Global ETD Search

21	Small Molecule Investigation of KCNQ Potassium Channels: A Dissertation Mruk, Karen 30 May 2012 (has links) Voltage-gated K+ channels associate with multiple regulatory proteins to form complexes with diverse gating properties and pharmacological sensitivities. Small molecules which activate or inhibit channel function are valuable tools for dissecting the assembly and function of these macromolecular complexes. My thesis focuses on the discovery and use of small molecules to probe the structure and function of the KCNQ family of voltage-gated K+ channels. One protein that obligatorily assembles with KCNQ channels to mediate proper assembly, trafficking, and gating is the calcium sensor, calmodulin. Although resolution of the crystal structures of calmodulin associated with isolated peptide fragments from other ion channels has provided some insight into how calmodulin interacts with and modulates KCNQ channels, structural information for calmodulin bound to a fully folded ion channel in the membrane is unknown. In Chapter II, I developed an intracellular tethered blocker approach to determine the location of calmodulin binding with respect to the KCNQ ion-conducting pathway. Using distance restraints from a panel of these intracellular tethered blockers we then generated models of the KCNQ-calmodulin complex. Our model places calmodulin close to the gate of KCNQ channels, providing structural insight into how CaM is able to communicate changes in intracellular calcium levels to KCNQ channel complexes. In addition to pore blockers, chemical modification of ion channels has been used to probe ion channel function. During my initial attempt to chemically activate KCNQ channels, I discovered that some boronates modulate KCNQ complexes. In Chapter III, the activating derivative, phenylboronic acid, is characterized. Characterization of activation by phenylboronic acid showed that it targeted the ion conduction pathway of KCNQ channels with some specificity over other voltage-gated K+ channels. The commercial availability of thousands of boronic acid derivatives provides a large class of compounds with which to systematically dissect the mechanisms of KCNQ gating and may lead to the discovery of a potent activator of KCNQ complexes for the treatment of channelopathies. All of the electrophysiological studies presented in this thesis were conducted in Xenopus oocytes. Unexpectedly, during the studies described above, the quality of our Xenopus oocytes declined. The afflicted oocytes developed black foci on their membranes, had negligible electric resting potentials, and poor viability. Culturing the compromised oocytes determined that they were infected with multi-drug resistant Stenotrophomonas maltophilia, Pseudomonas fluorescens and Pseudomonas putida. Antibiotic testing showed that all three species of bacteria were susceptible to amikacin and ciprofloxacin, which when included in the oocyte storage media prevented the appearance of black foci and resulted in oocytes that were usable for electrophysiological recordings. This study provides a solution to a common issue that plagues many electrophysiologists who use Xenopus oocytes. Taken together, these findings provide new insights into activation of KCNQ channel complexes and provide new tools to study the structure-function relationship of voltage-gated K+ channels. KCNQ Potassium Channels Amino Acids, Peptides, and Proteins Bacteria Biological Factors Inorganic Chemicals Investigative Techniques
22	Proteolytic Cleavages of Molecules Involved in Antigen Processing and Presentation: A Thesis Thomas, Lawrence James 01 August 1989 (has links) The overall goal of my thesis research was to understand better the mechanisms that control antigen processing and presentation by class II MHC molecules. Towards this goal I investigated ways in which the physical structure and post-translational modifications of the class II MHC alpha and beta chains and associated molecules might serve to regulate antigen processing and presentation. Specifically, I investigated (1) a hypothesis that Ii might aid binding of foreign antigenic peptides to the class II MHC foreign antigen binding site (desetope), and the application of this hypothesis to the prediction of class II-presented peptides; (2) the proteolytic cleavage of Ii to p25; (3) the proteolytic cleavage of the class II MHC alpha and beta chains, and (4) the phosphorylation of Iiand the alpha and beta chains. In exploring the hypothesis that amphipathic alpha helical peptides digested from foreign antigen, bind to the class II MHC desetope, to be presented to T cell receptors, we found such an extended, amphipathic helix in Ii (Phe146-Val164). A hypothesis was developed that this amphipathic alpha helix of Ii bound to the desetope of class II MHC molecules, and remained there from time of synthesis until catalyzing the charging of the desetope with a foreign peptide. This region of Iicould then be considered to be the prototypic T cell-presented peptide and the "strip-of-helix" algorithm was developed to search the sequences of proteins for similar amphipathic alpha helices. Such peptides might bind to the class II MHC desetope and have a high probability to be presented to the T cell. The strip-of-helix algorithm calculated the mean hydrophobicity (from Kyte-Doolittle values; Kyte and Doolittle, 1982) of sets of amino acids in axial strips down sides of helices for 3 to 6 turns, at positions n, n+4, n+7, n+11, n+14, and n+18. Peptides correlating well with T cell responsiveness had: (1) 12 to 19 amino acids (4-6 turns of an alpha helix), (2) a strip with highly hydrophobic residues, (3) adjacent, moderately hydrophilic strips, and (4) no prolines to break the helix. This algorithm predicted 10 of 12 T cell-presented peptides in 7 well-studied proteins. In a study of the post-translational modifications of Ii, an early proteolytic pathway of the destruction of Ii, resulting in the generation of p25, was described. This 25,000 dalton protein, seen in immunoprecipitates with antibodies to class II MHC molecules or to Ii, was shown to be a C-termina1 fragment of a high mannose form of Ii. The evidence for this conclusion includes the following results. [35S]methionine-1abe1ed Ii and associated molecules were immunoprecipitated, denatured, resolubi1ized and subjected to a second immunoprecipitation with various antibodies. Two antisera to C-termina1 peptides of Ii (183-193 and 192-211), but not an antiserum to an N-termina1 peptide (12-28), immunoprecipitated p25. A monoclonal antibody (mAb) to Ii immunoprecipitated [35S]methionine-1abe1ed p25 but not [35S]cysteine-1abe1ed p25, consistent with the loss of a portion of Ii containing the only cysteine in Ii, Cys28. [35S]methionine pulse-chase labeling demonstrated the maximal appearance of p25 at 20-40 min chase times. p25 molecules were reduced to about 10.5 kD by treatment with endoglycosidases F and H. p25 was, therefore, generated from a high mannose form of Ii in the ER or cis-Golgi. This finding could either implicate that site for class II MHC desetope charging with foreign peptides or reflect a mechanism for degradation of "excess" Ii molecules in the ER. Digestion of class II MHC antigen-Ii complexes with various proteases yielded fragments, migrating at and near p25 in 2-D electrophoretic gels, which were relatively resistant to further digestion. This observation was consistent with the presence of relatively protease-resistant secondary structures (domains) and a relatively protease-sensitive (IgG hinge-like) region in Iinear its insertion into the membrane. In a study of the post-translational modifications of the class II MHC alpha and beta chains, well conserved pairs of basic amino acids in the sequences of these molecules were observed. It was hypothesized these could be sites for proteolytic cleavage, as precedented in other systems (i.e.proinsulin processing). These potential cleavage sites fall in significant locations with respect to the deduced structure of the class II MHC desetope, supporting the hypothesis that these cleavages might either aid or destroy antigen presenting functions. To test this hypothesis we looked for remnant polypeptides of the alpha and beta chains. Polypeptides were observed in gels of immunoprecipitated class II MHC complexes. To identify if such polypeptides were derived from the alpha and beta chains, immunoblotting to electrotransferred polypeptides was attempted, with antisera made to synthesized peptides that mimicked eight regions of the alpha and beta chains. These antisera were produced and characterized by dot blotting, ELISA, western blotting, and immunoprecipitation of native and denatured material. One antiserum, to an alpha chain peptide (77-88), blotted to a polypeptide immunoprecipitated by anti-class II MHC antiserum. This observation supported the hypothesis that the alpha and beta chains undergo proteolytic cleavages, possibly in the control of antigen presentation. It was also demonstrated that Ii and the alpha and beta chains can be phosphorylated under varying culture conditions, but this project was not pursued. Peptide Hydrolases Antigen-Presenting Cells Pharmacology Amino Acids, Peptides, and Proteins Biological Factors Cells Enzymes and Coenzymes
23	The Role of Natural Killer Cells and Interferon in Virus Infections: A Thesis Bukowski, Jack F. 01 August 1984 (has links) Definitive evidence that natural killer (NK) cells mediate an antiviral effect in vivo was obtained using murine cytomegalovirus (MCMV) as a model system. Adoptive transfer studies using a variety of physical and immunochemical techniques to enrich and deplete NK cell activity showed that the cell population capable of mediating resistance (as assayed by enhanced survival and reduction in spleen virus titers) had the phenotype of an NK cell: a nylon wool nonadherent, asialo GM1+, NK 1.2+, ly 5+, Thy-1-, Ia-, low-density lymphocyte. Adoptive transfer of IL-2-dependent cloned NK cells (but not T cells) also provided resistance. NK cells did not provide resistance to lymphocytic choriomeningitis virus (LCMV). Selective depletion of NK cell activity by injection of mice with antibody to anti-asialo GM1 lowered resistance to MCMV, mouse hepatitis virus, and vaccinia virus but not to LCMV. NK cell depletion resulted in up to 1000-fold increases in spleen and liver virus titers, correlating with more severe pathology in these organs. NK cells were found to have antiviral effects early (0-3 days) but not late (6-9 days) postinfection. NK cell depletion resulted in markedly increased MCMV-induced suppression of T cell function, which is probably responsible for the delayed clearance of virus seen in these mice. NK cell depletion resulted in increased virus synthesis during persistent MCMV infection, but had no effect on the course of persistent LCMV infection, despite elevated NK cell and interferon (IFN) levels found in these LCMV-infected mice. The reason why NK cells play a role against MCMV but not LCMV infection was not due to differences in NK cells induced by these 2 viruses, but more likely due to target cell susceptibility. IFN pretreatment of MCMV-infected cells failed to protect them against NK cell-mediated lysis, whereas uninfected and LCMV-infected cells were almost totally protected. These IFN-pretreated, LCMV-infected cells were not resistant to cell-mediated lysis in general, as this treatment increased their sensitivity to virus-specific T cell-mediated lysis by 2- to 3-fold. This enhanced sensitivity to lysis correlated with increased surface expression of H-2 antigens, but not viral antigens. In summary, these studies provide compelling evidence that NK cells can mediate antiviral effects in vivo, and provide some insights into their mode of action and consequences of their disfunction. Viruses Killer Cells Natural Interferons Amino Acids, Peptides, and Proteins Biological Factors Cells Immunology and Infectious Disease Virus Diseases
24	Chemokine Induction by Dengue Virus Infection: Mechanisms and the Role of Viral Proteins: a Dissertation Medin, Carey L. 26 July 2005 (has links) The focus of this thesis is the role of dengue virus in the induction of chemokines. Dengue virus (DENV) occurs as four distinct serotypes, called DENV 1,2,3,and 4. Symptomatic DENV infection ranges from a self limited febrile illness, dengue fever (DF), to a more severe disease, dengue hemorrhagic fever/dengue shock syndrome (DHF/DSS). DHF is characterized by increased capillary permeability resulting in decreased plasma volume, which may be accompanied by hemorrhagic manifestations. Many factors including T cell cross reactivity, viral burden, antibody dependent enhancement and induction of chemokines and cytokines have been reported in DHF and may play a role in the pathogenesis of DENV infection. Cytokines have been shown to modulate endothelial cell permeability [1-3]. Recent studies have shown that DENV-infected endothelial cells secrete the chemokine, interleukin (IL)-8 in vitro [4]. In addition, the permeability of an endothelial cell monolayer was found to be increased by interleukin-8 (IL-8) in vitro[5]. This thesis examines the effects of DEN2V infection on the induction of chemokines, and specifically, which DEN2V viral protein(s) are involved in the induction of IL-8. The chemokine induction profile following DEN2V infection was initially assessed in various cell lines that may represent potential targets in vivo, including monocytes, liver cells and endothelial cells. We hypothesized that distinct profiles of chemokine secretion can be induced by DEN2V infection of various cell types in vitro. We found RANTES (Regulated upon Activation, Normal T cell Expressed and Secreted) and IL-8 were induced in two of the five cell lines. DEN2V infection of primary monocyte-derived dendritic cells induced RANTES and IL-8 along with macrophage inflammatory protein-1α (MIP-1α), MIP-1β and monocyte chemoattractant protein-1 (MCP-1) but at an earlier time post infection than in the cell lines. These results showed that DEN2V infection induces distinct chemokine profiles in many cell types. In addition, monocytic-derived DCs can secrete chemokines upon infection with DEN2V. Characterization of the signaling pathways induced by DEN2V revealed that DEN2V induction of chemokines in human embryonic kidney (HEK293A) cells is mainly through the nuclear factor kappaB (NFκB) pathway, as previously reported for endothelial cells and 293T cells [4,6]. Alternatively, the liver cell line (HepG2) activated mainly activator protein (AP)-l. In addition, DENV infection can induce the activation of the interferon-stimulated response element (ISRE) driven promoter. IL-8 has been shown to have multiple effects on the immune system ranging from recruiting cells to the site of infection to countering the antiviral effects of type I interferon (IFN) [7,8]. Previous reports have shown that viral proteins can induce chemokines such as seen with IL-8 induction with the nonstructural protein 5A (NS5A) and core proteins from hepatitis C virus [9,10]. We hypothesized that protein(s) from DENV could induce chemokine production. The expression of DENV proteins was analyzed for effects on IL-8 and RANTES production in HEK293A cells. The effects of viral replication on IL-8 and RANTES induction were also analyzed using a DENV replicon that contains genes for the capsid protein and the nonstructural proteins. Transfection of plasmids expressing NS5 or the DEN2V replicon induced the expression and secretion of IL-8 but not RANTES. We attributed the lack of RANTES induction to the inability of NS5 or the DEN2V replicon to induce transcription from the ISRE driven promoter. We also found that NS5 and the DEN2V replicon induced IL-8 mainly through the CCAAT/enhancer binding protein (c/EBP) and AP-1 pathways. The profile of transcription factor activation is different from what was seen with DENV infection of HEK293A cells and suggests that the transient expression of the NS5 protein and the replication and/or translation of the DEN2V genome use different pathways than viral infection to induce IL-8. In addition, we found that the expression of prM-E, known to produce virus-like particles, could induce IL-8 secretion and activate transcription from the IL-8 promoter. As with the expression of NS5, RANTES was not induced. Analysis of the transcription factors involved in IL-8 induction using luciferase reporter constructs indicated that expression of prM-E induced transcription of IL-8 through NFκB, AP-1 and c/EBP, similar to what was seen with DEN2V infection of HEK293A cells. These results suggest that production of virions or virus-like particles induce IL-8 but that another mechanism in the viral life cycle is responsible for the induction of RANTES expression by DEN2V infection. We were also interested in the effects of drugs that have been used previously to inhibit cytokine or chemokine production on chemokine induction during DEN2V infection. We hypothesized that pharmacological inhibitors of cytokines will inhibit secretion of chemokines in DEN2V infected cells. We found that the pharmacological inhibitors SB203580 and rolipram enhanced chemokine production in a DEN2V infected liver cell line (HepG2), whereas dexamethasone had the same effect in a kidney epithelial cell line (HEK293A). We conclude that drugs that inhibit signaling pathways involved in cytokine production in other experimental systems can have variable effects on chemokine induction in different cell types during DEN2V infection. The data generated in this thesis extend our understanding of how DEN2V manipulates the host cell during viral infection to produce chemokines and perhaps enhance viral propagation and dissemination through the induction of IL-8. In addition, this study provides insight into the variable effects pharmacological drug treatment may have on disease progression during DENV infection. These results increase our understanding of DENV pathogenesis and may be helpful in finding better strategies for treatment and prevention. Chemokines Dengue Interleukin-8 RANTES Amino Acids, Peptides, and Proteins Biological Factors Life Sciences Medicine and Health Sciences Viruses
25	Biologické a sociální faktory hráčů ledního hokeje na různé výkonnostní úrovni / Biological and social factors ice hockey players at different performance levels Gebhart, Martin January 2017 (has links) TITLE: Biological and social factors of ice hockey players at different performance levels AUTHOR: Bc. Martin Gebhart DEPARTMENT: Department of Physical Education SUPERVISOR: PaedDr. Ladislav Pokorný ABSTRACT: The thesis explores a biological and social factors of ice hockey players at various performance levels in the category of men. Defines the differences in values that arise from these factors when changing the performance level and building a team. The work also characterizes the construction of the team in terms of basic biological and social indicators, defines the profile of the player that is characteristic for performance level. The thesis explores basic biological parameters of the player, assumptions for sport performance, especially from the point of view of somatotype. It also learns about the social problems of sport, the characteristics of the sports team and it is engaged in organizing ice hockey competitions, especially by canceling some junior category competitions and by reorganizing competitions of the regional men's league. KEYWORDS: Biological Factors, Social Factors, Somatotype, team composition, ice hockey
26	The Role of a Monoclonal Gammopathy of Undetermined Significance Diagnosis in Healthcare Utilization Castaneda-Avila, Maira A. 13 May 2021 (has links) Background Monoclonal Gammopathy of Undetermined Significance (MGUS) is an understudied precursor of multiple myeloma (MM), the second most prevalent hematologic malignancy in the United States. This dissertation was designed to: (1) Describe the trajectories of serum biomarkers over time in patients with an MGUS diagnosis, (2) Determine if an MGUS diagnosis is associated with changes in healthcare service utilization, and (3) explore the patient- and provider-level drivers of healthcare utilization in patients with MGUS. Methods Data sources include health claims and electronic health records from a community-based population of patients seeking care in central Massachusetts and primary qualitative data collected from providers and patients’ interviews. The analyses included descriptive statistics, group-based trajectory modeling, conditional Poisson regression, and qualitative data analyses. Results (1) Three distinct multi-trajectory groups of creatinine and hemoglobin were identified. (2) The rates of emergency room, hospital, and outpatient visits were higher for patients with MGUS than patients without MGUS. (3) Patients have a basic understanding of MGUS; however, some patients feel anxiety, which may affect other aspects of their lives. Patients primarily see hematologists for follow-up care; other providers have less knowledge about MGUS. Conclusions Biomarker trajectories characterize specific subpopulations of patients with MGUS over time. We found that an MGUS diagnosis is associated with higher healthcare utilization, especially during the months surrounding the diagnosis date. Finally, our study suggests that some patients with MGUS may need psychosocial support services and identifies a gap in knowledge around caring for MGUS patients among primary care providers. MGUS precursor Multiple Myeloma Biological Factors Health Services Administration Health Services Research Hemic and Lymphatic Diseases Immune System Diseases
27	Role of Internal Calcium Stores in Exocytosis and Neurotransmission: A Dissertation Lefkowitz, Jason J. 11 May 2010 (has links) A central concept in the physiology of neurosecretion is that a rise in cytosolic [Ca2+] in the vicinity of plasmalemmal Ca2+ channels due to Ca2+ influx, elicits exocytosis. This dissertation examines the effect on both spontaneous and elicited exocytosis of a rise in focal cytosolic [Ca2+] in the vicinity of ryanodine receptors (RYRs) due to release from internal stores in the form of Ca2+ syntillas. Ca2+ syntillas are focal cytosolic transients mediated by RYRs, which we first found in hypothalamic magnocellular neuronal terminals. (Scintilla, Latin for spark, found in nerve terminals, normally synaptic structures.) We have also observed Ca2+ syntillas in mouse adrenal chromaffin cells (ACCs). Here the effect of Ca2+syntillas on exocytosis is examined in ACCs, which are widely used as model cells for the study of neurosecretion. Elicited exocytosis employs two sources of Ca2+, one due to influx from the cell exterior through voltage-gated Ca2+ channels (VGCCs) and another due to release from intracellular stores. To eliminate complications arising from Ca2+ influx, the first part of this dissertation examines spontaneous exocytosis where influx is not activated. We report that decreasing syntillas leads to an increase in spontaneous exocytosis measured amperometrically. Two independent lines of experimentation each lead to this conclusion. In one case release from stores was blocked by ryanodine; in another, stores were partially emptied using thapsigargin plus caffeine after which syntillas were decreased. We conclude that Ca2+syntillas act to inhibit spontaneous exocytosis, and we propose a simple model to account quantitatively for this action of syntillas. The second part of this dissertation examines the role of syntillas in elicited exocytosis whereby Ca2+ influx is activated by physiologically relevant levels of stimulation. Catecholamine and neuropeptide release from ACCs into the circulation is controlled by the sympathetic division of the Autonomic Nervous System. To ensure proper homeostasis tightly controlled exocytic mechanisms must exist both in resting conditions, where minimal output is desirable and under stress, where maximal, but not total release is necessary. It is thought that sympathetic discharge accomplishes this task by regulating the frequency of Ca2+ influx through VGCCs, which serves as a direct trigger for exocytosis. But our studies on spontaneous release in ACCs revealed the presence of Ca2+ syntillas, which had the opposite effect of inhibiting release. Therefore, assuming Ca2+-induced Ca2+ release (CICR) via RYRs due to Ca2+ influx through VGCCs, we are confronted with a contradiction. Sympathetic discharge should increase syntilla frequency and that in turn should decreaseexocytosis, a paradox. A simple “explanation” might be that the increase in syntillas would act as a brake to prevent an overly great exocytic release. But upon investigation of this question a different finding emerged. We examined the role of syntillas under varying levels of physiologic stimulation in ACCs using simulated action potentials (sAPs) designed to mimic native input at frequencies associated with stress, 15 Hz, and the basal sympathetic tone, 0.5 Hz. Surprisingly, we found that sAPs delivered at 15 Hz or 0.5 Hz were able to completely abolish Ca2+ syntillas within a time frame of two minutes. This was not expected. Further, a single sAP is all that was necessary to initiate suppression of syntillas. Syntillas remained inhibited after 0.5 Hz stimulation but were only temporarily suppressed (for 2 minutes) by 15 Hz stimulation, where global [Ca2+]i was raised to 1 – 2 μM. Thus we propose that CICR, if present in these cells, is overridden by other processes. Hence it appears that inhibition of syntillas by action potentials in ACCs is due to a new process which is the opposite of CICR. This process needs to be investigated, and that will be one of the very next steps in the future. Finally we conclude that syntilla suppression by action potentials is part of the mechanism for elicited exocytosis, resolving the paradox. In the last chapter speculation is discussed into the mechanisms by which physiologic input in the form of an action potential can inhibit Ca2+ syntillas and furthermore, how the Ca2+ syntilla can inhibit exocytic output. Calcium Channels Exocytosis Chromaffin Cells Neurosecretion Synaptic Transmission Biological Factors Cells Inorganic Chemicals Neuroscience and Neurobiology
28	Characterization of Innate Immune Pathways in DNA Vaccine-Induced, Antigen-Specific Immune Responses: A Dissertation Suschak, John J., III 08 December 2014 (has links) A major advantage of DNA vaccination is the ability to induce both humoral and cellular immune responses. DNA vaccines are currently used in veterinary medicine, but their tendency to display low immunogenicity in humans has hindered their usage, despite excellent tolerability and safety profiles. Various approaches have been used to improve the immunogenicity of DNA vaccines. Recent human study data re-established the value of DNA vaccines, especially in priming high-level antigen-specific antibody responses. Data suggests that innate immune responses to the DNA vaccine plasmid itself contribute to the immunogenicity of DNA vaccines, however the underlying mechanisms responsible remain unclear. In this dissertation, we investigate the role of innate immunity in shaping antigen-specific adaptive immune responses following DNA vaccination. The current belief is that the cytosolic DNA sensing pathways govern DNA vaccine immunogenicity. To date, only the type I interferon inducing STING/TBK1 regulatory pathway has been identified as required for DNA vaccine immunogenicity. Surprisingly, neither the upstream receptor nor the downstream signaling molecules in this pathway have been characterized. I therefore investigated a candidate cytosolic DNA receptor, as well as the downstream transcription factors required for generation of antigen-specific immune responses. Additionally, the effects of pro-inflammatory signaling on DNA vaccine immunogenicity have yet to be comprehensively studied. Previous studies have only provided indirect evidence for the role of inflammatory v signaling in DNA vaccination. As such, I also investigated the role of the DNA sensing AIM2 inflammasome in DNA vaccination. My data indicates that AIM2 is a key modulator in DNA vaccination via a previously unrecognized connection to type I interferon. Importantly, this marks the first time a DNA vaccine sensor has been identified. Of note, this dissertation represents a departure from many published works in the field. Whereas previous studies have mostly utilized model antigens and only focused on the adaptive immune responses generated, I analyzed the effects on innate immunity as well. Using various innate gene knockout murine models, I quantified antigen-specific humoral and T cell responses, as well as serum cytokine and chemokines following immunization with a clinically relevant DNA vaccine. Overall, this data provides a basis for understanding the mechanisms of DNA vaccination, allowing for the design of more effective vaccines. Vaccination DNA Vaccines Innate Immunity Antigens Dissertations, UMMS Vaccines, DNA Immunity, Innate Biological Factors Immunity Immunoprophylaxis and Therapy
29	Roles of Secreted Virulence Factors in Pathogenicity of Haemophilus Influenzae: A Dissertation Rosadini, Charles V. 12 May 2011 (has links) Haemophilus influenzae is a pathogenic Gram-negative bacterium that colonizes the upper respiratory tract of humans and can cause otitis media, upper and lower respiratory infections, and meningitis. Factors important for H. influenzae to colonize humans and cause disease are not fully understood. Different bacterial pathogens are armed with virulence mechanisms unique to their specific strategies for interacting with their hosts. Many of the proteins mediating these interactions are secreted and contain disulfide bonds required for function or stability. I postulated that identifying the set of secreted proteins in H. influenzae that require periplasmic disulfide bonds would provide better understanding of this bacterium's pathogenic mechanisms. In this thesis, the periplasmic disulfide bond oxidoreductase protein, DsbA, was found to be essential for colonization and virulence of H. influenzae. Mutants of dsbA were also found to be sensitive to the bactericidal effects of serum. However, the DsbA-dependent proteins important for pathogenesis of this organism have not been previously identified. To find them, putative targets of the periplasmic disulfide bond pathway were identified and examined for factors which might be important for mediating critical virulence aspects. By doing so, novel virulence factors were discovered including those important for heme and zinc acquisition, as well as resistance to complement. Overall, the work presented here provides insight into requirements for H. influenzae to survive within various host environments. Haemophilus influenzae Periplasmic Binding Proteins Protein Disulfide-Isomerases Virulence Factors Amino Acids, Peptides, and Proteins Bacteria Biological Factors Microbiology Respiratory System
30	Les composantes socio perceptives et socio cognitives de la cognition sociale chez les enfants sourds Duret, Marie-laetitia 11 December 2012 (has links) Dans ce travail, nous nous proposons d'étudier la cognition sociale chez les sourds en distinguant les aspects perceptifs et cognitifs selon le modèle proposé par Tager-Flusberg et Sullivan (2000). La surdité nous permet d'aborder l'influence des facteurs environnementaux sur le développement des composantes socio-perceptive et socio-cognitive ; nous ciblons nos recherches sur les enfants sourds nés de parents entendants, éduqués dans des écoles ordinaires et portants des prothèses auditives. La première question à laquelle nous tenterons de répondre est la suivante : le manque de communication avec l'entourage familial pendant les premiers mois de vie, en lien avec le contexte particulier de la surdité dans un milieu entendant, a-t-il une influence sur le développement de la composante socio-perceptive ? Nous étudions cette question avec deux expériences impliquant la perception des visages et des émotions ; ces tests nous permettent de mettre en évidence les performances et les stratégies de traitement utilisées. Nous recherchons d'une part, l'utilisation du processus configural et l'effet de focalisation de l'attention sur la région des yeux au cours d'une tâche de jugement de similarité entre visages et d'autre part, l'effet de traitement automatique de la colère avec une tâche de recherche visuelle. La deuxième question soulevée est relative au développement de la composante socio-cognitive, et notamment aux capacités liées à la théorie de l'esprit. Les possibilités croissantes d'intégration du discours, notamment grâce aux prothèses auditives, permettraient-elles le développement des capacités nécessaires à la compréhension des états mentaux d'autrui ? / In this thesis, we aimed to study the socio-perceptive and the socio-cognitive components of social cognition (Tager-Flusberg et Sullivan, 2000) in deaf children. Deafness give us the possibility to assess environmental factors' influence on the development of these components. To do so, we focus our studies on deaf children born from hearing parents, equipped with auditory protheses, and educated in ordinary schools. First, one of the main issue of the current studies is to assess whether the lack of communication with family during the first months of life, in line with the particular context of deafness in a hearing environment, have a significant impact on the socio-perceptive component. Experiments 1 and 2 were designed to assess this issue. Participants had to respond with two experiences related to faces and emotion perceptions ; those tests allow us to show the performances and the strategies of the treatment used. On a side, we are looking for the inversion effect and the eyes area focus effect during a test of faces' similarities judgment, and another side the angry automatic effect with a visual search test. The second question studied is related to the development of the socio-cognitive component, and especially on capacities of theory of mind. Could the improvement of internalization of speech, using auditory protheses, permit the development of the capacities needed to understand the state of mind of another? Or in contrary, are the possibilities to exchange precociously about his own state of mind needed to develop socio-cognitive component? Surdité Perception des visages Perception des émotions Théorie de l’esprit Cognition sociale Facteurs biologiques Facteurs environnementaux Deafness Face perception Emotional perception Theory of mind Social cognition Biological factors Environmental factors

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