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Mode of Adjuvant Action of the Nasally Delivered Cytokine Interleukin 1 AlphaThompson, Afton L. January 2011 (has links)
<p>Although monophosphoryl lipid A was recently approved by the Food and Drug Administration, more vaccine adjuvants are needed to meet the demand for vaccines against new, emerging, and re-emerging diseases. Additionally, characterizing the mechanisms of action of potent vaccine adjuvants is important for moving toward more rational vaccine design based on the careful selection of antigens and adjuvants to stimulate only the desired immune responses. Two experimental vaccine adjuvants, compound 48/80 (C48/80) and IL-1, were evaluated in these studies. The safety and efficacy of the mast cell activator C48/80 was evaluated when used as an adjuvant delivered intradermally (ID) with recombinant anthrax protective antigen (rPA) in comparison with two well-known adjuvants. Mice were vaccinated in the ear pinnae with rPA or rPA + C48/80, CpG oligodeoxynucleotides (CpG), or cholera toxin (CT). All adjuvants induced similar increases in serum anti-rPA IgG and lethal toxin-neutralizing antibodies. C48/80 induced balanced cytokine production (Th1/Th2/Th17) by antigen-restimulated splenocytes, minimal injection site inflammation, and no antigen-specific IgE. Our data demonstrate that C48/80 is a safe and effective adjuvant, when used by the intradermal route, to induce protective antibody and balanced Th1/Th2/Th17 responses. Histological analysis demonstrated that vaccination with C48/80 reduced the number of resident mast cells and induced an injection-site neutrophil influx within 24 hours. Nonetheless, rPA + C48/80 significantly increased antigen-specific IgG titers in mast cell-deficient mice compared to antigen alone, suggesting that C48/80 has mast cell-dependent and mast cell-independent mechanisms of action.</p><p>IL-1alpha and beta have been shown to have strong mucosal adjuvant activities, but little is known about their mechanism of action. Bone marrow chimeric mice were intranasally vaccinated with Bacillus anthracis lethal factor (LF) with or without 4 µg IL-1alpha or a control adjuvant (cholera toxin) to determine if IL-1R1 expression on stromal cells or hematopoietic cells was sufficient for the maximal adjuvant activity of nasally delivered IL-1alpha. IL-1alpha was not active in IL-1R1-deficient (<italic>Il1r1</italic>-/-) mice given <italic>Il1r1</italic>-/- bone marrow, demonstrating that the adjuvant activity of IL-1 was due to the presence of IL-1R1 and not contaminants. Cytokine and chemokine responses induced by vaccination with IL-1alpha were predominantly derived from the stromal cell compartment and included G-CSF, IL-6, IL-13, MCP-1, and KC. Nasal vaccination of <italic>Il1r1</italic>-/- mice given wild-type bone marrow (WT-->KO) and WT-->WT mice with LF + IL-1alpha induced maximal adaptive immune responses, while vaccination of wild-type mice given <italic>Il1r1</italic>-/- bone marrow (KO-->WT) mice resulted in significantly decreased production of LF-specific serum IgG, IgG subclasses, lethal toxin-neutralizing antibodies, and mucosal IgA compared to WT-->KO and WT-->WT mice (p < 0.05). Our results suggest that IL-1R1 expression in the hematopoietic compartment is sufficient for the maximal induction of antigen-specific adaptive immunity after nasal vaccination adjuvanted with IL-1alpha and that while stromal cells are required for maximal adjuvant-induced cytokine production, the adjuvant-induced stromal cell cytokine responses are not required for effective induction of adaptive immunity.</p> / Dissertation
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Interactions between Malignant Keratinocytes and Fibroblasts : Studies in Head and Neck Squamous Cell CarcinomaHakelius, Malin January 2014 (has links)
Carcinoma growth requires a supportive tumor stroma. The concept of reciprocal interactions between tumor and stromal cells has become widely acknowledged and the connective tissue activation seen in the malignant process has been likened to that of a healing wound. Little is, however, known about the specific characteristics of these interactions, distinguishing them from the interplay occurring between epithelial and stromal cells in wound healing. In order to study differences in the humoral effects of malignant and benign epithelial cells on fibroblasts, we used an in vitro coculture model with human oral squamous cell carcinoma cells (SCC) or normal oral keratinocytes (NOK) on one side of a semi-permeable membrane and fibroblasts seeded in gels on the other. Pro-collagens α1(I) and α1(III) were more downregulated in NOK cocultures compared to SCC cocultures. IL-1α was identified as a major keratinocyte-derived soluble factor behind the effects observed. We concluded that SCC are less antifibrotic compared to NOK. There was also a differential expression among enzymes involved in ECM turnover. The urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor-1 (PAI-1) were both upregulated by NOK, but not by SCC. Here, rIL-1ra caused further upregulation of PAI-1. Global gene expression in fibroblasts was assessed using Affymetrix™ arrays. In total, 82 transcripts were considered differentially expressed; 52 were up- and 30 were downregulated in SCC compared to NOK cocultures. Among the differentially expressed genes there was an enrichment of genes related to collagens and to a nonspecific, innate-type response. The innate response marker pentraxin (PTX3) was upregulated by keratinocyte-derrived IL-1α in both NOK and SCC cocultures. We observed a considerably higher IL-1α / IL-1ra quotient in SCC cocultures, however, while PTX3 mRNA upregulation was higher in SCC cocultures, there was no difference in the level of PTX3 secreted protein. Taken together, we concluded that NOK and SCC regulate genes important for ECM composition and for the innate immune-response differentially. IL-1α was identified as one important mediator of the observed effects. In general, SCC appeared to be more profibrotic in their effects on fibroblasts.
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The Impacts of Inflammation on Adult Prostate Stem CellsPaula Cooper (9189491) 04 August 2020 (has links)
<p>Adult prostate stem cells (PSC) are a rare epithelial progenitor population in the prostate. While essential for normal homeostasis, they have also been implicated in hyperplasia and cancer initiation. While studies have shown that inflammatory growth factors and cytokines can fuel stem cell expansion, the impact of inflammation on PSC is not well understood. To study the impact of inflammation on the prostate, the Ratliff laboratory developed the Prostate Ovalbumin Expressing Transgenic 3 (POET3), an inducible mouse model of abacterial T cell mediated prostate inflammation, which functions as a model for human autoimmune prostatitis. Previous studies using the POET3 demonstrated that inflammation increased proliferation and differentiation of PSC enrichments. Based on these findings, it was speculated that inflammation impacts prostate stem cells to enhance mechanisms of survival, possibly as a means of tissue protection.</p><p>Since androgen receptor (AR) signaling is the major driver of cellular differentiation and survival in the prostate, it was further hypothesized that inflammation promotes AR signaling in the PSC. To address this hypothesis, PSC and their resulting organoids from inflamed and non-inflamed (naïve) POET3 mice as well as human patient samples were assessed for AR and its signaling components.</p><p>These data were expanded by single cell mRNA sequencing using Fluidigm’s C1 platform, which revealed changes in stem cell populations, differential expression of interleukin 1 alpha (IL-1⍺) and its signaling components, and upregulation of various genes associated with immune regulation. Thus, experiments described herein probed the impacts of inflammation on AR, IL-1⍺, and T cell regulatory abilities in the PSC.</p>The results of these studies indicate that indeed, inflammation increases PSC survival. Inhibition of IL-1⍺ via inflammation-mediated up-regulation of IL-1 receptor antagonist (IL-1RA) promotes AR signaling, resulting in proliferation, differentiation, and AR target gene expression which can be modulated by Enzalutamide (a clinical AR inhibitor). Furthermore, PSC from inflamed mice are able to suppress cytotoxic T cell function in <i>ex vivo</i> assays. These studies set the foundation for new ways to treat proliferative diseases of the prostate by targeting IL-1⍺, AR, and immune regulation in the PSC.
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