Global ETD Search

11	Effect of Interferon α on HLA-DR Expression by Human Buccal Epithelial Cells Smith, J. Kelly, Chi, David S., Krishnaswamy, Guha, Srikanth, Sujata, Reynolds, Scott, Berk, Steven L. 27 August 1996 (has links) We have studied the effect of interferon α (IFN-α) on MHC class II expression by human buccal epithelial cells (BEC), and mRNA expression by BEC and mucosal-associated mononuclear cells (MAMC). In 6 experiments, freshly collected BEC were suspended at a concentration of 1.0 x 105/ml in RPMI 1640 and incubated in the presence of 0-10000 IU/ml of human lymphoblastoid IFN-α (HuIFN-α). Zero and six hour samples were analyzed by single color flow cytometry using FITC-labeled murine IgG1 monoclonal antibody to HLA-DR. Preparations were also analyzed for expression of cytokine transcripts (IL-2 IL-4, IL-5, IL-6, IL-8, IFN-γ, GM-CSF) by reverse transcriptase polymerase chain reaction (RT-PCR). Increasing concentrations of IFN-α resulted in proportionate increases in the percentage of HLA-DR + BEC (r = 0.7897, p = 0.0627) and in the percentage of HLA-DR + staining at higher intensities (101 to 102 log fluorescence intensity) (LFI) (r = 0.40l0, p = 0.0424). The percentage of HLA-DR + BEC rose from a mean of 1.5% with no IFN-α to 7% with 10000 IU/ml IFN-α (p < 0.05). The percentage of HLA-DR + BEC staining at 101 to 102 LFI rose from a mean of 8.3% with no added IFN-α to 19.2% with 10000 IU/ml IFN-α (p <0.05). Unstimulated BEC constitutively expressed IL-8 and GM-CSF. IFN-α stimulated preparations also expressed IFN-γ, possibly due to the presence of MAMC, which comprised 2-9% of the total cell population. These data indicated that HuIFN-α upregulates MHC class II expression by human BEC, possibly by enhancing IFN-γ production by MAMC present in the culture preparations. cytokine mRNA transcripts human buccal epithelial cells human lymphoblastoid interferon MHC class II antigens mucosal-associated mononuclear cells
12	THE ROLE OF HSPs IN MHC CLASS II PRESENTATION OF SELECT ANTIGENS Houlihan, Josetta Lynn 26 January 2010 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The function of major histocompatability complex (MHC) class II molecules is to present antigenic peptides to CD4+ T cells. Typically, MHC class II molecules present peptides derived from exogenous sources. Yet, certain endogenous antigens (Ags) have been found to be presented by class II molecules. Studies suggest that specific heat shock protein family members may play a role in Ag processing and subsequent class II presentation. The studies presented here using B lymphoblasts demonstrate the importance of HSP90α, HSP90β, and possibly HSP70 in selectively regulating MHC class II presentation. Inactivation of HSP90 function using pharmacological inhibitors inhibited class II presentation of exogenous and endogenous GAD, but did not perturb the presentation of several other intra- and extracellular Ags. Individual knockdown of HSP90 isoforms using isoform specific siRNA selectively inhibited GAD Ag presentation. These results demonstrate a requirement for HSP90α and HSP90β in regulating MHC class II presentation of select Ags. Studies to explore mechanistically the roles of HSP90α and HSP90β in regulating GAD Ag presentation were pursued. The pathways of exogenous and endogenous MHC class II presentation of GAD Ag are distinct yet converge with shared terminal processing of GAD within endosomal/lysosomal vesicles. The effect of HSP90 manipulation on various shared components of the MHC class II pathway was examined. The studies presented here suggest that HSP90α and HSP90β regulate MHC class II presentation of GAD Ag at discrete steps most likely involving HSP90 binding to GAD Ag rather than perturbing overall MHC class II function. vi Studying the role of HSP90 in MHC class II presentation in B cells revealed the potential requirement for HSP70 in the presentation of select Ags. The studies presented here demonstrate a possible role for HSP70 in the presentation of Ags such as SMA or Ig kappa by MHC class II molecules. Also included in this work is a study of a rare case of diabetes caused by type B insulin resistance due to development of insulin receptor autoantibodies during the treatment of hepatitis C with interferon alpha and ribavirin. Clinical and laboratory findings in the case are presented. MHC class II presentation Heat Shock Proteins B cells Antigen Presentation Major histocompatibility complex Antigens Heat shock proteins B cells
13	The Expression of Major Histocompatibility Class I and Major Histocompatibility Class II on Macrophages in the Presence of Aryl Hydrocarbon Antagonist (CH-223191) Wilson, Caitlin Persin 30 August 2016 (has links) No description available. Biology Immunology MHC MHC class I MHC class II macrophages J774A1 Raw2647 AhR apoptosis CH223191 immunity innate immunity
14	Immunosuppressive protocol with delayed use of low-dose tacrolimus after aortic transplantation suppresses donor-specific anti-MHC class I and class II antibody production in rats Matia, Ivan, Fellmer, Peter, Splith, Katrin, Varga, Martin, Adamec, Milos, Kämmerer, Ines, Feldbrügge, Linda, Krenzien, Felix, Hau, Hans-Michael, Atanasov, Georgi, Schmelzle, Moritz, Jonas, Sven 12 May 2014 (has links) (PDF) Background: Arterial allografts are used as vascular conduits in the treatment of prosthetic graft infection. Immunosuppression decreases their rupture risk rate. However, immunosuppression can be unprofitable in florid infection. Previously, we confirmed inhibition of cell-mediated destruction of rat aortic grafts by delayed use of tacrolimus. In this work, we studied the influence of this protocol on the antibody-mediated rejection. Antikörpervermittelte Abstoßung arterielle Allotransplantate Tacrolimus Antibody-mediated rejection arterial allografts tacrolimus Anti-MHC class I antibody Anti-MHC class II antibody arterial rejection ddc:610
15	Primary Melanoma tumor immune contexture analysis: T regulatory cell to T effector cell ratio as related to MHC class II and GILT expression Cole, Lauren 28 April 2017 (has links) A Thesis submitted to The University of Arizona College of Medicine - Phoenix in partial fulfillment of the requirements for the Degree of Doctor of Medicine. / Histopathologic examination of the tumor microenvironment demonstrates the presence of a vast repertoire of infiltrating lymphocytes and antigen presenting cells (APC’s). Recent studies establish a strong correlation between the tumor microenvironment cell composition and prognostic value in terms of cell type, location and ratio, referred to as a tumor’s immunoscore. More specifically, the relationship between T regulatory (Treg) cell to T effector (Teff) cell percentage predominates as a mechanism of tumor immune evasion. Further investigation of the factors influencing the development of Treg and Teff cells is therefore warranted. Gammainterferon‐inducible lysosomal thiol reductase (GILT) acts to influence antigenic processing and presentation by MHC class II cells, ultimately impacting lymphocyte development. Evaluation of the role of GILT expression in MHC class II+ APC’s with respect to Treg and Teff cell development in primary melanoma lesions, to our knowledge, has not been reported. Therefore our investigation focuses on elucidating a plausible relationship between GILT presence and Treg to Teff cell ratio. The aim of our study is to examine a possible association between GILT expression in APC’s and Treg:Teff cell ratio. We hypothesized GILT expression in melanoma cells would result in a decreased Treg to Teff ratio or an enhanced T cell‐mediated response. Our study included 17 de‐identified primary melanoma specimens previously stained and scored for Treg, Teff, CD8, MHC class II and GILT. Scoring was performed through identification of four areas per specimen with highest Treg and Teff cell density. These four areas were then averaged with ± standard deviation (SD). With use of landmark association, these four areas were identified and scored for MHC class II and GILT in APC’s and tumor cells with consideration to presence/absence, intensity and frequency of staining. Statistical significance was not reached relative to our hypothesized relationship of a decreased Treg to Teff cell ratio in the presence of GILT+ MHC class II. Similarly, we did not reach statistical significance when comparing individual cell types to GILT, MHC class II and GILT + MHC class. In our study, we were unable reach statistical significance relative to our proposed correlation between MHC class II and GILT presence leading to a decreased Treg to Teff cell ratio or enhanced T‐cell mediated immune response. A major limitation of our study included the small sample size leading to a probable type II error, prompting the need for further investigation of the factors influencing the Treg to Teff cell ratio within the melanoma tumor microenvironment on a larger scale. Antigen-Presenting Cells Tumor Microenvironment T-effector Cells T-Regulatory Cells Immune Cell Contexture MHC Class II cells Melanoma
16	Avaliação de potencial agente vacinal contra o S.pyogenes em camundongos transgênicos, portadores de genes HLA de classe II humanos / Evaluation of potential vaccinal agent against s. pyogenes in human HLA class II transgenics mice Silva, Milton Thiago Guerino da 29 August 2011 (has links) A faringite estreptocócica desencadeada pelo Streptococcus pyogenes pode resultar em uma série de doenças humanas e complicações como a febre reumática (FR) em indivíduos predispostos não tratados. A FR é uma doença autoimune que afeta mais de 20 milhões de crianças em países em desenvolvimento. A proteína M presente na membrana do S. pyogenes representa o maior fator de virulência da bactéria, e é objetivo de estudos para o desenvolvimento de uma vacina contra essa patologia. Atualmente mais de 200 tipos de proteínas M foram descritos na literatura e a sua porção Cterminal é conservada entre os diferentes tipos. Desenvolvemos um protótipo de vacina que compreende 55 resíduos de aminoácido da porção C-terminal, denominado StreptInCor. Neste trabalho analisamos a resposta humoral e celular específica contra o peptídeo sintético StreptInCor, usando camundongos transgênicos portadores de HLA de classe II humanos DR2, DR4, DQ6 e DQ8. O protocolo de imunização consistiu em administrar 50 g do StreptInCor adsorvido em 300 g de hidróxido de alumínio nos dias 0 e 14. Os grupos controles foram injetados com salina nas mesmas condições. O soro obtido no 28º dia foi testado por ensaio imunoenzimático (ELISA) para verificarmos a presença de anticorpos contra o StreptInCor e os esplenócitos destes animais, obtidos nessa data, foram utilizados para ensaios de proliferação celular na presença do StreptInCor. Testes de segurança foram efetuados e não observamos reação cruzada contra a miosina cardíaca e após 12 meses de acompanhamento, amostras de tecidos desses animais foram submetidas à análise histológica. Em conclusão não verificamos indícios de reações autoimunes nos animais imunizados com o StreptInCor e os resultados obtidos mostram a capacidade do StreptInCor em desencadear uma resposta imune, duradoura e segura em camundongos portadores de moléculas HLA de classe II / Streptococcal pharyngitis triggered by Streptococcus pyogenes throat infection can result in rheumatic fever (RF) and rheumatic heart disease (RHD) in untreated susceptible individuals. RF is an autoimmune disease that affects more than 20 million children in developing countries. M protein is the major factor of virulence of the bacteria, and it has been studied to develop a vaccine. Currently more than 200 M protein types have been described and its Cterminal domain is conserved in many different serotypes. We developed a vaccine epitope (StreptInCor) composed by 55 amino acid residues of the Cterminal portion of the M protein. In the present work we analyze the ability of the StreptInCor of induce immune response in HLA class II transgenic mice. The transgenic mice harboring the HLA Class II DR2, DR4, DQ6 and DQ8 were immunized subcutaneously with 50 g StreptInCor adsorbed onto 300 g of aluminum hydroxide gel on days 0 and 14. Control groups were immunized with vehicle (Saline) in same conditions. The sera were obtained on day 28 and tested by ELISA to verify the presence of antibodies. The specific cellular immune response was evaluated by proliferation assay using splenocytes. No cross reaction with cardiac myosin were observed. Tissue samples from immunized mice followed by 12 months were analyzed in order to verify if StreptInCor induces some histological damage. No autoimmune or deleterious reactions were observed. In conclusion our results indicate that StreptInCor Induces a good and prolonged and safe immune response in HLA class II transgenic mice Camundongos transgênicos Cellular immunity Genes MHC class II Humoral immunity Imunidade celular Imunidade humoral Streptococcal vaccine Transgenic mice Vacinas estreptocócicas
17	Transcriptional regulation of CD40 and class II MHC molecules in macrophages and microglia by statins Lee, Sun Jung, January 2008 (has links) (PDF) Thesis (Ph. D.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed June 6, 2008). Includes bibliographical references.
18	Avaliação de potencial agente vacinal contra o S.pyogenes em camundongos transgênicos, portadores de genes HLA de classe II humanos / Evaluation of potential vaccinal agent against s. pyogenes in human HLA class II transgenics mice Milton Thiago Guerino da Silva 29 August 2011 (has links) A faringite estreptocócica desencadeada pelo Streptococcus pyogenes pode resultar em uma série de doenças humanas e complicações como a febre reumática (FR) em indivíduos predispostos não tratados. A FR é uma doença autoimune que afeta mais de 20 milhões de crianças em países em desenvolvimento. A proteína M presente na membrana do S. pyogenes representa o maior fator de virulência da bactéria, e é objetivo de estudos para o desenvolvimento de uma vacina contra essa patologia. Atualmente mais de 200 tipos de proteínas M foram descritos na literatura e a sua porção Cterminal é conservada entre os diferentes tipos. Desenvolvemos um protótipo de vacina que compreende 55 resíduos de aminoácido da porção C-terminal, denominado StreptInCor. Neste trabalho analisamos a resposta humoral e celular específica contra o peptídeo sintético StreptInCor, usando camundongos transgênicos portadores de HLA de classe II humanos DR2, DR4, DQ6 e DQ8. O protocolo de imunização consistiu em administrar 50 g do StreptInCor adsorvido em 300 g de hidróxido de alumínio nos dias 0 e 14. Os grupos controles foram injetados com salina nas mesmas condições. O soro obtido no 28º dia foi testado por ensaio imunoenzimático (ELISA) para verificarmos a presença de anticorpos contra o StreptInCor e os esplenócitos destes animais, obtidos nessa data, foram utilizados para ensaios de proliferação celular na presença do StreptInCor. Testes de segurança foram efetuados e não observamos reação cruzada contra a miosina cardíaca e após 12 meses de acompanhamento, amostras de tecidos desses animais foram submetidas à análise histológica. Em conclusão não verificamos indícios de reações autoimunes nos animais imunizados com o StreptInCor e os resultados obtidos mostram a capacidade do StreptInCor em desencadear uma resposta imune, duradoura e segura em camundongos portadores de moléculas HLA de classe II / Streptococcal pharyngitis triggered by Streptococcus pyogenes throat infection can result in rheumatic fever (RF) and rheumatic heart disease (RHD) in untreated susceptible individuals. RF is an autoimmune disease that affects more than 20 million children in developing countries. M protein is the major factor of virulence of the bacteria, and it has been studied to develop a vaccine. Currently more than 200 M protein types have been described and its Cterminal domain is conserved in many different serotypes. We developed a vaccine epitope (StreptInCor) composed by 55 amino acid residues of the Cterminal portion of the M protein. In the present work we analyze the ability of the StreptInCor of induce immune response in HLA class II transgenic mice. The transgenic mice harboring the HLA Class II DR2, DR4, DQ6 and DQ8 were immunized subcutaneously with 50 g StreptInCor adsorbed onto 300 g of aluminum hydroxide gel on days 0 and 14. Control groups were immunized with vehicle (Saline) in same conditions. The sera were obtained on day 28 and tested by ELISA to verify the presence of antibodies. The specific cellular immune response was evaluated by proliferation assay using splenocytes. No cross reaction with cardiac myosin were observed. Tissue samples from immunized mice followed by 12 months were analyzed in order to verify if StreptInCor induces some histological damage. No autoimmune or deleterious reactions were observed. In conclusion our results indicate that StreptInCor Induces a good and prolonged and safe immune response in HLA class II transgenic mice Camundongos transgênicos Imunidade celular Imunidade humoral Vacinas estreptocócicas Cellular immunity Genes MHC class II Humoral immunity Streptococcal vaccine Transgenic mice
19	Rôle de l’ubiquitine ligase March1 dans le cancer et le diabète de type II Majdoubi, Abdelilah 04 1900 (has links) March1 joue un rôle essentiel dans la régulation de la réponse immunitaire. Cette ubiquitine ligase régule à la baisse l’expression de certaines protéines intervenant dans les fonctions des cellules présentatrices des antigènes, telles que le CMH de classe II et le CD86. March1 ubiquitine aussi quelques protéines impliquées dans le métabolisme cellulaire, comme le transporteur des acides aminées CD98 et le récepteur de l’insuline. L'ubiquitination du CMH de classe II et du CD98 par March1 affecte les fonctions de présentation des antigènes par les cellules dendritiques et la capacité de prolifération des TCD8+, respectivement. Cependant, le rôle de l’ubiquitination de CMH de classe II dans le développement et la migration des cellules dendritiques, n’est pas connu, et les implications physiologiques liées au rôle de March1 dans d’autres cellules, telles que les lymphocytes T CD8+, ne sont pas encore claires. Nos travaux démontrent que l'ubiquitination de CMH de classe II par March1 est spécifiquement requise pour la migration des cellules dendritiques dérivées de monocytes (moDCs) de la peau. L’effet de March1 sur la migration est intrinsèque à ces cellules et corrèle avec les niveaux d’expression des protéines impliquées dans la migration, notamment l’IRF4 et le CCR7. Dans un modèle de mélanome chez la souris, la déficience en ubiquitination du CMH de classe II est associée à une exacerbation de la croissance des tumeurs et un défaut de migration des moDCs vers les ganglions drainant les tumeurs. L’utilisation de cellules tumorales exprimant le GM-CSF augmente l’expression de l’IRF4 et du CCR7 dans les moDCs et la migration celles-ci vers les ganglions. D’autre part, nous avons démontré que la déficience en March1 exacerbe la résistance à l’insuline induite par l’obésité. Cet effet est associé à un enrichissement en lymphocytes T CD8+ ayant un phénotype effecteur/mémoire dans le tissu adipeux des souris obèses. Les expériences de transfert adoptif de lymphocytes T CD8+ montrent que March1 exacerbe la résistance à l’insuline en affectant intrinsèquement le phénotype de ces cellules. Nos résultats indiquent une augmentation de l’activité métabolique des lymphocytes T CD8+ est en absence de March1, ce qui est en accord avec le rôle de ce dernier dans l’ubiquitination de CD98 et du récepteur de l’insuline. Dans l’ensemble, nos travaux montrent que March1 régule la capacité migratoire des moDCs et le métabolisme des lymphocytes T CD8+. L’implication de cette régulation dans le développement du cancer de mélanome et du diabète de type de II suggère que March1 pourrait être ciblé dans le cadre de stratégies thérapeutiques contre ces pathologies. / March1 plays a critical role in the immune response regulation. This ubiquitin ligase downregulates the expression of antigen presentation and costimulatory proteins, such as MHC class II and CD86, as well as other proteins involved in the cellular metabolism, such as the amino acid transporter CD98 and the insulin receptor. The ubiquitination of these proteins by March1 alters the antigen presentation and proliferative capacities of dendritic cells and CD8+ T cells, respectively. However, the effect of MHC class II ubiquitination by March1 on the development and the migration of dendritic cells are not known, and the physiological implications of March1 in other cells, such as CD8+ T cells, are not completely understood. In this thesis, we show that MHC class II ubiquitination by March1 is specifically required for the migration of monocyte-derived dendritic cells (moDCs) from skin to skin draining lymph nodes (sdLN). This effect is cell intrinsic and correlates with the expression level of proteins involved in immune cell migration, IRF4 and CCR7. In a melanoma mouse model, the deficiency of MHC class II ubiquitination is associated with exacerbated tumor growth and impaired moDCs migration from tumor to tumors-draining LNs. Using GM-CSF producing tumors, we found that this cytokine increases the expression of IRF4 and CCR7 in moDCs and improves their migration. On the other hand, we show that March1 deficiency exacerbates obesity-induced insulin resistance. Adipose tissue from these mice was enriched in CD8+ T cells with an effector/memory phenotype. Adoptive transfer of splenic CD8+ T cells showed that March1 intrinsically affects the phenotype of these cells in obese adipose tissue and exacerbates insulin resistance. Consistent with the role of March1 in the ubiquitination of CD98 and insulin receptor, the metabolic activity of CD8+ T cells was increased in absence of March1. Overall, we showed that March1 regulates the migratory capacity of moDCs and the metabolic activity of CD8+ T cells. The involvement of these effects in the development of melanoma cancer and type II diabetes suggests that March1 can be a target for therapeutic strategies against these pathologies. March1 MHC class II Dendritic cells T CD8 cancer Diabetes CMH de classe II Cellules Dendritiques Lymphocytes T CD8+ Diabète
20	Conformational Lability in MHC II Proteins: A Dissertation Painter, Corrie A. 20 May 2011 (has links) MHC II proteins are heterodimeric glycoproteins that form complexes with antigenic peptides in order to elicit a CD4+ adaptive immune response. Even though there have been numerous MHC II-peptide crystal structures solved, there is little insight into the dynamic process of peptide loading. Through biochemical and biophysical studies, it has been shown that MHC II adopt multiple conformations throughout the peptide loading process. At least one of these conformations is stabilized by the MHC II-like homologue, HLA-DM. The main focus of this thesis is to elucidate alternate conformers of MHC II in an effort to better understand the structural features that enable HLA-DM catalyzed peptide loading. In this thesis, two altered conformations of HLA-DR were investigated, one modeled in the absence of peptide using molecular dynamics, and one stabilized by the mutation αF54C. The model for the peptide-free form of HLA-DR1 was derived from a molecular dynamics simulation. In this model, part of the alpha-subunit extended-strand region proximal to the peptide binding groove is folded into the peptide-binding groove such that the architecture of the critical peptide binding pocket, P1, as well as the invariant hydrogen bonding network were maintained. Biochemical studies aimed at validating the predicted structural changes were consistent with the model generated from the simulations. Next, structural studies were carried out on an MHC II mutant, αF54C, which was shown to have unique peptide binding characteristics as well as enhanced susceptibility to HLA-DM. Although this mutation did not affect the affinity for peptide, there was a striking increase in the rate of intrinsic peptide release. Both αF54C and αF54A were over 100-fold more susceptible to HLADM catalyzed peptide release than wild type as well as other mutants introduced along the peptide binding groove. In addition, mutation of the αF54 position results in a higher affinity for HLA-DM, which, unlike wild type, is detectable by surface plasmon resonance. Crystallographic studies resulted in a 2.3 Å resolution structure for the αF54C-Clip complex. There were two molecules in the asymmetric unit, one of which had no obvious deviations from other MHC II-pep complexes and one which had a conformational change as a result of a crystal contact on the αF51 residue, a residue which has been shown to be involved in the HLA-DM/HLA-DR binding interface. The crystal structure of wild type HLA-DR1- Clip was also solved, but did not have the altered conformation even though there was a similar crystal contact at the αF51. These data suggest the altered conformation seen in the mutant structure, results from increased lability in the extended stand region due to the αF54C mutation. As a result of this work, we have developed a new mechanistic model for how structural features of MHC II influence DM mediated peptide release. Genes MHC Class II Protein Conformation HLA-D Antigens Amino Acids, Peptides, and Proteins Biological Factors Genetic Phenomena

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