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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Porphyromonas gingivalis innate immune evasion contributes to site-specific chronic inflammation

Slocum, Connie 08 April 2016 (has links)
Several successful pathogens evade host defenses resulting in the establishment of persistent and chronic infections. One such pathogen, Porphyromonas gingivalis, induces chronic low-grade inflammation associated with local inflammatory oral bone loss and systemic inflammation manifested as atherosclerosis. The pathogenic mechanisms contributing to P. gingivalis evasion of host immunity and chronic inflammation are not well defined. P. gingivalis evades host immunity at Toll-like receptor (TLR)-4 through expression of an atypical lipopolysaccharide (LPS) that contains lipid A species that exhibit TLR4 agonist or antagonist activity or fail to activate TLR4. By utilizing a series of P. gingivalis lipid A mutants we demonstrated that expression of antagonist lipid A structures resulted in weak induction of proinflammatory mediators. Moreover, expression of antagonist lipid A failed to activate the inflammasome, which correlated with increased bacterial survival in macrophages. Oral infection of atherosclerotic prone apolipoprotein E (ApoE) deficient mice with the antagonist lipid A strain resulted in vascular inflammation characterized by macrophage accumulation and atherosclerosis progression. In contrast, a P. gingivalis strain expressing exclusively agonist lipid A augmented levels of proinflammatory mediators and activated the inflammasome in a caspase-11 dependent manner, resulting in host cell lysis and decreased bacterial survival. ApoE deficient mice infected with the agonist lipid A strain exhibited diminished vascular inflammation. Notably, the ability of P. gingivalis to induce local inflammatory oral bone loss was independent of lipid A expression, indicative of distinct mechanisms for induction of local versus systemic inflammation by this pathogen. We next investigated the role of TLRs and lipid A on bacterial trafficking by the autophagic pathway. Originally characterized as a cell autonomous pathway for recycling damaged organelles and proteins, autophagy is now recognized to play a critical role in innate defense and release of the proinflammatory cytokine interleukin (IL)-1β. We demonstrated that P. gingivalis suppresses the autophagic pathway in macrophages for pathogen survival and intercepts autophagy-mediated IL-1β release. P. gingivalis-mediated suppression of autophagy was independent of lipid A expression but partially dependent on TLR2 signaling. Collectively, our results indicate that P. gingivalis evasion of innate immunity plays a role in chronic inflammation.
2

Antiapoptotic Proteins in Human Macrophage Survival, Differentiation, Innate Immunity and Protection from HIV-induced Apoptosis

Busca, Aurelia 02 April 2013 (has links)
Macrophages represent long lived immune cells that are remarkably resistant to apoptosis, which allows them to perform in highly stressful environments. Apoptosis resistance is a characteristic that develops during the differentiation process from monocytes to macrophages. However, the signaling pathways that mediate the development of macrophage antiapoptotic phenotype during differentiation remain mostly unknown. Because of their decreased susceptibility to cell death, macrophages are also key viral reservoirs during HIV infection. My research aims to understand the molecular mechanisms and signaling pathways that mediate cell survival during and after monocyte to macrophage differentiation and the involvement of the main families of antiapoptotic proteins, IAPs (inhibitors of apoptosis) and Bcl2 in this process. HIV accessory protein Vpr was used as an apoptotic stimulus, due to its death inducing abilities in other cell types. My results show that survival of macrophages is distinctively regulated during and after differentiation. I have identified a signaling pathway consisting of PI3K/Akt activation of NFκB that is important in survival of differentiating macrophages by specifically sustaining antiapoptotic Bcl-xL expression. However, once differentiated, Mcl-1, but not Bcl-xL is dependent on PI3K/Akt activation. Moreover, differentiated macrophages are resistant to the effect of HIV-Vpr, which is highly apoptotic for monocytes. In contrast, resistance to HIV-Vpr induced apoptosis of human macrophages is specifically mediated by antiapoptotic IAP proteins, with no involvement of the Bcl2 family, which maintains macrophage viability in the absence of any apoptotic stimuli. In addition to their antiapoptotic properties, IAPs are also important regulators of macrophage function. By using chemical compounds (SMAC mimetics) that target IAPs for degradation, I have shown that IAPs positively modulate LPS-induced IL10, IL-27 and MIG (monokine induced by IFNγ) production in human macrophages, by promoting TRAF2, JNK and p38 signaling and NFκB activation. In addition, IAPs also contribute to LPS-induction of CD80/CD86 costimulatory molecules. Overall, my results suggest that both IAPs and Bcl2 families contribute to survival of human macrophages and that IAPs are also involved in innate immune responses. Unraveling the mechanisms that control macrophage survival and function in various settings would provide therapeutic strategies aimed at eliminating cells when their survival is no longer beneficial for the host, as in the case of HIV infection or autoimmune diseases.
3

Antiapoptotic Proteins in Human Macrophage Survival, Differentiation, Innate Immunity and Protection from HIV-induced Apoptosis

Busca, Aurelia 02 April 2013 (has links)
Macrophages represent long lived immune cells that are remarkably resistant to apoptosis, which allows them to perform in highly stressful environments. Apoptosis resistance is a characteristic that develops during the differentiation process from monocytes to macrophages. However, the signaling pathways that mediate the development of macrophage antiapoptotic phenotype during differentiation remain mostly unknown. Because of their decreased susceptibility to cell death, macrophages are also key viral reservoirs during HIV infection. My research aims to understand the molecular mechanisms and signaling pathways that mediate cell survival during and after monocyte to macrophage differentiation and the involvement of the main families of antiapoptotic proteins, IAPs (inhibitors of apoptosis) and Bcl2 in this process. HIV accessory protein Vpr was used as an apoptotic stimulus, due to its death inducing abilities in other cell types. My results show that survival of macrophages is distinctively regulated during and after differentiation. I have identified a signaling pathway consisting of PI3K/Akt activation of NFκB that is important in survival of differentiating macrophages by specifically sustaining antiapoptotic Bcl-xL expression. However, once differentiated, Mcl-1, but not Bcl-xL is dependent on PI3K/Akt activation. Moreover, differentiated macrophages are resistant to the effect of HIV-Vpr, which is highly apoptotic for monocytes. In contrast, resistance to HIV-Vpr induced apoptosis of human macrophages is specifically mediated by antiapoptotic IAP proteins, with no involvement of the Bcl2 family, which maintains macrophage viability in the absence of any apoptotic stimuli. In addition to their antiapoptotic properties, IAPs are also important regulators of macrophage function. By using chemical compounds (SMAC mimetics) that target IAPs for degradation, I have shown that IAPs positively modulate LPS-induced IL10, IL-27 and MIG (monokine induced by IFNγ) production in human macrophages, by promoting TRAF2, JNK and p38 signaling and NFκB activation. In addition, IAPs also contribute to LPS-induction of CD80/CD86 costimulatory molecules. Overall, my results suggest that both IAPs and Bcl2 families contribute to survival of human macrophages and that IAPs are also involved in innate immune responses. Unraveling the mechanisms that control macrophage survival and function in various settings would provide therapeutic strategies aimed at eliminating cells when their survival is no longer beneficial for the host, as in the case of HIV infection or autoimmune diseases.
4

Antiapoptotic Proteins in Human Macrophage Survival, Differentiation, Innate Immunity and Protection from HIV-induced Apoptosis

Busca, Aurelia January 2013 (has links)
Macrophages represent long lived immune cells that are remarkably resistant to apoptosis, which allows them to perform in highly stressful environments. Apoptosis resistance is a characteristic that develops during the differentiation process from monocytes to macrophages. However, the signaling pathways that mediate the development of macrophage antiapoptotic phenotype during differentiation remain mostly unknown. Because of their decreased susceptibility to cell death, macrophages are also key viral reservoirs during HIV infection. My research aims to understand the molecular mechanisms and signaling pathways that mediate cell survival during and after monocyte to macrophage differentiation and the involvement of the main families of antiapoptotic proteins, IAPs (inhibitors of apoptosis) and Bcl2 in this process. HIV accessory protein Vpr was used as an apoptotic stimulus, due to its death inducing abilities in other cell types. My results show that survival of macrophages is distinctively regulated during and after differentiation. I have identified a signaling pathway consisting of PI3K/Akt activation of NFκB that is important in survival of differentiating macrophages by specifically sustaining antiapoptotic Bcl-xL expression. However, once differentiated, Mcl-1, but not Bcl-xL is dependent on PI3K/Akt activation. Moreover, differentiated macrophages are resistant to the effect of HIV-Vpr, which is highly apoptotic for monocytes. In contrast, resistance to HIV-Vpr induced apoptosis of human macrophages is specifically mediated by antiapoptotic IAP proteins, with no involvement of the Bcl2 family, which maintains macrophage viability in the absence of any apoptotic stimuli. In addition to their antiapoptotic properties, IAPs are also important regulators of macrophage function. By using chemical compounds (SMAC mimetics) that target IAPs for degradation, I have shown that IAPs positively modulate LPS-induced IL10, IL-27 and MIG (monokine induced by IFNγ) production in human macrophages, by promoting TRAF2, JNK and p38 signaling and NFκB activation. In addition, IAPs also contribute to LPS-induction of CD80/CD86 costimulatory molecules. Overall, my results suggest that both IAPs and Bcl2 families contribute to survival of human macrophages and that IAPs are also involved in innate immune responses. Unraveling the mechanisms that control macrophage survival and function in various settings would provide therapeutic strategies aimed at eliminating cells when their survival is no longer beneficial for the host, as in the case of HIV infection or autoimmune diseases.
5

Differential Regulation of Lipopolysaccharide and Gram-Positive Bacteria Induced Cytokine and Chemokine Production in Splenocytes by Gα<sub>I</sub> Proteins

Fan, Hongkuan, Williams, David L., Zingarelli, Basilia, Breuel, Kevin F., Teti, Giuseppe, Tempel, George E., Spicher, Karsten, Boulay, Guylain, Birnbaumer, Lutz, Halushka, Perry V., Cook, James A. 01 October 2006 (has links)
Heterotrimeric Gi proteins play a role in lipopolysaccharide (LPS) and Staphylococcus aureus (SA) activated signaling leading to inflammatory mediator production. We hypothesized that genetic deletion of Gi proteins would alter cytokine and chemokine production induced by LPS and SA. LPS- and heat killed SA-induced cytokine and chemokine production in splenocytes from wild type (WT), Gαi2 (-/-) or Gαi1/3 (-/-) mice were investigated. LPS- or SA-induced production of TNFα, IL-6, IFNγ, IL-12, IL-17, GM-CSF, MIP-1α, MCP-1, MIG and IP-10 were significantly increased (1.2 to 33 fold, p < 0.05) in splenocytes harvested from Gαi2(-/-) mice compared with WT mice. The effect of Gαi protein depletion was remarkably isoform specific. In splenocytes from Gαi1/3 (-/-) mice relative to WT mice, SA-induced IL-6, IFNγ, GM-CSF, and IP-10 levels were decreased (59% to 86%, p < 0.05), whereas other LPS- or SA-stimulated cytokines and chemokines were not different relative to WT mice. LPS- and SA-induced production of KC were unchanged in both groups of the genetic deficient mice. Splenocytes from both Gαi2 (-/-) and Gαi1/3 (-/-) mice did not exhibit changes in TLR2 and TLR4 expression. Also analysis of splenic cellular composition by flow cytometry demonstrated an increase in splenic macrophages and reduced CD4 T cells in both Gαi2 (-/-) and Gαi1/3 (-/-) mice relative to WT mice. The disparate response of splenocytes from the Gαi2 (-/-) relative to Gαi1/3 (-/-) mice therefore cannot be attributed to major differences in spleen cellular composition. These data demonstrate that Gi2 and Gi1/3 proteins are both involved and differentially regulate splenocyte inflammatory cytokine and chemokine production in a highly Gi isoform specific manner in response to LPS and Gram-positive microbial stimuli.
6

The Involvement of SLAMF9 in the Innate Immune Response

Bates, Briana Lynn 26 July 2022 (has links)
No description available.
7

Effects of Wnt and different TLR stimulations on microglia-induced invasion of breast cancer cells

Chuang, Eugenia Han-Ning 04 July 2011 (has links)
No description available.

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