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Gut NKp46+ Cells : new members of the emerging family of intestinal lymphoid cells / Les cellules NKp46+ intestinales : nouveaux membres de la nouvelle famille de lymphocytes intestinaux "innés"Reynders, Ana 18 October 2010 (has links)
Nous avons montré que, dans l'intestin, les cellules exprimant le marqueur spécifique des lymphocytes Natural Killer (NK), NKp46 peuvent être divisées en deux compartiments, par rapport au facteur de transcription RORyt. Les cellules NKp46+RORyt- sont des cellules NK intestinales immatures. Cependant, les cellules NKp46+RORyt- s'apparentent aux cellules "lymphoid tissue-inducer" (LTi), puisqu'elles requièrent RORyt pour leur développement et produisent de l'IL-22, cytokine essentielle pour l'homéostasie et la réponse antimicrobienne épithéliale. Notre recherche actuelle vise à établir les relations ontogéniques et la signature génétique de ces cellules au niveau pan-génomique. La fonction in vivo des cellules NKp46+ intestinales est adressée dans un modèle unique d'infection par voie orale avec Listeria monocytogenes. L'ensemble de nos résultats a montré que les cellules NKp46+ ont une place légitime dans la famille émergente des cellules intestinales de l'immunité innée. / Natural Killer (NK) cells are NKp46+CD3- innate lymphocytes, which exhibit cytotoxicityand cytokine production, mainly IFN-γ, as major effector functions. In mammals, theexpression of natural cytotoxic receptor NKp46 is essentially restricted to NK cellcompartment. However, we showed that in mouse intestine, NKp46 marker defines aheterogeneous cell population, differentially expressing the retinoic acid orphan receptorRORγt. NKp46+RORγt- cells harbor reduced cytotoxicity and IFN-γ production, consistentwith an immature NK cell phenotype. In contrast, NKp46+RORγt+ cells resemble lymphoidtissue inducer cells (LTi) in their developmental requirement for RORγt and their ability toproduce IL-22. This cytokine is critical for epithelial homeostasis and antimicrobial responseat several epithelial sites.By using a genome wide profiling approach, we confirmed that gut NKp46+RORγt- cellsare the only gut NKp46+ cell population related to conventional splenic NK cells, while gutNKp46+RORγt+ cells are linked to LTi cells. Transcriptional signatures specific of distinct gutNKp46+ cell subsets are currently under intensive investigation in order to determine novelfunctional properties.We assessed gut NKp46+ cell subsets in vivo function during oral infection with entericpathogen Listeria monocytogenes (L.m.). Although immune responses to systemic L.minfection have been widely characterized in mice, L.m. cannot breach mouse intestinal barrier,thus limiting the knowledge of early immune responses at the natural site of infection. Using aunique transgenic mouse lineage restoring L.m. intestinal invasiveness, we showed that gutNKp46+RORγt- and NKp46+RORγ t+ cells respond to L.m. infection by producing IFN-γ andIL-22, respectively. Further investigation of the cellular mechanisms leading to gut NKp46+cell subset activation, as well as the contribution of these cells to the control of bacterialdissemination is in progress.Altogether our data provide novel insight into intestinal innate immunity and highlight gutNKp46+ cell subsets as “legitimate” members of the emerging family of intestinal innatelymphoid cells
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Associação de polimorfismos no gene IL22RA1 como os níveis séricos de IL-22 e com parâmetros clínicos de pacientes portadores de artrite reumatoideVILLAR, Kamila de Melo 10 October 2015 (has links)
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Previous issue date: 2015-10-10 / CAPES / O processo inflamatório associado à liberação de citocinas está diretamente envolvido na patogênese da artrite reumatóide (AR). Um estudo anterior do nosso grupo relatou que pacientes com AR apresentaram níveis elevados da citocina IL-22 em relação aos controles e este aumento foi associado a um pior quadro clinico. Polimorfismos em interleucinas ou nos receptores específicos podem modificá-los funcionalmente, e assim, contribuir para o desenvolvimento da AR. O objetivo deste estudo foi identificar polimorfismos no receptor da citocina IL-22 que possam estar associados ao risco de desenvolver AR. Cento e trinta e oito portadores de AR foram recrutados pelo Serviço de Reumatologia do HC - UFPE, cumprindo os critérios do Colégio Americano de Reumatologia foram genotipados para os polimorfismos no IL22RA1 (rs4292900 e rs10794665) através da metodologia TaqMan®; o grupo controle foi formado por cento e vinte e oito indivíduos sadios. Os SNPs foram identificados por meio de consulta ao site HapMap, com uma frequência do alelo menor (MAF) de pelo menos 0,1% em caucasianos. Todas as frequências genéticas foram verificadas quanto ao equilíbrio de Hardy-Weinberg e a comparação das proporções foi realizada através do qui-quadrado (X²) ou teste exato de Fisher. Resultados: O genótipo TT (rs4292900) foi significativamente associado a AR quando comparados aos controles (37.79% e 21.36%, respectivamente, p=0,0054, odds ratio=2.23). Os pacientes heterozigotos CT e homozigotos TT para o polimorfismo rs4292900 apresentaram níveis significativamente elevados da citocina IL-22 comparados ao homozigoto CC (p=0.0018 e p=0.0324, respectivamente). Quanto aos parâmetros clínicos o genótipo CT (rs4292900) apresentou valores maiores do índice de atividade da doença (CDAI) comparado aos homozigotos; o mesmo ocorreu com o rs1079466. Observamos que os indivíduos TT para o rs 4292900 apresentaram maiores valores do hemossedimentação (VSH) comparados aos heterozigotos (p=0.016). Conclusão: Nossos resultados sugerem uma associação entre o rs4292900 e uma maior susceptibilidade a artrite reumatóide. Os dois SNPs não foram associados a pior quadro clínico da doença, no entanto o genótipo TT do rs4292900 foi associado com o altos níveis do VSH. / The inflammatory process associated with the release of cytokines is directly involved in the pathogenesis of rheumatoid arthritis (RA). A previous study from our group reported that RA patients had higher levels of IL-22 cytokine compared to controls and this increase was associated worse clinical condition. Interleukins or polymorphisms in the specific receptors can modify them functionally, therefore contributing to the development of the RA. The objective of this study was to identify polymorphisms in the IL-22 cytokine receptor that may be associated with risk of developing RA. One hundred and thirty-eight patients with RA were recruited at the Rheumatology Service HC - UFPE, meeting the American College of Rheumatology criteria they were genotyped for polymorphisms in IL22RA1 (rs4292900 and rs10794665) through the TaqMan method; the control group consisted of one hundred twenty-eight healthy individuals. SNPs were identified by query of the HapMap site with a minor allele frequency (MAF) of at least 0.1% in Caucasians. All genetic frequencies were checked for Hardy-Weinberg and the comparison of proportions was performed using the chi-square (X²) or Fisher's exact test. Results: The TT genotype (rs4292900) was significantly associated with RA compared to controls (37.79% and 21:36% respectively, p = 0.0054, odds ratio = 2.23). Patients heterozygous CT, and homozygous TT for the polymorphism rs4292900 had significantly elevated levels of the cytokine IL-22 compared to the homozygous CC (p = 0.0018 and p = 0.0324, respectively). As for the clinical parameters the CT genotype (rs4292900) showed higher values of disease activity index (CDAI) compared to homozygous; so has the rs1079466. We observe that the TT individuals for rs4292900 showed higher erythrocyte sedimentation rate (ESR) values compared to heterozygotes (p = 0.016). Conclusion: Our results suggest an association between rs4292900 and increased susceptibility to rheumatoid arthritis. The two SNPs were not associated worse clinical disease, however the rs4292900 TT genotype was associated with high levels of ESR.
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The role of Interleukin-1 signaling in the immune defense and in the development of the T helper cell lineageAbdulaal, Wesam January 2015 (has links)
IL-1 is a pro-inflammatory cytokine which play an important role in the activation and regulation of host defence and immune responses to inflammation or injury. IL-1 is able to bind and activate IL1-RI and IL1-RII, which are found on many cells types. The role of the IL-1 signalling in the deployment of Th cell subsets, especially Th17 cells is well known. However, the specific cells which are responsible for the expression of IL-1 signalling in the immune defense and in the development of the Th cell lineage in response to infection, is still largely unclear. Therefore in this thesis, IL1-RI conditional knockout mice specifically in hematopoietic cells (IL1-RI vaviCre+) were generated. Using IL1-RI vaviCre+ mice in comparison with IL1-RI global knockout mice (IL1-RI-/-) would determine whether the expression IL-1 signalling from hematopoietic cells is responsible for the immune defense and in the development of the Th1, Th2 and Th17 cells against gastrointestinal helminth Trichuris muris (T.muris) infections. The generation of IL1-RI vaviCre+ mice have been investigated at the genomic and proteomic level in order to confirm that the Il1-rI gene is inactivated in hematopoietic cells. The characterisation of IL1-RI vaviCre + mice at the genomic level confirmed that the Il1-rI gene was obliterated successfully. At protein level the characterisation of IL1- RI vaviCre + mice confirmed that IL1-RI was dysfunctional in hematopoietic cells. Additionally, the development of the immune cells was investigated in IL1-RI vaviCre + and IL1-RI-/- mice. Our findings demonstrated that the lymphocyte development was not affected by the deletion of the IL1- RI gene. This data indicated that IL1- RI vaviCre + and IL1-RI-/- mice are vital in vivo models. In high dose infection, both IL1-RI vaviCre + and IL1-RI -/- mice were able to clear the infections due to their ability to generate a Th2 response. Both IL1-RI vaviCre + and IL1-RI -/- mice infected with low dose of T.muris were susceptible to infections and showed high levels of Th1 cytokines. Thus, we hypothesised that IL1-RI signalling in hematopoietic cells was not required for worm expulsion and the generation of Th2 and Th1 response. Interestingly, low dose T.muris infection showed a clear reduction in the Th17 cytokines IL22 and IL17 in both IL1-RI vaviCre + and IL1-RI -/- mice, suggesting that IL-1 signalling expressed from hematopoietic cells is responsible for the development of Th17 cells and secretion of IL17 and IL22. IL1- RI vaviCre + and IL1-RI -/- mice infected with low dose of T.muris also showed an increase in inflammation in the colon and decreased of goblet cell hyperplasia. It is well known that IL22 plays an important role in preventing tissue damage and repair. Thus, in this study IL22 global knockout mice (IL22 -/-) were used to determine if the change in crypt lengths and goblet cell hyperplasia in IL1-RI vaviCre + and IL1-RI -/- was due to an absence of IL22. Our finding showed that IL22 -/- mice infected with low dose of T.muris had increased crypt length and a reduction in goblet cells. The similar phenotype in crypt length and goblet cell hyperplasia between IL22 -/-, IL1-RI vaviCre + and IL1-RI -/- mice suggested that a lack of IL22 in IL1-RI vaviCre + and IL1-RI -/- mice is responsible for the change in mice phenotype. It also provides more evidence for the role of IL-1 signaling in hematopoietic cells in the generation of Th17 cells and in the production of its cytokine IL22.IL1-RII is an inhibitor of IL1-RI, thus, in this study IL1-RII global knockout mice (IL1-RII -/-) mice was used in comparison with IL1-RI -/- mice to verify the role of IL-1 signaling in the development of Th17 cells. Our finding showed an overexpression of IL17 and IL22 in IL1-RII -/- compared with IL1-RI -/- mice and a higher level of IL17 in IL1-RII -/- mice compared with IL1-RII flox/flox mice. This data confirmed that IL-1 signaling is important for the development of Th17 cells and the production of its cytokine IL17 and IL22.
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