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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.
141

Avaliação de mutações no gene do inibidor de C1 esterase em pacientes com angioedema hereditário / Mutations evaluation in C1 inhibitor gene in patients with hereditary angioedema

Correia, Alexandre Pires 27 November 2009 (has links)
A ativação dos sistemas complemento e de contato resulta na formação de peptídeos vasoativos tais como a bradicinina e anafilatoxinas. O inibidor de C1-esterase (C1-INH) é o principal regulador desses dois sistemas e a deficiência desta proteína resulta no Angioedema Hereditário (AEH). Trata-se de uma doença rara, de herança autossômica dominante, caracterizada pela deficiência de C1-INH, a qual ocorre devido a mutações no seu gene estrutural, levando a episódios graves de edema em tecido subcutâneo, gastrointestinal e respiratório, potencialmente fatais. Existem dois fenótipos variantes: AEH do tipo I, com reduzidos níveis antigênicos de C1-INH no plasma e AEH tipo II com níveis reduzidos ou normais de C1-INH e atividade disfuncional. Várias mutações já foram descritas no gene de inibidor de C1 esterase (SERPING1), porém, não há estudos que avaliem a relevância desta doença e as mutações gênicas em nosso meio. O objetivo do presente estudo foi avaliar as alterações moleculares em pacientes com AEH, correlacionando-as com as manifestações clínico-laboratoriais. Amostras de plasma, soro e DNA de quinze pacientes de uma mesma família foram coletadas. O ensaio hemolítico CH50 para avaliação da integridade da via clássica do sistema complemento e avaliação quantitativa de C4 e C1-INH por nefelometria foram os ensaios realizados para confirmação do diagnóstico da doença. A atividade funcional da proteína foi avaliada através de ensaio colorimétrico e a relação existente entre possíveis mutações na proteína e o fenótipo da doença foi avaliada por meio de reação de polimerase em cadeia (PCR) e seqüenciamento do DNA genômico. A atividade hemolítica de complemento total e a dosagem de C3 foram normais nos pacientes e controles analisados, os níveis da atividade antigênica de C1-INH e C4 mostraram-se diminuídos na maioria dos avaliados (13/15). A avaliação funcional detectou baixa atividade (<50%) do valor normal (70% - 130%) em todos os pacientes analisados. A distribuição das mutações entre os 8 éxons relativos ao gene de C1- INH concentraram-se nos éxons 4 (g.4706-88A>G) , 7 (g.14145+20A>G) e 8 (Val480Met). Duas dessas mutações nunca foram descritas ainda, o que contribui para a compreensão da função das serpinas e também ajuda a definir mais completamente o papel biológico do inibidor de C1 / Activation of complement and contact systems results in the formation of vasoactive peptides such as bradykinin and anafilatoxinas. The C1 esterase inhibitor (C1-INH) is the main regulator of these two systems and the deficiency of this protein results in hereditary angioedema (HAE). It is a rare disease of autosomal dominant inheritance, characterized by deficiency of C1-INH, which is due to mutations in its structural gene, leading with severe episodes of edema in subcutaneous tissue, gastrointestinal and respiratory tract, potentially fatal. There are two phenotypic variants: HAE type I, with reduced plasma antigen levels and HAE type II with normal or low levels of C1-INH and dysfunctional activity. Several mutations have been described in the gene of the C1 esterase inhibitor (SERPING1), however, no studies to assess the relevance of this disease and the gene mutations in our population. The purpose of this study was to evaluate the molecular changes in patients with HAE, correlating it with clinical and laboratory manifestations. Samples of plasma, serum and DNA from fifteen patients from the same family were collected. CH50 hemolytic assay for assessing the integrity of the classical pathway of the complement system and quantitative evaluation of C1-INH and C4 by nephelometry tests were performed to confirm the diagnosis of disease. The functional activity of the protein was assessed by colorimetric assay and the possible relationship between mutations in the protein and the phenotype of the disease was assessed by polymerase chain reaction (PCR) and sequencing of genomic DNA. Hemolytic activity of complement and the total dosage of C3 were normal in patients and controls. Levels of antigenic activity of C1-INH and C4 were shown to be less valued in most (13/15). Functional evaluation found low activity (<50%) of normal (70% - 130%) in all patients examined. The distribution of mutations among the 8 exons of the gene for C1-INH concentrate in the exons 4 (g.4706-88A> G) and 7 (g.14145 +20 A> G) and 8 (Val480Met). Two of these mutations have not been described yet, which contributes to understanding the function of serpins and also helps to define more fully the biological role of the C1 inhibitor
142

Avaliação de mutações no gene do inibidor de C1 esterase em pacientes com angioedema hereditário / Mutations evaluation in C1 inhibitor gene in patients with hereditary angioedema

Alexandre Pires Correia 27 November 2009 (has links)
A ativação dos sistemas complemento e de contato resulta na formação de peptídeos vasoativos tais como a bradicinina e anafilatoxinas. O inibidor de C1-esterase (C1-INH) é o principal regulador desses dois sistemas e a deficiência desta proteína resulta no Angioedema Hereditário (AEH). Trata-se de uma doença rara, de herança autossômica dominante, caracterizada pela deficiência de C1-INH, a qual ocorre devido a mutações no seu gene estrutural, levando a episódios graves de edema em tecido subcutâneo, gastrointestinal e respiratório, potencialmente fatais. Existem dois fenótipos variantes: AEH do tipo I, com reduzidos níveis antigênicos de C1-INH no plasma e AEH tipo II com níveis reduzidos ou normais de C1-INH e atividade disfuncional. Várias mutações já foram descritas no gene de inibidor de C1 esterase (SERPING1), porém, não há estudos que avaliem a relevância desta doença e as mutações gênicas em nosso meio. O objetivo do presente estudo foi avaliar as alterações moleculares em pacientes com AEH, correlacionando-as com as manifestações clínico-laboratoriais. Amostras de plasma, soro e DNA de quinze pacientes de uma mesma família foram coletadas. O ensaio hemolítico CH50 para avaliação da integridade da via clássica do sistema complemento e avaliação quantitativa de C4 e C1-INH por nefelometria foram os ensaios realizados para confirmação do diagnóstico da doença. A atividade funcional da proteína foi avaliada através de ensaio colorimétrico e a relação existente entre possíveis mutações na proteína e o fenótipo da doença foi avaliada por meio de reação de polimerase em cadeia (PCR) e seqüenciamento do DNA genômico. A atividade hemolítica de complemento total e a dosagem de C3 foram normais nos pacientes e controles analisados, os níveis da atividade antigênica de C1-INH e C4 mostraram-se diminuídos na maioria dos avaliados (13/15). A avaliação funcional detectou baixa atividade (<50%) do valor normal (70% - 130%) em todos os pacientes analisados. A distribuição das mutações entre os 8 éxons relativos ao gene de C1- INH concentraram-se nos éxons 4 (g.4706-88A>G) , 7 (g.14145+20A>G) e 8 (Val480Met). Duas dessas mutações nunca foram descritas ainda, o que contribui para a compreensão da função das serpinas e também ajuda a definir mais completamente o papel biológico do inibidor de C1 / Activation of complement and contact systems results in the formation of vasoactive peptides such as bradykinin and anafilatoxinas. The C1 esterase inhibitor (C1-INH) is the main regulator of these two systems and the deficiency of this protein results in hereditary angioedema (HAE). It is a rare disease of autosomal dominant inheritance, characterized by deficiency of C1-INH, which is due to mutations in its structural gene, leading with severe episodes of edema in subcutaneous tissue, gastrointestinal and respiratory tract, potentially fatal. There are two phenotypic variants: HAE type I, with reduced plasma antigen levels and HAE type II with normal or low levels of C1-INH and dysfunctional activity. Several mutations have been described in the gene of the C1 esterase inhibitor (SERPING1), however, no studies to assess the relevance of this disease and the gene mutations in our population. The purpose of this study was to evaluate the molecular changes in patients with HAE, correlating it with clinical and laboratory manifestations. Samples of plasma, serum and DNA from fifteen patients from the same family were collected. CH50 hemolytic assay for assessing the integrity of the classical pathway of the complement system and quantitative evaluation of C1-INH and C4 by nephelometry tests were performed to confirm the diagnosis of disease. The functional activity of the protein was assessed by colorimetric assay and the possible relationship between mutations in the protein and the phenotype of the disease was assessed by polymerase chain reaction (PCR) and sequencing of genomic DNA. Hemolytic activity of complement and the total dosage of C3 were normal in patients and controls. Levels of antigenic activity of C1-INH and C4 were shown to be less valued in most (13/15). Functional evaluation found low activity (<50%) of normal (70% - 130%) in all patients examined. The distribution of mutations among the 8 exons of the gene for C1-INH concentrate in the exons 4 (g.4706-88A> G) and 7 (g.14145 +20 A> G) and 8 (Val480Met). Two of these mutations have not been described yet, which contributes to understanding the function of serpins and also helps to define more fully the biological role of the C1 inhibitor
143

Antibody Feedback Regulation and T Cells

Carlsson, Fredrik January 2007 (has links)
<p>Antibodies, passively administered or actively produced, regulate immune responses to the antigen they recognize. This phenomenon is called antibody-mediated feedback regulation. Feedback regulation can be positive or negative, resulting in >1000-fold enhancement or >99% suppression of the specific antibody response. The outcome depends on size, structure, dose, and route of administration of the antigen as well as on class and subclass of the regulating antibody. This thesis investigates the role of T cells in antibody-mediated feedback enhancement, using both<i> in vivo</i> and <i>in vitro</i> approaches. IgE-antibodies enhance antibody responses to small soluble proteins. This effect is entirely dependent on the low-affinity receptor for IgE, CD23, and most likely depends on increased antigen presentation by CD23<sup>+</sup> B cells. Strengthening this hypothesis, we show that IgE-mediated CD4<sup>+</sup> T cell proliferation<i> in vitro</i> required the presence of CD19<sup>+</sup> CD43<sup>-</sup> CD23<sup>+</sup> B cells. CD23 has also been shown to negatively regulate immune responses. Transgenic mice overexpressing CD23 are known to have impaired responses to antigens in alum. We here demonstrate that they are normal regarding IgE-mediated enhancement. IgG3 enhances antibody responses, and previous data suggested involvement of complement. We found that IgG3-mediated enhancement works well in mice lacking the only Fc-receptor known to bind IgG3, CD64. Although IgG3 could enhance antibody responses it had no major effect on T cell responses. Complement-receptors 1/2 (CR1/2) are required for the initiation of normal antibody responses. Although mice lacking CR1/2 had impaired antibody responses after immunization with sheep erythrocytes, their specific T cell responses were unaffected. The presented data do not support the idea that increased complement-mediated antigen presentation is a major mechanism behind the involvement of complement in antibody responses. They support the hypothesis that antigens forming complement-containing immune complexes may activate specific B cells by co-crosslinking BCR and CR1/2.</p>
144

Antibody Feedback Regulation and T Cells

Carlsson, Fredrik January 2007 (has links)
Antibodies, passively administered or actively produced, regulate immune responses to the antigen they recognize. This phenomenon is called antibody-mediated feedback regulation. Feedback regulation can be positive or negative, resulting in &gt;1000-fold enhancement or &gt;99% suppression of the specific antibody response. The outcome depends on size, structure, dose, and route of administration of the antigen as well as on class and subclass of the regulating antibody. This thesis investigates the role of T cells in antibody-mediated feedback enhancement, using both in vivo and in vitro approaches. IgE-antibodies enhance antibody responses to small soluble proteins. This effect is entirely dependent on the low-affinity receptor for IgE, CD23, and most likely depends on increased antigen presentation by CD23+ B cells. Strengthening this hypothesis, we show that IgE-mediated CD4+ T cell proliferation in vitro required the presence of CD19+ CD43- CD23+ B cells. CD23 has also been shown to negatively regulate immune responses. Transgenic mice overexpressing CD23 are known to have impaired responses to antigens in alum. We here demonstrate that they are normal regarding IgE-mediated enhancement. IgG3 enhances antibody responses, and previous data suggested involvement of complement. We found that IgG3-mediated enhancement works well in mice lacking the only Fc-receptor known to bind IgG3, CD64. Although IgG3 could enhance antibody responses it had no major effect on T cell responses. Complement-receptors 1/2 (CR1/2) are required for the initiation of normal antibody responses. Although mice lacking CR1/2 had impaired antibody responses after immunization with sheep erythrocytes, their specific T cell responses were unaffected. The presented data do not support the idea that increased complement-mediated antigen presentation is a major mechanism behind the involvement of complement in antibody responses. They support the hypothesis that antigens forming complement-containing immune complexes may activate specific B cells by co-crosslinking BCR and CR1/2.
145

Feedback Enhancement of Immune Responses by IgE, IgM, and IgG3 Antibodies

Ding, Zhoujie January 2015 (has links)
Antibodies can enhance or suppress the immune responses against their specific antigens. This phenomenon is known as antibody-mediated feedback regulation. We have studied the mechanisms underlying IgE-, IgM-, and IgG3-mediated enhancement of immune responses in mouse models using intravenous immunization. We attempted to answer the following questions: 1) Which cell type presents IgE-complexed antigens to CD4+ T cells? 2) Is complement activation required for specific IgM to enhance antibody responses? 3) Does IgM enhance CD4+ T-cell responses? 4) How are IgG3-antigen complexes transported into B-cell follicles? We found that CD23+ B cells transporting IgE-antigen complexes into B-cell follicles were not required to prime the antigen-specific CD4+ T cells in vivo, whereas CD11c+ cells were indispensable. After examining the three most common subpopulations of CD11c+ cells in the spleen, we determined that it was CD8α- conventional dendritic cells migrating into the T-cell zone following immunization that presented IgE-complexed antigens to CD4+ T cells. Next, we showed that specific IgM from Cµ13 mice, which is unable to activate complement, failed to enhance either antibody or germinal center responses whereas wild-type IgM enhanced both responses. Therefore, specific IgM must activate complement to enhance humoral responses. In addition, wild-type IgM did not up-regulate CD4+ T-cell responses. Finally, we showed that IgG3-antigen complexes were transported by marginal zone B cells into B-cell follicles via binding to complement receptors 1 and 2 (CR1/2) on those cells. The immune complexes were captured by follicular dendritic cells as early as 2 h after immunization. Germinal center responses were also enhanced by IgG3. Using bone marrow chimeric mice, we found that CR1/2 expression was required on both marginal zone B cells and follicular dendritic cells to provide an optimal enhancement of antibody responses.
146

Die interne struktuur van die komplementeerdersisteem in Afrikaans

Botha, Morne 03 1900 (has links)
Thesis (MA (General Linguistics))--University of Stellenbosch, 2007. / This study focuses on the internal structure of the CP in Afrikaans. Rizzi’s (1997) Split-CP Hypothesis serves as the starting-point; however, careful consideration is also given to the more recent proposals of Beninca’ and Poletto (2004). The aim of the study is to determine whether the proposals of Rizzi (1997) and Beninca’ and Poletto (2004) provide an adequate framework for the description of the CP-domain in Afrikaans. The study is presented within the theoretical framework of Minimalist Syntax. Specific adaptations to the Split-CP Hypothesis are suggested throughout the course of the discussion in an attempt to make the Split-CP Hypothesis compatible with the facts of Afrikaans. Finally, attention is also given to three problematic issues in Afrikaans that require further investigation.
147

MANIPULATING DYNAMIC ASTROCYTE FUNCTION DURING CUPRIZONE TREATMENT: CO-TREATMENT WITH COMPLEMENT RECEPTOR INHIBITOR

Frankle, Lana 27 April 2023 (has links)
No description available.
148

The Roles of Complement C4A and C4B Genetic Diversity and HLA DRB1 Variants on Disease Associations with Juvenile Dermatomyositis and Systemic Lupus Erythematosus

Lintner, Katherine E. 29 September 2016 (has links)
No description available.
149

Therapeutic Antibody Against Neisseria gonorrhoeae Lipooligosaccharide, a Phase-variable Virulence Factor

Chakraborti, Srinjoy 25 May 2017 (has links)
Neisseria gonorrhoeae (Ng) which causes gonorrhea has become multidrug-resistant, necessitating the development of novel therapeutics and vaccines. mAb 2C7 which targets an epitope within an important virulence factor, the lipooligosaccharide (LOS), is a candidate therapeutic mAb. Ninety-four percent of clinical isolates express the 2C7-epitope which is also a vaccine target. Ng expresses multiple LOS(s) due to phase-variation (pv) of LOS glycosyltransferase (lgt) genes. mAb 2C7 reactivity requires a lactose extension from the LOS core Heptose (Hep) II (i.e. lgtG ‘ON’ [G+]). Pv results in HepI with: two (2-), three (3-), four (4-), or five (5-) hexoses (Hex). How HepI glycans impact Ng infectivity and mAb 2C7 function are unknown and form the bases of this dissertation. Using isogenic mutants, I demonstrate that HepI LOS glycans modulate mAb 2C7 binding. mAb 2C7 causes complement (C’)-dependent bacteriolysis of three (2-Hex/G+, 4-Hex/G+, and 5-Hex/G+) of the HepI mutants in vitro. The 3-Hex/G+ mutant (resistant to C’-dependent bacteriolysis) is killed by neutrophils in the presence of mAb and C’. In mice, 2- and 3-Hex/G+ infections are significantly shorter than 4- and 5-Hex/G+ infections. A chimeric mAb 2C7 that hyperactivates C’, attenuates only 4- and 5-Hex/G+ infections. This study enhances understanding of the role of HepI LOS pv in gonococcal infections and shows that longer HepI glycans are necessary for prolonged infections in vivo. This is the first study that predicts in vitro efficacy of mAb 2C7 against all four targetable HepI glycans thereby strengthening the rationale for development of 2C7-epitope based vaccines and therapeutics.
150

Caracterização molecular dos componentes C1q, C4 e C2 do sistema complemento em pacientes pediátricos com lúpus eritematoso sistêmico / Molecular characterization of complement components C1q, C4, and C2 in pediatric patients with Systemic Lupus Erythematosus

Umetsu Sobrinho, Natália 08 August 2013 (has links)
Objetivo: Realizar a caracterização molecular dos genes C1q, C4 e C2 em pacientes com lúpus eritematoso sistêmico juvenil (LESJ). Métodos: Quatro pacientes com LESJ e deficiências de C1q,C4 e/ou C2 foram selecionados. O paciente P1 apresentava níveis séricos indetectáveis de C1q e níveis normais de C3 e C4; paciente P2 níveis baixos de C2 e C4 no soro; P3 apresentava níveis baixos de C2 e normais de C3 e C4 e P4 constantes níveis baixos de C4 e níveis normais de C1q, C2 e C3 no soro. Foram sequenciados os genes C1q e C2. Células mononucleares dos pacientes P1, P3 e P4 e de três indivíduos saudáveis foram cultivadas, estimuladas com interferon gama e incubadas por 36 horas e PCR quantitativo (qRTPCR) foi realizado para verificar a expressão de mRNA. Resultados: A caracterização molecular do gene C1q (P1) mostrou trocas heterozigotas na cadeia A (c.276 A>G Gly) e na cadeia C (c.126 C>T Pro). Foram observadas também duas trocas de base em homozigose na região 5\'UTR (c. -159 T>G) e na região 3\'UTR (c*78 A>G) da cadeia B. O qRT-PCR mostrou que a expressão de mRNA de C1qA no paciente P1 sem estimulo estava 1,3 vezes mais baixo e com estímulo de interferon gama estava 1,6 vezes mais expresso se comparado aos indivíduos saudáveis. A expressão de mRNA de C1qB sem estímulo foi 2,2 vezes mais baixo e com estímulo foi 1,5 vezes mais expresso quando comparados aos controles. Para C1qC os indivíduos controles não expressaram mRNA porém o paciente P1 apresentou pequena expressão com e sem estímulo. O sequenciamento do gene C2 dos pacientes P2 e P3 apresentou 100% de similaridade com a sequência de referência com exceção da deleção de 28pb no exon 6 (deficiência heterozigota de C2 do tipo I). A expressão de mRNA de C2 do paciente P3 foi sem estímulo 23 vezes mais baixo e com interferon 4,2 vezes menos expresso quando comparado aos controles. P4 apresentou 2 copias de C4A e 3 copias de C4B e no qRT-PCR o gene C4B estava 14 vezes menos expresso sem estímulo e com estímulo estava semelhante aos controles. Conclusões: As trocas de base em homozigose nas regiões 5\'UTR (região promotora) e 3\'UTR (região de estabilização do mRNA) na cadeia B do gene C1q podem ter modificado a região de transcrição do mRNA pois sua expressão sem estimulo foi baixa. Outras investigações são necessárias para relacionar as variações do gene C1q encontradas com os níveis séricos indetectáveis de C1q. A deficiência de C2 do tipo I heterozigota pode levar a redução na expressão de mRNA e pode estar presente em pacientes lúpicos com níveis séricos detectáveis de C2. Por fim, a baixa expressão de mRNA de C4B mostrou que as dosagens séricas e a avaliação do número de copias podem não ser suficientes para estabelecer a deficiência de C4 / Objective: To perform the molecular characterization of C1q, C4 and C2 genes in patients with Juvenile Systemic Lupus Erythematosus (JSLE). Methods: Four patients with JSLE and C1q, C4 and/or C2 deficiencies were chosen. Patient P1 had undetectable C1q serum level and normal levels of C3 and C4; Patient P2 had decreased levels of C2 and C4 serum while P3 had decreased C2 with normal C3 and C4 levels. Lastly P4 had repeated decreased C4 and normal C1q, C2 and C3 serum levels. C1q and C2 genes were sequenced. Peripheral mononuclear cells from patients P1, P3 and P4 and from three healthy individuals were both cultivated and stimulated with interferon gamma and a quantitative PCR (qRT-PCR) was also performed to verify mRNA expression. Results: C1q molecular characterization for P1 revealed heterozygous silent mutations in A chain (c.276 A>G Gly) and in C chain (c.126 C>T Pro). Additionally, in B chain two homozygous single-base exchanges were detected in the 5´UTR (c. -159 T>G) and 3\'UTR region (c*78 A>G). The qRTPCR revealed that C1qA gene mRNA expression without stimulation was decreased 1.3 times and with interferon gamma was 1.6 times more expressed compared with controls samples. C1qB gene expression without stimulation was 2.2 times decreased and when stimulated was 1.5 times more expressed. Controls did not expressed C1qC gene and patient P1 had low expression both with and without stimulation. P2 had 2 copies of C4A and 1 copy of C4B. C2 gene sequencing (P2 and P3) showed 100% match with referenced sequence, with exception to 28bp deletion at the exon 6 (heterozygous C2 deficiency type I). C2 mRNA expression from P3 without stimulation was 23 times decreased and with interferon was 4.2 times decreased compared with controls. P4 had 2 copies of C4A and 3 copies of C4B. The qRT-PCR were performed only in C4B gene showed without stimulation a 14 times decreased expression and with interferon stimulation the expression were similar to controls. Conclusions: The two homozygous single-base exchanges in 5\'UTR and 3\'UTR that correspond to the promoter region and stabilization mRNA region in B chain of C1q gene, may have modified mRNA transcription as its expression was decreased without stimulation. Further analysis is necessary to relate C1q gene variations and undetectable serum C1q. In addition, heterozygous C2 deficiency type I may lead to reduced mRNA expression and may be present in JSLE patients with detectable C2 levels. Finally, the decreased C4B gene expression showed that serum dosage and gene copy number may not be sufficient to assess C4 deficiency

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