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171	Mecanismos de defesa dos mastócitos contra o periodontopatógeno Aggregatibacter actinomycetemcomitans: atividade microbicida intracelular / Defense mechanisms of mast cells against periodontopathogen Aggregatibacter actinomycetemcomitans: intracellular microbicidal activity Lima, Heliton Gustavo de 17 July 2015 (has links) Os mastócitos (MCs) estão presentes tanto no periodonto normal quanto inflamado, em diferentes quantidades e em vários locais. Nos últimos anos, a eficácia e a contribuição dos MCs em eliminar bactérias, através de sua atividade microbicida intracelular, estão se tornando cada vez mais reconhecidas. Assim, a partir de MCs murinos desafiados in vitro com o periodontopatógeno Aggregatibacter actinomycetemcomitans (ATCC 29523) por 3, 5, 10 e 24 horas, o presente estudo teve como objetivo investigar a capacidade microbicida intracelular de MCs, e comparar com a capacidade microbicida de macrófagos peritoneais murinos (MPs), considerados fagócitos profissionais, por meio da contagem das unidades formadoras de colônias. Além disso, avaliou-se a produção e liberação de mediadores microbicidas, óxido nítrico (NO) e peróxido de hidrogênio (H2O2), por meio do método colorimétrico de Griess e pela degradação de substratos fluorescentes, respectivamente. Para a análise estatística, foram utilizados os testes estatísticos ANOVA Fatorial seguido do teste de Tukey e teste de correlação de Pearson (p<0.05). Nossos resultados revelaram que os MCs foram capazes de eliminar eficientemente o periodontopatógeno, principalmente após 10h de desafio intracelular. Comparando-se a atividade microbicida dos dois tipos celulares, verificou-se, nos períodos de 3h e 5h de desafio, um menor percentual de colônias viáveis no interior de MPs, em comparação aos MCs. Inversamente, nos períodos de 10h e 24h, observaram-se menores valores percentuais de colônias intracelulares nos MCs em relação aos MPs. Além disso, a produção/liberação de NO bem como, em menor proporção, de H2O2 pelos MCs foram concordantes com a sua capacidade microbicida. Este é o primeiro estudo que demonstra a eficiente ação microbicida intracelular de MCs murinos contra Aggregatibacter actinomycetemcomitans, com produção e liberação de substâncias potencialmente bactericidas, e de forma mais eficaz que os macrófagos. Esses resultados sugerem a importância dessas células nos mecanismos de defesa presentes na doença periodontal induzida por placa dentobacteriana. / Mast cells (MCs) are present in both normal and inflamed periodontal tissues, in varying amounts and locations. Recently, MCs contribution in eliminating bacteria and its effectiveness, through its intracellular microbicidal activity, have been increasingly recognized. Thus, this study aimed to investigate the intracellular microbicide capacity of MCs, and compare it with the microbicide capacity of murine peritoneal macrophages (MPs), considered professional phagocytes, by counting the colony forming units. Both cell types were challenged in vitro with periodontopathogen Aggregatibacter actinomycetemcomitans (ATCC 29523) by 3, 5, 10 and 24 hours. Additionally, the production and release of microbicidal agents, nitric oxide (NO) and hydrogen peroxide (H2O2) were evaluated by means of colorimetric Griess method and by the degradation of fluorescent substrates, respectively. Statistical analysis was performed by ANOVA Factorial test followed by Tukey and Pearson\'s correlation test (p <0.05). Our results revealed that MCs are able to efficiently eliminate periodontopathogen, mainly after 10 hours of intracellular challenge. The microbicidal activity of both cell types, in 3 and 5 hours of challenge showed a lower percentage of viable colonies inside MPs, compared to MCs. Contradictorily, in 10 and 24 hours a lower percentage of intracellular colonies in MCs was observed in relation to MPs. Moreover, the production/release of NO and, in minor proportion, of H2O2 by MCs was in agreement with its microbicidal capacity. Therefore, this is the first report to describe the intracellular microicidal activity of murine MCs against Aggregatibacter actinomycetemcomitans, concerning production and release of potentially bactericidal substances, which is more effective than macrophages. These results suggest the importance of these cells in pathogenesis and defense mechanisms of biofilm-associated periodontal disease. Aggregatibacter actinomycetemcomitans Aggregatibacter actinomycetemcomitans Doença periodontal Hydrogen peroxide Mast cells Mastócitos Nitric oxide Óxido nítrico Periodontal diseases Peróxido de Hidrogênio
172	Estudo do componente leucocitário e de mediadores quimiotáticos da reação inflamatória induzida pelo veneno de Bothrops moojeni. Participação de mastócitos e da histamina no recrutamento leucocitário / Studies on the leukocyte component and chemotactic mediators of the inflammatory reaction induced by Bothrops moojeni venom. Participation of mast cells and histamine in leukocyte recruitment. Sampaio, Marlos Cortez 06 October 2009 (has links) Este estudo teve por objetivos: a) caracterizar o influxo de leucócitos (LC) induzido pelo veneno de Bothrops moojeni (VBm); b) avaliar o papel dos mastócitos (MC) e da histamina neste evento; c) analisar a liberação de TXA2, PGD2, LTB4, MCP-1 e KC e d) avaliar a capacidade do VBm desgranular MC in vivo e in vitro. A injeção intraperitoneal de VBm, em camundongos, causou o recrutamento de LC e neutrofilia. O tratamento dos animais com cromoglicato aboliu o influxo de LC enquanto a difenidramina, ranitidina e a tioperamida, antagonistas da histamina, reduziram o influxo de neutrófilos. Ainda, o veneno induziu a liberação de PGD2, TXA2, LTB4, MCP-1 e de KC e causou a desgranulação de MC in vivo e a liberação de -hexosaminidase de MC in vitro. Em conclusão, o VBm induz influxo de LC para o local de sua injeção. Este efeito depende da histamina, via receptores H1, H2 e H4 e da desgranulação de MC, que decorre de ação direta do veneno nestas células. A neutrofilia e o TXA2, LTB4, MCP-1 e KC devem contribuir para o influxo de leucócitos causado pelo VBm. / In this study the effects of Bothrops moojeni venom (BmV) on the cellular component of inflammatory responses and the mechanisms involved in this effect were investigated. The effects of venom on peritoneal and circulating leukocyte numbers and on the release of inflammatory mediators, such as LTB4, TXA2, PGD2, MIP-1 and KC, were assessed. The role of both mast cells and histamine receptors in leukocyte recruitment induced by BmV was assessed by selected pharmacological treatments. BmV caused a marked infiltration of leukocytes (3-24 h) when injected into the peritoneal cavity of mice. Neutrophils (PMN) were the predominant cell type in the early stages of response whereas macrophages (MN) were accumulated from 3 up to 24 h. Moreover, BmV increased blood neutrophil numbers at 3 h after injection. The BmV-induced leukocyte influx was abrogated by cromoglicate and significantly reduced either by difenidramine or ranitidine or tioperamide, histamine H1, H2 and H4 receptor antagonists, respectively, at 6 h after injection. Significant increments in peritoneal levels of LTB4, TXA2, PGD2, MIP-1 and KC were detected at distinct periods of time after venom injection. In addition, BmV induced mast cell degranulation both in vivo and in vitro. In conclusion, obtained data demonstrated the ability of BmV induce leukocyte recruitment into the site of its injection. This effect is dependent on mast cell activation and degranulation, which may be due to a direct effect of venom on these cells, and is mediated at least in part by histamine via H1, H2 and H4 receptors. Moreover, the ability of venom to mobilize leukocytes from bone marrow reserve compartments and to release the chemotactic mediators TXA2, LTB4, MCP-1 and KC may be relevant for leukocyte infiltration. Bothrops moojeni Bothrops moojeni Chemotactic mediators Histamina Histamine Inflamação Inflammation Leucócitos Leukocytes Mast cells Mastócitos Mediadores quimiotáticos
173	Mecanismos de defesa dos mastócitos contra o periodontopatógeno Aggregatibacter actinomycetemcomitans: atividade microbicida intracelular / Defense mechanisms of mast cells against periodontopathogen Aggregatibacter actinomycetemcomitans: intracellular microbicidal activity Heliton Gustavo de Lima 17 July 2015 (has links) Os mastócitos (MCs) estão presentes tanto no periodonto normal quanto inflamado, em diferentes quantidades e em vários locais. Nos últimos anos, a eficácia e a contribuição dos MCs em eliminar bactérias, através de sua atividade microbicida intracelular, estão se tornando cada vez mais reconhecidas. Assim, a partir de MCs murinos desafiados in vitro com o periodontopatógeno Aggregatibacter actinomycetemcomitans (ATCC 29523) por 3, 5, 10 e 24 horas, o presente estudo teve como objetivo investigar a capacidade microbicida intracelular de MCs, e comparar com a capacidade microbicida de macrófagos peritoneais murinos (MPs), considerados fagócitos profissionais, por meio da contagem das unidades formadoras de colônias. Além disso, avaliou-se a produção e liberação de mediadores microbicidas, óxido nítrico (NO) e peróxido de hidrogênio (H2O2), por meio do método colorimétrico de Griess e pela degradação de substratos fluorescentes, respectivamente. Para a análise estatística, foram utilizados os testes estatísticos ANOVA Fatorial seguido do teste de Tukey e teste de correlação de Pearson (p<0.05). Nossos resultados revelaram que os MCs foram capazes de eliminar eficientemente o periodontopatógeno, principalmente após 10h de desafio intracelular. Comparando-se a atividade microbicida dos dois tipos celulares, verificou-se, nos períodos de 3h e 5h de desafio, um menor percentual de colônias viáveis no interior de MPs, em comparação aos MCs. Inversamente, nos períodos de 10h e 24h, observaram-se menores valores percentuais de colônias intracelulares nos MCs em relação aos MPs. Além disso, a produção/liberação de NO bem como, em menor proporção, de H2O2 pelos MCs foram concordantes com a sua capacidade microbicida. Este é o primeiro estudo que demonstra a eficiente ação microbicida intracelular de MCs murinos contra Aggregatibacter actinomycetemcomitans, com produção e liberação de substâncias potencialmente bactericidas, e de forma mais eficaz que os macrófagos. Esses resultados sugerem a importância dessas células nos mecanismos de defesa presentes na doença periodontal induzida por placa dentobacteriana. / Mast cells (MCs) are present in both normal and inflamed periodontal tissues, in varying amounts and locations. Recently, MCs contribution in eliminating bacteria and its effectiveness, through its intracellular microbicidal activity, have been increasingly recognized. Thus, this study aimed to investigate the intracellular microbicide capacity of MCs, and compare it with the microbicide capacity of murine peritoneal macrophages (MPs), considered professional phagocytes, by counting the colony forming units. Both cell types were challenged in vitro with periodontopathogen Aggregatibacter actinomycetemcomitans (ATCC 29523) by 3, 5, 10 and 24 hours. Additionally, the production and release of microbicidal agents, nitric oxide (NO) and hydrogen peroxide (H2O2) were evaluated by means of colorimetric Griess method and by the degradation of fluorescent substrates, respectively. Statistical analysis was performed by ANOVA Factorial test followed by Tukey and Pearson\'s correlation test (p <0.05). Our results revealed that MCs are able to efficiently eliminate periodontopathogen, mainly after 10 hours of intracellular challenge. The microbicidal activity of both cell types, in 3 and 5 hours of challenge showed a lower percentage of viable colonies inside MPs, compared to MCs. Contradictorily, in 10 and 24 hours a lower percentage of intracellular colonies in MCs was observed in relation to MPs. Moreover, the production/release of NO and, in minor proportion, of H2O2 by MCs was in agreement with its microbicidal capacity. Therefore, this is the first report to describe the intracellular microicidal activity of murine MCs against Aggregatibacter actinomycetemcomitans, concerning production and release of potentially bactericidal substances, which is more effective than macrophages. These results suggest the importance of these cells in pathogenesis and defense mechanisms of biofilm-associated periodontal disease. Aggregatibacter actinomycetemcomitans Doença periodontal Mastócitos Óxido nítrico Peróxido de Hidrogênio Aggregatibacter actinomycetemcomitans Hydrogen peroxide Mast cells Nitric oxide Periodontal diseases
174	Contribuição farmacológica do estudo da exposição de camundongos na fase neonatal ao poluente 1,2-naftoquinona (1,2-NQ) e sua repercussão na resposta inflamatória na fase adulta. / Pharmacological contribution of early-lifetime exposure of mice to 1,2-naphthoquinone (1,2-NQ) to increase pulmonary susceptibility of allergic response at a late stage of life. Santos, Karen Tiago dos 21 August 2009 (has links) Este estudo consistiu em avaliar comparativamente se camundongos neonatos e adultos, quando expostos ao poluente 1,2-NQ exibiriam susceptibilidade aumentada à inflamação alérgica (ovalbumina; OVA). Camundongos adultos ou neonatos foram expostos à 1,2-NQ ou veículo (15 min por três dias). Os camundongos adultos, após 24 h, ou neonatos, após 59 dias, foram sensibilizados/desafiados com OVA e os parâmetros funcionais e inflamatórios foram avaliados 24 h após. Em animais expostos a 1,2-NQ na fase neonatal, o desafio alérgico na idade adulta causou potente influxo de leucócitos no pulmão, sangue periférico e maturação eosinofílica na medula óssea, mas não afetou a hiperresponsividade brônquica. Isto foi consistente com maior biossíntese de citocinas Th2 e apresentação de CD11c esplênica. Em animais adultos, a 1,2-NQ não amplificou a inflamação alérgica. Conclui-se que, a exposição de camundongos neonatos à 1,2-NQ aumentou a susceptibilidade destes à inflamação alérgica na idade adulta via maior apresentação de CD11c esplênica e da biossíntese de citocinas Th2. / We have comparatively investigated whether exposure of neonates and adults mice to 1,2-NQ increases their susceptibility to allergic inflammation evoked by ovalbumin (OVA). Adults or neonate mice were nebulized with 1,2-NQ or corresponding vehicle. Following 24 h or eight weeks, adult or neonate mice were sensitized and challenged with OVA and the functional and inflammatory parameters were evaluated 24 h later. The allergic challenge in mice exposed to 1,2-NQ as neonates caused a potent influx of leukocytes in bronchoalveolar lavage, peripheral blood and increased eosinophil maturation in the bone marrow, without affecting Penh response. This was correlated with increased presentation of splenic CD11c and biosynthesis of Th2 cytokines in the lung. Adult mice exposure to 1,2-NQ failed to significantly increase OVA-induced allergic responses. Exposure to 1,2-NQ during neonatal period is critical to enhance susceptibility of asthma at a later stage of life, and that increased expression of splenic CD11c and inflammatory mediators contribute to this effect. Asma Asthma Células dendríticas Citocinas Cytokines Dendritic cells Farmacologia Inflamação Inflammation Mast cells Mastócitos Pharmacology Pollution Poluição
175	Signal Transduction in Mast Cell Migration Sundström, Magnus January 2001 (has links) <p>Mast cells are essential effector cells in the immune system as they release several inflammatory mediators. An accumulation of mast cells has been described in inflammatory conditions such as asthma and allergic rhinitis. Increased mast cell number, in the skin and other organs, is also a characteristic in mastocytosis, a disease without an effective treatment. One explanation for the increase in mast cell number is migration of mast cells in the tissue. In our studies we utilised mast cell lines, including HMC-1; cell lines transfected with the <i>c-kit</i> gene; and <i>in vitro</i> developed mast cells.</p><p>Our aim was to characterise, two variants of the HMC-1 cell line; the signalling pathways essential for mast cell migration towards TGF-β and SCF; and the mechanism regulating mast cell accumulation in mastocytosis.</p><p>Our results help to explain inconsistent findings regarding mast cell biology when HMC-1 cells have been used as a model system. The two variants, which we name HMC-1<sup>560</sup> and HMC-1<sup>560, 816</sup>, are used in different laboratories around the world. HMC-1<sup>560</sup> and HMC-1<sup>560, 816</sup> exhibited different characteristics regarding their karyotype, phenotype as well as their set of activating point mutations in the Kit receptor. Furthermore, divergent signalling pathways are of importance for mast cell migration towards TGF-β and SCF. The classical MAP kinase-signalling cascade was found to be of major relevance for TGF-β-induced migration. In contrast, this pathway had a modest impact on SCF-induced migration, which instead was highly dependent on p38 MAP kinase signalling. Finally, one mechanism for mast cell accumulation in mastocytosis appeared to be an activating point mutation in the gene for the Kit receptor. This mutation appeared to prone transfected cells and mast cell progenitors to a higher rate of migration towards SCF if compared with cells expressing wt Kit receptor.</p><p>In conclusion, our results show the importance of two different MAP kinase signalling pathways and mutations in the Kit receptor for mast cell migration induced by various types of stimuli. This knowledge helps us to understand the mechanism </p> Genetics HMC-1 Kit MAP kinase mast cells mastocytosis p38 SCF TGF-β Genetik Clinical genetics Klinisk genetik
176	Mast cells in Hodgkin lymphoma : or 'What's a nice cell like you doing in a tumour like this?' Fischer, Marie January 2004 (has links) <p>Mast cell (MC) accumulation around tumours is an old observation gaining new relevance due to the multifaceted nature of MCs and their many roles in immunity, beyond allergy. Knowledge about tumour specific recruitment of, and interactions with, MCs is needed to unravel the function of their presence.</p><p>This study investigates the participation of mast cells in the tumourigenesis of Hodgkin lymphoma (HL), a tumour with many inflammatory features. We report that MC recruitment into HL lymphomatous tissue is possibly due to the production of CCL5/RANTES by malignant Hodgkin and Reed-Sternberg (HRS) cells. In addition, increased levels of IL-9, a cytokine implicated in mast cell heterogeneity and as an autocrine growth factor for HRS cells, were found in HL patient sera and correlate with negative prognostic factors. The ubiquitous expression of CD30 by HRS cells has been implicated in HL tumour development. In HL tissue MCs were found to be the predominant CD30 ligand (CD30L) expressing cells, and through CD30L/CD30 engagement they induced a proliferative response in HRS cells. This interaction proved to be bi-directional as it induced a degranulation-independent <i>de novo</i> synthesis of a specific set of chemokines in MCs, including IL-8. This novel trigger of MC activation is suggested to be of importance also in atopic dermatitis (AD) and psoriasis since increased numbers of CD30L and IL-8 positive MCs were detected along with increased expression of CD30.</p><p>Data presented in this study supports a specific recruitment of MCs into HL tumours and co-operative interactions between HRS cells and MCs. Our identification of reversed signalling via CD30L as a novel MC trigger provides a mechanism behind leukocyte infiltration and chronic development in diseases associated with CD30 and MCs, such as HL, AD and psoriasis.</p> Pathology Hodgkin lymphoma mast cells CD30 CD30L IL-9 CCL5 atopic dermatitis psoriasis IL-8 Patologi Pathology Patologi
177	Signal Transduction in Mast Cell Migration Sundström, Magnus January 2001 (has links) Mast cells are essential effector cells in the immune system as they release several inflammatory mediators. An accumulation of mast cells has been described in inflammatory conditions such as asthma and allergic rhinitis. Increased mast cell number, in the skin and other organs, is also a characteristic in mastocytosis, a disease without an effective treatment. One explanation for the increase in mast cell number is migration of mast cells in the tissue. In our studies we utilised mast cell lines, including HMC-1; cell lines transfected with the c-kit gene; and in vitro developed mast cells. Our aim was to characterise, two variants of the HMC-1 cell line; the signalling pathways essential for mast cell migration towards TGF-β and SCF; and the mechanism regulating mast cell accumulation in mastocytosis. Our results help to explain inconsistent findings regarding mast cell biology when HMC-1 cells have been used as a model system. The two variants, which we name HMC-1560 and HMC-1560, 816, are used in different laboratories around the world. HMC-1560 and HMC-1560, 816 exhibited different characteristics regarding their karyotype, phenotype as well as their set of activating point mutations in the Kit receptor. Furthermore, divergent signalling pathways are of importance for mast cell migration towards TGF-β and SCF. The classical MAP kinase-signalling cascade was found to be of major relevance for TGF-β-induced migration. In contrast, this pathway had a modest impact on SCF-induced migration, which instead was highly dependent on p38 MAP kinase signalling. Finally, one mechanism for mast cell accumulation in mastocytosis appeared to be an activating point mutation in the gene for the Kit receptor. This mutation appeared to prone transfected cells and mast cell progenitors to a higher rate of migration towards SCF if compared with cells expressing wt Kit receptor. In conclusion, our results show the importance of two different MAP kinase signalling pathways and mutations in the Kit receptor for mast cell migration induced by various types of stimuli. This knowledge helps us to understand the mechanism Genetics HMC-1 Kit MAP kinase mast cells mastocytosis p38 SCF TGF-β Genetik Clinical genetics Klinisk genetik
178	Mast cells in Hodgkin lymphoma : or 'What's a nice cell like you doing in a tumour like this?' Fischer, Marie January 2004 (has links) Mast cell (MC) accumulation around tumours is an old observation gaining new relevance due to the multifaceted nature of MCs and their many roles in immunity, beyond allergy. Knowledge about tumour specific recruitment of, and interactions with, MCs is needed to unravel the function of their presence. This study investigates the participation of mast cells in the tumourigenesis of Hodgkin lymphoma (HL), a tumour with many inflammatory features. We report that MC recruitment into HL lymphomatous tissue is possibly due to the production of CCL5/RANTES by malignant Hodgkin and Reed-Sternberg (HRS) cells. In addition, increased levels of IL-9, a cytokine implicated in mast cell heterogeneity and as an autocrine growth factor for HRS cells, were found in HL patient sera and correlate with negative prognostic factors. The ubiquitous expression of CD30 by HRS cells has been implicated in HL tumour development. In HL tissue MCs were found to be the predominant CD30 ligand (CD30L) expressing cells, and through CD30L/CD30 engagement they induced a proliferative response in HRS cells. This interaction proved to be bi-directional as it induced a degranulation-independent de novo synthesis of a specific set of chemokines in MCs, including IL-8. This novel trigger of MC activation is suggested to be of importance also in atopic dermatitis (AD) and psoriasis since increased numbers of CD30L and IL-8 positive MCs were detected along with increased expression of CD30. Data presented in this study supports a specific recruitment of MCs into HL tumours and co-operative interactions between HRS cells and MCs. Our identification of reversed signalling via CD30L as a novel MC trigger provides a mechanism behind leukocyte infiltration and chronic development in diseases associated with CD30 and MCs, such as HL, AD and psoriasis. Pathology Hodgkin lymphoma mast cells CD30 CD30L IL-9 CCL5 atopic dermatitis psoriasis IL-8 Patologi Pathology Patologi
179	Molecular and cellular mechanisms contributing to the pathogenesis of autoimmune diabetes Duarte, Nádia January 2005 (has links) Type 1 diabetes is an autoimmune disorder determined both by genetic and environmental factors. The Non-obese diabetic (NOD) mouse is one of the best animal models of this disease. It spontaneously develops diabetes through a process resembling the human pathogenesis. The strong association of NOD Type 1 diabetes to the MHC region and the existence of other diabetes susceptibility loci are also in parallel with the human disease. The identity of the genetic factors and biological function mediated by these loci remain, however, largely unknown. Like in other autoimmune diseases, defects in tolerance mechanisms are thought to be at the origin of type 1 diabetes. Accordingly, defects in both central and peripheral tolerance mechanisms have been reported in the NOD mouse model. Using a subphenotype approach that aimed to dissect the disease into more simple phenotypes, we have addressed this issue. In paper I, we analyzed resistance to dexamethasone-induced apoptosis in NOD immature thymocytes previously mapped to the Idd6 locus. Using a set of congenic mice carrying B6-derived Idd6 regions on a NOD background and vice-versa we could restrict the Idd6 locus to an 8cM region on the telomeric end of chromosome 6 and the control of apoptosis resistance to a 3cM region within this area. In paper II, further analysis of diabetes incidence in these congenic mice separated the genes controlling these two traits, excluding the region controlling the resistance to apoptosis as directly mediating susceptibility to diabetes. These results also allowed us to further restrict the Idd6 locus to a 3Mb region. Expression analysis of genes in this chromosomal region highlighted the Lrmp/Jaw1 gene as a prime candidate for Idd6. Lrmp encodes an endoplasmatic reticulum resident protein. Papers III and IV relate to peripheral tolerance mechanisms. Several T cell populations with regulatory functions have been implicated in type 1 diabetes. In paper III, we analyzed NOD transgenic mice carrying a diverse CD1d-restricted TCR αVa3.2b9), named 24abNOD mice. The number of nonclassical NKT cells was found to be increased in these mice and almost complete protection from diabetes was observed. These results indicate a role for nonclassical NKT cells in the regulation of autoimmune diabetes. In paper IV, we studied the effects of introducing the diverse CD1d-restricted TCR (Va3.2b9) in immunodeficient NOD Rag-/- mice (24abNODRag-/- mice). This resulted in a surprising phenotype with inflammation of the ears and augmented presence of mast cells as well as spleenomegaly and hepatomegaly associated with extended fibrosis and increased numbers of mast cells and eosinophils in the tissues. These observations supported the notion that NKT cells constitute an “intermediary” cell type, not only able to elicit the innate immune system to mount an inflammatory response, but also able to interact with the adaptive immune system affecting the action of effector T cells in an autoimmune situation. In this context the 24abNODRag-/- mice provide an appropriate animal model for studying the interaction of NKT cells with both innate and adaptive components of the immune systemα. Immunology type 1 diabetes NOD mouse susceptibility loci Idd6 Lrmp gene NKT CD1d TCR mast cells Immunologi Immunology Immunologi
180	Studies of leukotriene C4 synthase isoenzymes and the cysteinyl leukotriene receptors in human endothelial- and mast cells / Sjöström, Mattias, January 2003 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 4 uppsatser.

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