epidermal cell suspensions and did not appear altered in aged individuals. In addition, using the same techniques with dermal cell suspensions the dermal DC population was not altered with age. Langerhans’ cell migration from epidermal explants prepared from the skin of aged individuals was impaired but could be restored with exogenous interleukin (IL)-1β. There was no age-related reduction in the epidermal levels of IL-1β or caspase-1 (IL-1β converting enzyme which converts pro-IL-1β to the active form) or the expression of the IL-1 receptor I (IL-1RI), to account for this observation. However, the amount of IL-1 receptor antagonist was reduced in aged skin suggesting a change in the overall local cytokine balance. Based on previous reports that topical retinoic acid (RA) can increase cutaneous IL-1 production, a 4-day patch test assay was performed using 0.025% all-trans RA cream to explore whether this could restore LC migration in the aged. There was no effect on LC migration from epidermal explants prepared after treatment with RA in the aged.These data demonstrate that changes in LC function in the elderly may not be associated with changes in systemic DC biology. Age related changes in the cutaneous microenvironment are likely to be more relevant.
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NK, T and NK T-cells in ageing, coeliac disease and inflammatory bowel disease.Grose, Randall Hilton January 2008 (has links)
This thesis investigated the number and function of natural killer T-cells (NK T-cells) as a function of age, in coeliac disease, Crohn’s disease and ulcerative colitis. NK T-cells are a newly appreciated class of immune cells that are able to regulate the activity of the broader T-cell population. NK T-cells have been implicated in animal models of autoimmune disease and in human autoimmune disease. A subset of NK cells express the T-cell receptor (TCR) and are termed NK T-cells. In humans a further small subset of NK T-cells express an invariant TCR α chain (Vα24Jα18) and contain the immunoregulatory cell population that is distinguished from classical T-cells by promptly producing interleukin-4 (IL-4). Invariant NK T-cells (iNK T-cells) have the surface phenotype of Vα24+ Vβ11+ T-cells and express CD161+ NK markers. They are CD4+ (single positive; SP) or CD4- (double negative; DN), CD1d restricted and are α-galactosylceramide (α-GalCer) reactive. NKT cells have been implicated in numerous autoimmune disorders. Early work showed a major deficiency of NKT cell numbers in nonobese diabetic (NOD) mice, a well-established model of spontaneous, autoimmune T-cell mediated insulin-dependent diabetes. Both the number of NKT cells and function, as assessed by IL-4 release following TCR ligation, are dramatically reduced in NOD mice. NK T-cells have been implicated in other models of autoimmunity such as, experimental allergic encephalomyelitis (EAE). They have since been investigated and shown to be deficient in a number of human autoimmune diseases including, systemic sclerosis (SSc), and systemic lupus erythematosus (SLE), multiple sclerosis, atopic asthma, atopic dermatitis, rheumatoid arthritis, type 1 diabetes mellitus and scleroderma. The basis of the work presented within this thesis originated from the deficiency of NK T-cells in models of autoimmune diseases and human autoimmune diseases. The initial aim of this thesis was to investigate the phenotype and function of Vα24+ NK T-cells in normal healthy control subjects and with respect to age. The original aim was to investigate whether NK cells, T-cells, NK T-like cells and invariant NK T-cells (iNK T-cells) are deficient in coeliac disease, Crohn’s disease and/or ulcerative colitis. Blood was collected for flow cytometry from normal control subjects, subjects with coeliac disease, Crohn’s disease and ulcerative colitis. The number of circulating NK cells, T-cells, NK T-like cells and iNK T-cells was assessed by three-colour flow cytometry. Intracellular cytokine production was measured after in vitro anti-CD3/ anti-CD28 antibodies, gluten fraction 3 and PMA:ionomycin stimulation. Vα24+ T-cells were quantified in ileocolonic biopsies by immunofluorescence and as mRNA by relative and real-time PCR (RT-PCR). The number of circulating Vα24+ T-cells and iNK T-cells decrease with age in normal healthy control subjects. Cytokine production was also affected by age. The work of this thesis has identified a subpopulation of otherwise normal healthy individuals whom have normal numbers of circulating Vα24+ T-cells, reduced numbers of circulating Vα24+ Vβ11+ T-cells and consequently iNK Tcells. Circulating CD161+ NK cells, Vα24+ T-cells and the SP subset of Vα24+ Tcells were reduced in coeliac disease. The low numbers of circulating Vα24+ T-cells was independent of diet. The number of circulating Vα24+ Vβ11+ Tcells were reduced in coeliac disease, and as a consequence, the number of circulating Vα24+ Vβ11+ α-GalCer/CD1d tetramer+ and Vα24+ 6B11+ iNK T-cells were reduced. The deficiency of Vα24+ T-cells was not confined to the blood, but observed within the intestinal mucosa. Intestinal Vα24 mRNA expression from subjects with coeliac disease was reduced compared to levels in normal subjects as assessed by relative and RT-PCR. Thus, Vα24+ T-cells were deficient in coeliac disease both systemically and mucosally. Cytokine production by Vα24+ T-cells, 6B11+ and Vα24+ α-GalCer/CD1d tetramer+ iNK T-cells after 4 h in vitro anti-CD3 stimulation was also impaired in subjects with coeliac disease. Circulating CD56+, CD57+, CD94+, CD161+ NK cells were reduced in Crohn’s disease and ulcerative colitis. Vα24+ T-cells and the SP subset of Vα24+ T-cells were reduced in Crohn’s disease but not in ulcerative colitis. Circulating Vα24+ Vβ11+ T-cells, Vα24+ Vβ11+ α-GalCer/CD1d tetramer+ and Vα24+ 6B11+ iNK T-cells were deficient in both Cohn’s disease and ulcerative colitis. The deficiency of Vα24+ T-cells was also observed within the intestinal mucosa. Intestinal Vα24 mRNA expression from Crohn’s disease and ulcerative colitis was reduced compared to levels in normal subjects as assessed by relative and RT-PCR. Cytokine production by Vα24+ T-cells, 6B11+ and Vα24+ α-GalCer/CD1d tetramer+ iNK T-cells after 4 h in vitro anti-CD3 stimulation was impaired for subjects with Crohn’s disease and ulcerative colitis. In summary, Vα24+ T-cell number and function were affected by age. Further investigations are warranted to see if deficiency of this immunoregulatory population is associated with disease. The decrease and dysfunction in immunoregulatory cells, Vα24 T-cells and iNK T-cells could contribute to the pathogenesis of coeliac disease, Crohn’s disease and ulcerative colitis. Coeliac disease, Crohn’s disease and ulcerative colitis are polygenetic diseases in which environmental factors play a significant role in disease development and state. The reduced numbers of iNK T-cell along with their impaired function may only be two factors. Presumably, other factors are involved. Nevertheless, iNK T-cells offer a potential target for the therapeutic intervention of coeliac disease, ulcerative colitis and Crohn’s disease. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345088 / Thesis (Ph.D.) - University of Adelaide, School of Medicine, 2008
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NK, T and NK T-cells in ageing, coeliac disease and inflammatory bowel disease.Grose, Randall Hilton January 2008 (has links)
This thesis investigated the number and function of natural killer T-cells (NK T-cells) as a function of age, in coeliac disease, Crohn’s disease and ulcerative colitis. NK T-cells are a newly appreciated class of immune cells that are able to regulate the activity of the broader T-cell population. NK T-cells have been implicated in animal models of autoimmune disease and in human autoimmune disease. A subset of NK cells express the T-cell receptor (TCR) and are termed NK T-cells. In humans a further small subset of NK T-cells express an invariant TCR α chain (Vα24Jα18) and contain the immunoregulatory cell population that is distinguished from classical T-cells by promptly producing interleukin-4 (IL-4). Invariant NK T-cells (iNK T-cells) have the surface phenotype of Vα24+ Vβ11+ T-cells and express CD161+ NK markers. They are CD4+ (single positive; SP) or CD4- (double negative; DN), CD1d restricted and are α-galactosylceramide (α-GalCer) reactive. NKT cells have been implicated in numerous autoimmune disorders. Early work showed a major deficiency of NKT cell numbers in nonobese diabetic (NOD) mice, a well-established model of spontaneous, autoimmune T-cell mediated insulin-dependent diabetes. Both the number of NKT cells and function, as assessed by IL-4 release following TCR ligation, are dramatically reduced in NOD mice. NK T-cells have been implicated in other models of autoimmunity such as, experimental allergic encephalomyelitis (EAE). They have since been investigated and shown to be deficient in a number of human autoimmune diseases including, systemic sclerosis (SSc), and systemic lupus erythematosus (SLE), multiple sclerosis, atopic asthma, atopic dermatitis, rheumatoid arthritis, type 1 diabetes mellitus and scleroderma. The basis of the work presented within this thesis originated from the deficiency of NK T-cells in models of autoimmune diseases and human autoimmune diseases. The initial aim of this thesis was to investigate the phenotype and function of Vα24+ NK T-cells in normal healthy control subjects and with respect to age. The original aim was to investigate whether NK cells, T-cells, NK T-like cells and invariant NK T-cells (iNK T-cells) are deficient in coeliac disease, Crohn’s disease and/or ulcerative colitis. Blood was collected for flow cytometry from normal control subjects, subjects with coeliac disease, Crohn’s disease and ulcerative colitis. The number of circulating NK cells, T-cells, NK T-like cells and iNK T-cells was assessed by three-colour flow cytometry. Intracellular cytokine production was measured after in vitro anti-CD3/ anti-CD28 antibodies, gluten fraction 3 and PMA:ionomycin stimulation. Vα24+ T-cells were quantified in ileocolonic biopsies by immunofluorescence and as mRNA by relative and real-time PCR (RT-PCR). The number of circulating Vα24+ T-cells and iNK T-cells decrease with age in normal healthy control subjects. Cytokine production was also affected by age. The work of this thesis has identified a subpopulation of otherwise normal healthy individuals whom have normal numbers of circulating Vα24+ T-cells, reduced numbers of circulating Vα24+ Vβ11+ T-cells and consequently iNK Tcells. Circulating CD161+ NK cells, Vα24+ T-cells and the SP subset of Vα24+ Tcells were reduced in coeliac disease. The low numbers of circulating Vα24+ T-cells was independent of diet. The number of circulating Vα24+ Vβ11+ Tcells were reduced in coeliac disease, and as a consequence, the number of circulating Vα24+ Vβ11+ α-GalCer/CD1d tetramer+ and Vα24+ 6B11+ iNK T-cells were reduced. The deficiency of Vα24+ T-cells was not confined to the blood, but observed within the intestinal mucosa. Intestinal Vα24 mRNA expression from subjects with coeliac disease was reduced compared to levels in normal subjects as assessed by relative and RT-PCR. Thus, Vα24+ T-cells were deficient in coeliac disease both systemically and mucosally. Cytokine production by Vα24+ T-cells, 6B11+ and Vα24+ α-GalCer/CD1d tetramer+ iNK T-cells after 4 h in vitro anti-CD3 stimulation was also impaired in subjects with coeliac disease. Circulating CD56+, CD57+, CD94+, CD161+ NK cells were reduced in Crohn’s disease and ulcerative colitis. Vα24+ T-cells and the SP subset of Vα24+ T-cells were reduced in Crohn’s disease but not in ulcerative colitis. Circulating Vα24+ Vβ11+ T-cells, Vα24+ Vβ11+ α-GalCer/CD1d tetramer+ and Vα24+ 6B11+ iNK T-cells were deficient in both Cohn’s disease and ulcerative colitis. The deficiency of Vα24+ T-cells was also observed within the intestinal mucosa. Intestinal Vα24 mRNA expression from Crohn’s disease and ulcerative colitis was reduced compared to levels in normal subjects as assessed by relative and RT-PCR. Cytokine production by Vα24+ T-cells, 6B11+ and Vα24+ α-GalCer/CD1d tetramer+ iNK T-cells after 4 h in vitro anti-CD3 stimulation was impaired for subjects with Crohn’s disease and ulcerative colitis. In summary, Vα24+ T-cell number and function were affected by age. Further investigations are warranted to see if deficiency of this immunoregulatory population is associated with disease. The decrease and dysfunction in immunoregulatory cells, Vα24 T-cells and iNK T-cells could contribute to the pathogenesis of coeliac disease, Crohn’s disease and ulcerative colitis. Coeliac disease, Crohn’s disease and ulcerative colitis are polygenetic diseases in which environmental factors play a significant role in disease development and state. The reduced numbers of iNK T-cell along with their impaired function may only be two factors. Presumably, other factors are involved. Nevertheless, iNK T-cells offer a potential target for the therapeutic intervention of coeliac disease, ulcerative colitis and Crohn’s disease. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345088 / Thesis (Ph.D.) - University of Adelaide, School of Medicine, 2008
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Discrete event modeling and analysis for systems biology models / ..Soueidan, Hayssam 04 December 2009 (has links)
Les travaux effectués durant cette thèse portent sur la spécification, l'analyse et l'application de systèmes a événements discrets pour la modélisation de processus biologiques stochastiques en biologie des systèmes. Le point de départ de cette thèse est le langage de modélisation AltaRica, que nous étendons afin de permettre de décrire des événements temporisés selon des distributions de probabilités quelconques (dégénérées, discrètes et continues). Nous définissons ensuite la sémantique de ce langage en terme d'automates de mode stochastiques et présentons trois opérations de compositions permettant de modéliser des systèmes hiérarchiques avec événements synchronisés et partage de valeurs via un mécanisme de connexion. Nous donnons ensuite au automates de mode stochastiques une sémantique en termes de systèmes de transitions dont les transitions sont étiquetées par des distributions de probabilités et des probabilités de transitions instantanées. Nous caractérisons ensuite 6 sous classes de ces systèmes de transitions et donnons pour chacune de ces classes un algorithme de simulation ainsi qu'une mesure de probabilité sur les chemins finis. Nous montrons que pour certaines de ces classes, notre sémantique est conforme avec les mesures de probabilité de chemin usuellement associées aux chaînes de Markov a temps discret, a temps continu et aux processus semi-Markoviens généralisés. Nous abordons ensuite le problème de la réutilisation de modèles continus existant dans un système discret. Nous donnons une méthode d'abstraction permettant de représenter un ensemble de trajectoires bornées ou non d'un modèle continu sous forme d'un système de transition stochastique fini. A travers des exemples tirés de la littérature, nous montrons que notre abstraction préserve les propriétés "qualitatives" (par exemple oscillations, hystérie) des modèles continus et qu'une comparaison entre trajectoires basée sur leurs représentations en termes de systèmes de transitions permet de regrouper les trajectoires en fonction de comportements qualitatifs plus fins que ceux permis par la théorie des bifurcations. Finalement, nous étudions a l'aide de ces modèles des processus liés a la division cellulaire chez les levures. En particulier, nous définissons un modèle pour le vieillissement cellulaire dans une population de levure où le comportement individuel d'une cellule est régi par une équation différentielle ordinaire et où le processus de division est régi par un système de transition. Nous montrons a l'aide de ce modèle que la survie d'une population de levure de type Schizosaccharomyces Pombe, qui se divisent par une fission médiane, n'est possible que grâce a un mécanisme de distribution non symétrique des dégâts oxydatifs entre la progéniture et la cellule souche. Cette hypothèse fut validée expérimentalement lors d'une collaboration avec le laboratoire de micro-biologie de Göteborg. / A general goal of systems biology is to acquire a detailed understanding of the dynamics of living systems by relating functional properties of whole systems with the interactions of their constituents. Often this goal is tackled through computer simulation. A number of different formalisms are currently used to construct numerical representations of biological systems, and a certain wealth of models is proposed using ad hoc methods. There arises an interesting question of to what extent these models can be reused and composed, together or in a larger framework. In this thesis, we propose BioRica as a means to circumvent the difficulty of incorporating disparate approaches in the same modeling study. BioRica is an extension of the AltaRica specification language to describe hierarchical non-deterministic General Semi-Markov processes. We first extend the syntax and automata semantics of AltaRica in order to account for stochastic labeling. We then provide a semantics to BioRica programs in terms of stochastic transition systems, that are transition systems with stochastic labeling. We then develop numerical methods to symbolically compute the probability of a given finite path in a stochastic transition systems. We then define algorithms and rules to compile a BioRica system into a stand alone C++ simulator that simulates the underlying stochastic process. We also present language extensions that enables the modeler to include into a BioRica hierarchical systems nodes that use numerical libraries (e.g. Mathematica, Matlab, GSL). Such nodes can be used to perform numerical integration or flux balance analysis during discrete event simulation. We then consider the problem of using models with uncertain parameter values. Quantitative models in Systems Biology depend on a large number of free parameters, whose values completely determine behavior of models. Some range of parameter values produce similar system dynamics, making it possible to define general trends for trajectories of the system (e.g. oscillating behavior) for some parameter values. In this work, we defined an automata-based formalism to describe the qualitative behavior of systems’ dynamics. Qualitative behaviors are represented by finite transition systems whose states contain predicate valuation and whose transitions are labeled by probabilistic delays. We provide algorithms to automatically build such automata representation by using random sampling over the parameter space and algorithms to compare and cluster the resulting qualitative transition system. Finally, we validate our approach by studying a rejuvenation effect in yeasts cells population by using a hierarchical population model defined in BioRica. Models of ageing for yeast cells aim to provide insight into the general biological processes of ageing. For this study, we used the BioRica framework to generate a hierarchical simulation tool that allows dynamic creation of entities during simulation. The predictions of our hierarchical mathematical model has been validated experimentally by the micro-biology laboratory of Gothenburg
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