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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

EXPRESSION OF COMPLEMENT RECEPTORS 1 (CR1/CD35) AND 2 (CR2/CD21) AND CO-SIGNALING MOLECULE, CD19 IN CATTLE

Pringle, Eric S. 20 June 2011 (has links)
C3d is a sub-fragment of the C3 component of the complement system.  Covalent binding of multiple C3ds to antigen reduces the activation threshold of cognate B lymphocytes by one thousand fold through co-ligation of the BCR and complement receptor 2 (CR2/CD21). Reverse transcriptase polymerase chain reaction (RT-PCR), revealed that, in cattle, four distinct complement receptors are produced from the Cr2 gene by alternative splicing. Cattle express two major variants of the Cr2 gene representing homologues of murine CR1 and CR2, each of which are expressed in both a long and a short form. Expression of CR1 was detected in splenocytes but not in splenic mononuclear cells or monocyte derived macrophages. CR2 was detected only on IgM+ blood cells and unsorted splenocytes but not in CD3+ cells, CD14+ cells or neutrophils. Additionally, the coding sequence of CD19, the CR2 co-signaling molecule was found.
2

B cells in Autoimmunity : Studies of Complement Receptor 1 & 2 and FcγRIIb in Autoimmune Arthritis

Prokopec, Kajsa January 2009 (has links)
B cells are normally regulated to prevent activation against self-proteins through tolerance mechanisms.  However, occasionally there is a break in tolerance and B cells can become self-reactive, which might lead to the development of autoimmune disease. The activation of self-reactive B cells is regulated by receptors on the B cell surface, such as Fc gamma receptor IIb (FcγRIIb), complement receptor type 1 (CR1), and CR type 2 (CR2). In this thesis I have studied the role of FcγRIIb, CR1 and CR2 on B cells in autoimmune arthritis. By using a model for rheumatoid arthritis, I discovered that the initial self-reactive B cell response in arthritis was associated with the splenic marginal zone B cell population. Marginal zone B cells express high levels of CR1/CR2 and FcγRIIb, suggesting that they normally require high regulation. Further, female mice deficient in CR1/CR2 displayed increased susceptibility to arthritis compared to CR1/CR2-sufficient female mice. When investigating whether sex hormones affected arthritis susceptibility, we found that ovariectomy, of the otherwise fairly resistant CR1/CR2-sufficient mice, reduced the expression of CR1 on B cells and rendered the mice more susceptible to arthritis. In humans, a significantly reduced CR1 and FcγRIIb expression was found on B cells in aging women, but not in men. This may contribute to the increased risk for women to develop autoimmune disease as reduced receptor expression may lead to the activation of self-reactive B cells. In agreement, lower CR1, CR2 and FcγRIIb expression was seen in patients with rheumatoid arthritis.   Finally, a soluble form of FcγRIIb was used to investigate FcγRIIb’s ability to bind self-reactive IgG in an attempt to treat autoimmune arthritis. Treatment of mice with established arthritis was associated with less self-reactive IgG antibodies and consequently less disease, suggesting that soluble FcγRIIb may be used as a novel treatment in arthritis.
3

IgM and Complement in Regulation of Antibody Responses

Sörman, Anna January 2015 (has links)
Animals deficient in complement components C1q, C4, C3, and CR1/2 have severely impaired antibody responses. C1q is primarily activated by antibody-antigen complexes. Antigen-specific IgM in complex with an antigen is able to enhance the antibody response against that antigen. This is dependent on the ability of IgM to activate complement. Naïve mice have very low amounts of specific antibodies and therefore it is surprising that classical pathway activation plays a role for primary antibody responses. It was hypothesized that natural IgM, present in naïve mice, would bind an antigen with enough affinity to activate C1q. To test this, a knock-in mouse strain, Cm13, with a point mutation in m heavy chain, making its IgM unable to activate complement was constructed. Surprisingly, the antibody responses in Cm13 were normal. Puzzled by the finding that the ability of IgM to activate complement was required only for some effects, the immunization protocol was changed to mimic an infectious scenario. With this regime, Cm13 mice had an impaired antibody response compared to wildtype (WT) mice. The antibody response in WT mice to these repeated low-dose immunizations was also enhanced. These observations suggest that IgM-mediated enhancement indeed plays a physiological role in initiation of early antibody responses. IgM-mediated enhancement cannot however compensate for the dependecy of T-cell help. Although IgM from WT mice enhanced the antibody response, the T-cell response was not enhanced. The connection between classical pathway activation and CR1/2 is thought to be generation of ligands for CR1/2. In mice, CR1/2 are expressed on B cells and follicular dendritic cells (FDC). Although CR1/2 are crucial for a normal antibody response, the molecular mechanism(s) are not understood. To investigate whether CR1/2 must be expressed on B-cells or FDC to generate a normal antibody response, chimeric mice between WT and CR1/2-deficient mice were constructed. The results show that CR1/2+ FDC were crucial for the generation of antibody responses. In the presence of CR1/2+ FDC, both CR1/2+ and CR1/2- B cells were equally good antibody producers. However, for an optimally enhanced antibody response against IgM-antigen complexes, both B cells and FDC needed to express CR1/2.
4

The Role of IgM and Complement in Antibody Responses

Rutemark, Christian January 2011 (has links)
An intact complement system including the complement receptors 1 and 2 (CR1/2) is crucial for the generation of a normal antibody response in animals and humans. Moreover, activation of the classical pathway is thought to be important since deficiency in complement components C1q, C2, C4 or C3 lead to impaired antibody responses. The classical pathway is mainly initiated by antibodies bound to their antigen. It is unclear how classical pathway activation can be crucial for primary antibody responses since the levels of specific antibodies are very low in naïve animals. It has been hypothesized that natural IgM, with high enough affinity, can initiate the classical pathway after immunization. To test this, we generated the knock-in mouse strain Cμ13, producing IgM unable to activate complement. Surprisingly, the antibody response against SRBC and KLH in Cµ13 mice was normal. Thus, the importance of classical pathway activation and natural IgM in antibody responses is not dependent on the ability of IgM to activate complement. SIGN-R1, SAP and CRP are other known activators of the classical pathway, but mice lacking these also had normal antibody responses. Complement activation leads to the generation of C3 split products which are ligands for CR1/2. In mice, CR1/2 are expressed on B cells and follicular dendritic cells (FDC), but it is unclear on which cell-type expression of CR1/2 is needed for the generation of a normal antibody response. Some reports argue that increased antigen retention by CR1/2+ FDC would increase the effective antigen concentration, giving more effective B-cell stimulation. In contrast, several mechanisms involving CR1/2 on B cells are suggested. First, marginal zone B cells could transport complement-coated antigen or IC via CR1/2 into the follicle. Second, different ways of co-crosslinking the B-cell receptor with CR1/2, lowering the threshold for B-cell activation, have been proposed. Finally, CR1/2 on B cells are shown in vitro to facilitate endocytosis and thereby presentation of antigen to T cells. We show that abrogated antibody responses in mice lacking CR1/2 are not due to lack of CR1/2-mediated antigen presentation to T cells. Chimeric mice with CR1/2 expression on both B cells and FDC, on neither B cells nor FDC, or on either B cells or FDC, were generated. The antibody response against SRBC was completely dependent of CR1/2-expression on FDC. However, when this requirement was fulfilled, B cells without expression of CR1/2 were equally efficient antibody producers as wildtype B cells. Antigen-specific IgM together with its antigen can enhance the antibody response to that antigen and CR1/2-expression is crucial for the enhancement. We show that the response to IgM in complex with SRBC is dependent on CR1/2 expression on both B cells and FDC.
5

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>
6

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.
7

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.
8

IgG3 Complements IgM in the Complement-Mediated Regulation of Immune Responses

Zhang, Lu January 2017 (has links)
An intact complement system is essential for the initiation of a normal antibody response. Antibodies can regulate their own production against the antigens that they are specific for. Both IgG3 and IgM are able to enhance the antibody response via complement. Here, we have compared the fate of OVA-TNP (ovalbumin-2,4,6-trinitrophenyl) administered intravenously to mice either alone or in complex with monoclonal IgG3 anti-TNP. IgG3-antigen complexes bind to marginal zone (MZ) B cells via complement receptors 1 and 2 (CR1/2) and are transported into splenic follicles. The majority (50% - 90%) of the antigens is deposited on follicular dendritic cells (FDC) and the antigen distribution pattern is strikingly similar to peripheral dendrites/processes of FDC already 2 h after immunization. The development of germinal centers (GC) induced by IgG3-antigen complexes is impaired in mice lacking CR1/2. Experiments on bone marrow chimeric mice show that CR1/2 expression on both MZ B cells and FDC is required for optimal IgG3-mediated enhancement of antibody responses. Complement factors C3 and C1q are essential for OVA-TNP delivery and deposition on splenic FDC. The production of IgG anti-OVA is abrogated in mice lacking CR1/2, C1q, and C3. Further, IgG3-antigen complexes dramatically upregulate the memory response against OVA-TNP by inducing OVA-specific memory cells. Besides small protein OVA, IgG3 can also upregulate humoral responses against large soluble keyhole limpet hemocyanin. To further study the role of MZ B-cells and CR1/2 in enhancement of antibody responses, a knock-in mouse strain, Cμ13, was used. IgM in this mouse strain is unable to activate complement due to a point mutation in the constant µ-heavy chain. Cμ13 mice have a higher proportion of MZ B cells, with higher CR1/2 expression, than wild-type mice. More IgG3-immune complexes are captured by MZ B cells and deposited on FDC in Cμ13 than in WT mice. In spite of this, IgG3 did not enhance the primary antibody response more efficiently in Cμ13 mice. The existence of endogenous IgM-mediated feedback regulation was suggested by the observation that GC development and antibody responses, after priming and boosting with suboptimal doses of SRBC, was lower in Cμ13 than in WT mice.
9

Associação dos polimorfismos dos Fc&#947;R e do CR3 no lúpus eritematoso sistêmico e sua influência no burst oxidativo dos neutrófilos / Association of FcyR and CR3 polymorphisms in systemic lupus erythematosus and their influence on the neutrophil oxidative burst

Kawahisa, Juliana Escher Toller 30 July 2012 (has links)
As infecções constituem a principal causa de morbidade e mortalidade em pacientes com lúpus eritematoso sistêmico (LES), representando 20-55% das mortes e sendo 80% delas causadas por bactérias. O LES é uma doença autoimune inflamatória crônica e a suscetibilidade às infecções está associada às próprias anormalidades imunológicas da doença, bem como a sua terapia, particularmente imunossupressora e citotóxica. Além disso, os polimorfismos genéticos dos Fc?R, Fc?RIIa e Fc?RIIIb, nos neutrófilos, têm sido associados com as disfunções imunes do LES.Os Fc?R são importantes mediadores das funções efetoras do neutrófilo e atuam em sinergismo com os CR. O polimorfismo dos genes FCGR2A e FCGR3B determina a expressão de variantes alélicas com diferenças funcionais, as quais podem influenciar as respostas biológicas e a suscetibilidade e o prognóstico das doenças infecciosas.O objetivo deste estudo foi avaliar a influência dos polimorfismos dos receptores Fc?RIIa (H/R131), Fc?RIIIb (HNA-1a, HNA-1b e HNA-1c) e CR3 (HNA-4a) no burst oxidativo de neutrófilos de pacientes com LES.Neutrófilos de pacientes com LES (n=36) e indivíduos saudáveis (n=36) foram purificados do sangue periférico (0.5x106/500µL) e estimulados com 30µg de IC, IC/soro humano normal (SHN), IC/SHN inativado ou PMA 10-7M. O burst oxidativo foi medido por quimioluminescência (QL) na presenca de luminol 10-4M ou lucigenina 10-4M. As frequências dos genótipos de Fc?RIIa, Fc?RIIIb e HNA-4a em pacientes com LES (n=157) e indivíduos saudáveis (n=147) foram determinadas por PCR com primers oligoespecíficos e gel de agarose 2%.Quanto aos polimorfismos genéticos, foi observado que o alelo positivo de HNA-4a contribui para a proteção e o alelo negativo para a suscetibilidade ao LES. Entre os pacientes com LES, as infecções foram mais frequentes quando os alelos R131 de FCGR2A, HNA-1b de FCGR3B e HNA-4a positivo do CR3 estavam presentes. Para o burst oxidativo com luminol, no grupo controle, as homozigoses H131, HNA-1b e HNA-4a negativo foram associadas à redução do burst oxidativo dos neutrófilos comparado às homozigoses para os respectivos alelos correspondentes. No LES, o burst oxidativo foi maior na homozigose R131 do grupo LES inativo comparado ao homozigoto H131 controle; menor na homozigose HNA-1b do grupo LES ativo comparado ao homozigoto HNA-1a do controle e, também, na heterozigose HNA-4a positivo/negativo o burst foi menor no grupo LES ativo comparado ao LES inativo. A ausência de diferenças entre os grupos com LES e controle, nos ensaios de burst oxidativo com lucigenina e com PMA, sugerem que a NADPH oxidase, responsável pela geração do burst oxidativo, não está comprometida nos neutrófilos dos pacientes com LES. Esses resultados têm implicações para a fisiopatologia do LES e, sobretudo, reforçam a hipótese de que os polimorfismos dos FCGR2A, FCGR3B e HNA-4a modulam o burst oxidativo de neutrófilos nos indivíduos saudáveis e no LES. Assim, o presente estudo contribui para o entendimento das anormalidades nas funções dos neutrófilos no LES. / Infections represent 20-55% of all deaths in patients with systemic lupus erythematosus (SLE). About 80% of them are caused by bacteria. SLE is an autoimmune disease in whichdisease-related and genetic factors and immunosuppressive and cytotoxic therapies all contributeto an increased susceptibility to infections.Recent data have provided evidence that genetic polymorphism of Fc?R is associated withimmune abnormalities and risk to development of SLE.Fc?R can mediate neutrophil effector functions and play a synergistic action with CR. Fc?RIIaand Fc?RIIIb display functionally relevant genetic polymorphisms, which allelic variants caninfluence the biological responses and the susceptibility to and course of infectious diseases.The aim of this study was to investigate the influence of the Fc?RIIa (H/R131), Fc?RIIIb (HNA- 1a, HNA-1b and HNA-1c) and CR3 (HNA-4a) polymorphisms on neutrophil oxidative burst of SLE patients. Neutrophils of SLE patients (n=36) and control individuals (n=36) were purified from peripheral blood (0.5x106/500µL) in Hanks 0.1% gelatin pH7.2 and were stimulated with 30µg of immune complexes (IC), IC/normal human serum (NHS), IC/heat-inactivated NHS (iNHS) or PMA 10-7M. The oxidative burst was measured by chemiluminescence (CL) in the presence of luminol 10-4M or lucigenin 10- 4 M. The reaction was monitored in a luminometer at 37ºC for 20min and the results were analyzed as the area under the curve of the CL profile. Genotype frequencies of Fc?RIIa, Fc?RIIIb and HNA-4a alleles for SLE patients (n=157) and for healthy subjects (n=147) were determined using PCR with sequence-specific primers and agarose gel 2%. It was observed that the HNA-4a positive allele contributes to the protection and the negative allele contributes to susceptibility to SLE. Among patients with SLE, infections were more frequent when the alleles R131 of FCGR2A, HNA-1b of FCGR3B and HNA-4a positive of CR3 were present. For the oxidative burst with luminol in the control group, the homozygous H131, HNA-1b and HNA-4a negative were associated with reduced oxidative burst of neutrophils compared to homozygous to their corresponding alleles. In SLE, the oxidative burst was higher in homozygous R131 inactive SLE group compared to the homozygous H131 control; it was also lower in homozygous HNA-1b active SLE group than homozygous HNA-1a control and either in the heterozygous HNA-4a positive/negative active SLE compared to inactive SLE group. The absence of differences between the SLE and control groups in the oxidative burst assays, using lucigenin and PMA, suggests that NADPH oxidase, responsible for generating the oxidative burst, is not impaired in neutrophils from patients with SLE. These results have implications for the pathophysiology of SLE and, above all, support the hypothesis that polymorphisms of FCGR2A, FCGR3B and HNA-4a modulate the oxidative burst of neutrophils in healthy and in SLE. Thus, this study contributes to the understanding of abnormalities in neutrophil functions in SLE.
10

Function and Regulation of B-cell Subsets in Experimental Autoimmune Arthritis

Palm, Anna-Karin E. January 2015 (has links)
B lymphocytes play a significant role in autoimmune arthritis, with their function stretching beyond autoantibody production to cytokine secretion and presentation of autoantigen. However, the involvement and activation of different B-cell subset in the autoimmune response is not fully clear. The main focus of this thesis has been to understand the contribution of marginal zone (MZ) B cells in the induction of collagen-induced arthritis (CIA), a mouse model for rheumatoid arthritis (RA). We show that MZ B cells in the spleen of naïve mice display a natural self-reactivity to collagen type II (CII), the autoantigen used for immunization of CIA. The CII-reactive MZ B cells expand rapidly following immunization with CII, and produce IgM and IgG antibodies to CII. They also very efficiently present CII to cognate T cells in vitro and in vivo. Moreover, absence of regulatory receptors such as CR1/2 or FcγRIIb on the MZ B cells increases their proliferation and cytokine production in response to toll-like receptor, but not B-cell receptor, activation. Further, FcγRIIb-deficient MZ B cells present CII to T cells more efficiently than wild-type MZ B cells. We additionally demonstrate for the first time the existence of a small population of nodal MZ B cells in mouse lymph nodes. Similar to splenic MZ B cells, the nodal MZ B cells expand after CIA induction, secrete IgM anti-CII antibodies and can present CII to cognate T cells. Finally, we show that mast cells, associated with ectopic B cell follicles in inflamed RA joints, in coculture with B cells promote their expansion, production of IgM and IgG antibodies as well as upregulation of CD19 and L-selectin. Coculture with mast cells further causes the B cells to upregulate costimulators and class II MHC, important molecules for antigen-presenting function. In summary, my findings suggest that splenic and nodal self-reactive MZ B cells participate in breaking T-cell tolerance to CII in CIA. B-cell intrinsic regulation is needed to keep such autoreactive B cells quiescent. Mast cells can potentiate B-cell responses locally in the arthritic joint, thus feeding the autoimmune reaction.

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