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31	Avaliação da reconstituição imunológica e da resposta anti-citomegalovirus nos receptores de transplante de medula óssea / Anti-cytomegalovirus immunity reconstitution following autologous and allogeneic stem cell and bone marrow transplantation as assessed by CD8+ T cell phenotyping and functio Valeria Ferrari 23 February 2005 (has links) O citomegalovírus (CMV) é uma séria ameaça aos receptores de transplante de medula óssea. A reativação está associada com uma imunidade mediada por células TCD8+ defeituosa. Nosso objetivo foi correlacionar as diferentes subpopulações de células TCD8+ com a reconstituição imunológica dos pacientes, especificamente a imunidade anti-CMV, analisando as subpopulações de células T infundidas nas diferentes modalidades de transplante de medula óssea. Receptores de transplante alogênico de células tronco mobilizadas para o sangue periférico (n=16) ou coletadas diretamente da medula óssea (n=28) e receptores de transplante autólogo de células tronco mobilizadas para o sangue periférico (n=22) foram avaliados. Verificamos que as transferências de células mobilizadas para o sangue periférico dos doadores, tanto nos transplantes alogênicos como autólogos, são proporcionalmente enriquecidas por subpopulações de células memória efetora e efetora, comparadas às transferências de células procedentes diretamente da medula óssea. Este enriquecimento por subpopulações de células TCD8+ mais diferenciadas foi também correlacionado com maior número de células contendo altos níveis de granzima B, considerado um marcador para linfócitos citotóxicos, sendo também encontrado em maior número nas transferências de células do sangue periférico. Entretanto, no pós-transplante, observou-se que somente os receptores de transplante autólogo de células tronco mobilizadas para o sangue periférico, e não os das outras modalidades de transplante, exibiam números elevados de células T CD8+ de memória-efetora e efetora. Ao mesmo tempo, estes receptores apresentaram menos freqüentemente episódios de reativação pelo CMV, e mais freqüentemente produziram IFN-gama em resposta ao CMV. Portanto, a transferência de células do sangue periférico, desde que em ambiente autólogo, está associada não só com a transferência de células TCD8+ com um fenótipo mais maduro, mas também com uma persistência mais prolongada das mesmas, podendo proporcionar uma resposta imunológica antiviral mais rápida e eficiente, como esperado para as células de memória versus naïve. / Cytomegalovirus (CMV) is a serious threat to the recipients of bone marrow transplantation. Reactivation is associated with defective CD8+ T cell-mediated immunity. We aimed to correlate the different subsets of CD8+ T cells with the patients\' immune reconstitution, specifically anti CMV immunity, by analyzing the CD8+ T cell subsets infused in the different types of bone marrow transplantation. Recipients of allogeneic transplant of peripheral blood stem cells (n=16) or bone marrow (n=28) and recipients of autologous transplant of peripheral blood stem cells (n=22) were evaluated. We show that infusions of stem cells derived from donor\'s peripheral blood, either allogeneic or autologous, are proportionally enriched for the memory-effector and effector phenotypes, compared to the infusions of stem cells of bone marrow origin. This increased number of more differentiated subsets of CD8+ T cells was also correlated with an increased number of cells containing high levels of granzyme B, which is another reliable marker of cytotoxic lymphocyte, and which was also more evident in autologous recipients. However, post-transplant, we observed that only the recipients of autologous peripheral blood cells, and not the recipients of the other transplant modalities, exhibited very high numbers of memory-effector and effector TCD8+ cells. At the same time, they less frequently presented CMV reactivation, and more frequently produced IFN-gama in response to CMV antigens. Thus, transfer of stem cells from peripheral blood, provided in an autologous setting, is associated with transfer and prolonged survival of CD8+ T cells with a more mature phenotype, which may provide a more rapid and efficient anti-viral immune response, as expected for memory versus naïve cells. Imunofenotipagem de linfócito Imunologia de transplantes Linfócitos T CD8-positivos/imunologia Linfócitos T citotóxicos/imunologia Transplante de medula óssea/imunologia Bone marrow transplantation/immunology CD8-positive T-lymphocytes/immunology Cytomegalovirus infections/immunology Cytomegalovirus infections/virology cytotoxic/immunology Lymphocyte immunophenotyping/immunology T-lymphocyte subsets/immunology T-lymphocytes Transplantation immunology
32	Avaliação do potencial papel imunomodulador de células-tronco mesenquimais derivadas de tecido adiposo, no modelo experimental de transplante renal em ratos / Evaluation of the potential immunomodulatory role of mesenchymal stem cells derived from adipose tissue in the experimental kidney transplant model in rats Pepineli, Rafael 19 January 2018 (has links) Estudos com células tronco mesenquimais (CTm) têm despertado grande interesse devido a seu promissor potencial terapêutico e representam uma alternativa para o tratamento de diversas patologias em diferentes órgãos, inclusive em transplante renal. A rejeição crônica é um dos maiores desafios no transplante tardio e se caracteriza por perda progressiva da função renal causado pela intensa fibrogênese no aloenxerto. Os tratamentos convencionais com imunossupressores, apesar de reduzirem significativamente as crises de rejeição aguda, não interferem na sobrevida do enxerto a longo prazo. A compreensão dos processos fisiopatológicos da doença depende de seu estudo em modelos experimentais, que são de grande importância pois também propiciam uma melhor compreensão dos possíveis tratamentos. O presente estudo teve como objetivo analisar a terapia com células-tronco mesenquimais derivadas de tecido adiposo (CTmTA) no modelo experimental de transplante renal em ratos, para estudar seu efeito na rejeição crônica e avaliar seu potencial efeito imunomodulador. O modelo foi estabelecido com ratos das linhagens isogênicas Fisher (doador) e Lewis (receptor) e os animais transplantados foram divididos em três grupos: ISO (transplante isogênico de Lewis para Lewis, n=6), ALO (transplante alogênico de Fisher para Lewis, n=6) e ALO+CTmTA (transplante alogênico, tratado com CTmTA, n=6). As CTmTA foram caracterizadas por aderência ao plástico, diferenciação nas linhagens adipogênica, condrogênicas e osteogênicas e por citometria de fluxo. Foram inoculadas 1 x 106 células na região subcapsular renal no dia da realização da nefrectomia unilateral direita (10 dias pós-transplante). Após 6 meses foram realizadas análises dos parâmetros clínicos e laboratoriais, além de análise histológica, imunohistoquímica e PCR em tempo real. As CTmTA foram eficientes em prevenir significativamente a elevação da ureia e da creatinina séricas, manter clearence de creatinina em níveis normais, e prevenir a elevação da fração de excreção de Na+ e K+. Além disso, impediram o desenvolvimento de proteinúria e da hipertensão arterial. A análise histológica mostrou uma redução significativa do infiltrado inflamatório de macrófagos e linfócitos T, além de uma diminuição da fibrose intersticial no grupo ALO+CTmTA. O tratamento com CTmTA reduziu significativamente a expressão relativa dos fatores e citocinas pró-inflamatórios tais como INF-y, TNF-alfa, IL1beta e IL-6, além de aumento importante na expressão de IL-4 e IL-10, conhecidas por seu potencial antiinflamatório. Em conclusão, o tratamento com ADMSC em um modelo experimental de transplante renal pode trazer uma nova abordagem terapêutica para controle da rejeição crônica do enxerto. A aparente modulação da resposta imune observada neste trabalho, pode estar associada a uma possível polarização de macrófagos e células T. Outros estudos pré-clínicos e clínicos são necessários para confirmar nossos resultados / Studies involving mesenchymal stem cells (MSCs) have aroused great interest due to their promising therapeutic potential representing an alternative for the treatment of several pathologies in different organs, including renal transplantation. Chronic rejection is one of the major challenges in late transplantation and is characterized by progressive loss of renal function caused by intense fibrogenesis in the allograft. Conventional immunosuppressive treatments, while significantly reducing acute rejection crises, do not interfere with long-term graft survival. Animal model of kidney transplantation can provide a better understanding of the pathophysiological processes and bring a new path to treat chronic rejection. The aim of this project was to analyze the therapy with mesenchymal stem cells derived from adipose tissue (ADMSCs) in the experimental model of kidney transplantation in rats, focus on chronic rejection and evaluate its potential immunomodulatory effect. The model was established with rats of isogenic strains Fisher (donor) and Lewis (recipient), and the transplanted animals were divided into three groups: ISO (isogenic transplantation from Lewis to Lewis, n = 6), ALO (allogenic transplant from Fisher to Lewis, n = 6) and ALO + ADMSCs (allogenic transplantation, treated with ADMSCs, n = 6). ADMSCs were characterized by adhesion to plastic, differentiation in adipogenic, condrogenic and osteogenic lines and by flow cytometry. One million of cells were inoculated under the renal capsule on the day of the right unilateral nephrectomy (10 days after transplantation). After 6 months, clinical and laboratory parameters were analyzed, as well as histological analysis, immunohistochemistry and real-time PCR. ADMSCs were effective in preventing elevation of serum urea and creatinine, elevation of the Na + and K + excretion fraction as well as maintained creatinine clearence at normal levels. Furthermore, the treatment also prevented the development of proteinuria and preserved blood pressure. Histological analysis showed a significant reduction of macrophages and T cells infiltrate, associated to a decreased of interstitial fibrosis in the ALO + ADMSCs group. In the presence of ADMSCs, there was a significant decrease in the relative expression of INF-y, TNF-alpha, IL1beta and IL-6 factors and pro-inflammatory cytokines, as well as a significant increase in the relative expression of anti-inflammatory cytokines as IL-4 and IL-10. In conclusion, treatment with ADMSC in a transplantation model could open a new approach to control chronic rejection. This apparent modulation of the immune response may be associated with a possible polarization of macrophages and T cells. Further pre-clinical and clinical studies are needed to confirm our findings Adipose tissue Células-tronco Fibrose Graft rejection, Fibrosis Imunologia de transplantes Kidney transplantation Ratos endogâmicos F344 Ratos endogâmicos Lew Rats inbred F344 Rats inbred Lew Rejeição de enxerto Stem cells Tecido adiposo Transplantation immunology Transplante de rim
33	Viral Abrogation of Stem Cell Transplantation Tolerance Causes Graft Rejection and Host Death by Different Mechanisms: A Dissertation Forman, Daron 22 May 2002 (has links) Tolerance-based stem cell transplantation using sub-lethal conditioning is being considered for the treatment of human disease, but safety and efficacy remain to be established. In order to study these two issues, we first established that mouse bone marrow recipients treated with sub-lethal irradiation plus transient blockade of the CD40-CD154 costimulatory pathway develop permanent hematopoietic chimerism across allogeneic barriers. Our conditioning regimen of 6 Gy irradiation, a short course of anti-CD154 mAb and 25 million fully allogeneic BALB/c bone marrow cells consistently produced long-term, stable, and multilineage chimerism in C57BL/6 recipients. Furthermore, chimeric mice displayed donor-specific transplantation tolerance, as BALB/c skin allografts were permanently accepted while third-party CBA/JCr skin allografts were promptly rejected. We next determined both the safety and efficacy of this protocol by infecting chimeric mice with lymphocytic choriomeningitis virus (LCMV) either at the time of transplantation or at several time points afterwards. Infection with LCMV at the time of transplantation prevented engraftment of allogeneic, but not syngeneic, bone marrow in similarly treated mice. Surprisingly, infected allograft recipients also failed to clear the virus and died. Post-mortem study revealed hypoplastic bone marrow and spleens. Hypoplasia and death in these mice required the combination of 6 Gy irradiation, LCMV infection on the day of transplantation, and an allogeneic bone marrow transplant but did not require the presence of anti-CDl54 mAb. Allochimeric mice infected with LCMV 15 days after transplantation were able to survive and maintain their bone marrow graft, indicating that the deleterious effects of LCMV infection on host and graft survival are confined to a narrow window of time during the tolerization and transplantation process. The final section of this thesis studied the mechanisms of graft rejection and death in sublethally irradiated recipients of allogeneic bone marrow and infection with LCMV at the time of bone marrow transplantation. Infection of interferon-α/β receptor knockout mice at the time of transplantation prevented the engraftment of allogeneic bone marrow, but the mice survived. Therefore, IFN-αβ is involved in the development of marrow hypoplasia and death, whereas a second mechanism is involved in blocking the development of chimerism in these mice. Through the use of depleting mAb's and knockout mice we demonstrate that three types of recipients survived and became chimeric after being given sublethal irradiation, anti-CD154 mAb, an allogeneic bone marrow transplant and a day 0 LCMV infection: mice depleted of CD8+ T cells, CD8 knockout mice, and TCR-αβ knockout mice. Our data indicate that the mediator of bone marrow allograft destruction in LCMV-infected mice treated with costimulatory blockade is a radioresistant CD8+ NK1.1- TCRαβ+ T cell. We conclude that a non-cytopathic viral infection at the time of transplantation can prevent engraftment of allogeneic bone marrow and result in the death of sub-lethally irradiated mice treated with costimulation blockade. The abrogation of allogeneic bone marrow engraftment is mediated by a population of CD8+ NK1.1- TCRαβ+ T cells and the mediator of hypoplasia and death is viral induction of IFN-αβ. Hematopoietic Stem Cell Transplantation Transplantation Immunology Transplantation Homologous Histocompatibility Transplantation Tolerance Transplantation Conditioning Transplantation Chimera Radiation Chimera Radiation Chimera Graft Rejection Animal Experimentation and Research Cells Genetic Phenomena Hemic and Immune Systems Immunology and Infectious Disease Surgical Procedures, Operative Therapeutics Virology
34	Avaliação do potencial papel imunomodulador de células-tronco mesenquimais derivadas de tecido adiposo, no modelo experimental de transplante renal em ratos / Evaluation of the potential immunomodulatory role of mesenchymal stem cells derived from adipose tissue in the experimental kidney transplant model in rats Rafael Pepineli 19 January 2018 (has links) Estudos com células tronco mesenquimais (CTm) têm despertado grande interesse devido a seu promissor potencial terapêutico e representam uma alternativa para o tratamento de diversas patologias em diferentes órgãos, inclusive em transplante renal. A rejeição crônica é um dos maiores desafios no transplante tardio e se caracteriza por perda progressiva da função renal causado pela intensa fibrogênese no aloenxerto. Os tratamentos convencionais com imunossupressores, apesar de reduzirem significativamente as crises de rejeição aguda, não interferem na sobrevida do enxerto a longo prazo. A compreensão dos processos fisiopatológicos da doença depende de seu estudo em modelos experimentais, que são de grande importância pois também propiciam uma melhor compreensão dos possíveis tratamentos. O presente estudo teve como objetivo analisar a terapia com células-tronco mesenquimais derivadas de tecido adiposo (CTmTA) no modelo experimental de transplante renal em ratos, para estudar seu efeito na rejeição crônica e avaliar seu potencial efeito imunomodulador. O modelo foi estabelecido com ratos das linhagens isogênicas Fisher (doador) e Lewis (receptor) e os animais transplantados foram divididos em três grupos: ISO (transplante isogênico de Lewis para Lewis, n=6), ALO (transplante alogênico de Fisher para Lewis, n=6) e ALO+CTmTA (transplante alogênico, tratado com CTmTA, n=6). As CTmTA foram caracterizadas por aderência ao plástico, diferenciação nas linhagens adipogênica, condrogênicas e osteogênicas e por citometria de fluxo. Foram inoculadas 1 x 106 células na região subcapsular renal no dia da realização da nefrectomia unilateral direita (10 dias pós-transplante). Após 6 meses foram realizadas análises dos parâmetros clínicos e laboratoriais, além de análise histológica, imunohistoquímica e PCR em tempo real. As CTmTA foram eficientes em prevenir significativamente a elevação da ureia e da creatinina séricas, manter clearence de creatinina em níveis normais, e prevenir a elevação da fração de excreção de Na+ e K+. Além disso, impediram o desenvolvimento de proteinúria e da hipertensão arterial. A análise histológica mostrou uma redução significativa do infiltrado inflamatório de macrófagos e linfócitos T, além de uma diminuição da fibrose intersticial no grupo ALO+CTmTA. O tratamento com CTmTA reduziu significativamente a expressão relativa dos fatores e citocinas pró-inflamatórios tais como INF-y, TNF-alfa, IL1beta e IL-6, além de aumento importante na expressão de IL-4 e IL-10, conhecidas por seu potencial antiinflamatório. Em conclusão, o tratamento com ADMSC em um modelo experimental de transplante renal pode trazer uma nova abordagem terapêutica para controle da rejeição crônica do enxerto. A aparente modulação da resposta imune observada neste trabalho, pode estar associada a uma possível polarização de macrófagos e células T. Outros estudos pré-clínicos e clínicos são necessários para confirmar nossos resultados / Studies involving mesenchymal stem cells (MSCs) have aroused great interest due to their promising therapeutic potential representing an alternative for the treatment of several pathologies in different organs, including renal transplantation. Chronic rejection is one of the major challenges in late transplantation and is characterized by progressive loss of renal function caused by intense fibrogenesis in the allograft. Conventional immunosuppressive treatments, while significantly reducing acute rejection crises, do not interfere with long-term graft survival. Animal model of kidney transplantation can provide a better understanding of the pathophysiological processes and bring a new path to treat chronic rejection. The aim of this project was to analyze the therapy with mesenchymal stem cells derived from adipose tissue (ADMSCs) in the experimental model of kidney transplantation in rats, focus on chronic rejection and evaluate its potential immunomodulatory effect. The model was established with rats of isogenic strains Fisher (donor) and Lewis (recipient), and the transplanted animals were divided into three groups: ISO (isogenic transplantation from Lewis to Lewis, n = 6), ALO (allogenic transplant from Fisher to Lewis, n = 6) and ALO + ADMSCs (allogenic transplantation, treated with ADMSCs, n = 6). ADMSCs were characterized by adhesion to plastic, differentiation in adipogenic, condrogenic and osteogenic lines and by flow cytometry. One million of cells were inoculated under the renal capsule on the day of the right unilateral nephrectomy (10 days after transplantation). After 6 months, clinical and laboratory parameters were analyzed, as well as histological analysis, immunohistochemistry and real-time PCR. ADMSCs were effective in preventing elevation of serum urea and creatinine, elevation of the Na + and K + excretion fraction as well as maintained creatinine clearence at normal levels. Furthermore, the treatment also prevented the development of proteinuria and preserved blood pressure. Histological analysis showed a significant reduction of macrophages and T cells infiltrate, associated to a decreased of interstitial fibrosis in the ALO + ADMSCs group. In the presence of ADMSCs, there was a significant decrease in the relative expression of INF-y, TNF-alpha, IL1beta and IL-6 factors and pro-inflammatory cytokines, as well as a significant increase in the relative expression of anti-inflammatory cytokines as IL-4 and IL-10. In conclusion, treatment with ADMSC in a transplantation model could open a new approach to control chronic rejection. This apparent modulation of the immune response may be associated with a possible polarization of macrophages and T cells. Further pre-clinical and clinical studies are needed to confirm our findings Células-tronco Fibrose Imunologia de transplantes Ratos endogâmicos F344 Ratos endogâmicos Lew Rejeição de enxerto Tecido adiposo Transplante de rim Adipose tissue Graft rejection, Fibrosis Kidney transplantation Rats inbred F344 Rats inbred Lew Stem cells Transplantation immunology
35	Contrôle de la réaction allogénique par les lymphocytes T régulateurs naturels / Control of the allogeneic reaction by naturally occuring regulatory T cells Benghiat, Fleur 18 December 2007 (has links) Le polymorphisme et le polygénisme des complexes majeurs d’histocompatibilité (CMH) limitent les succès de la transplantation. En effet, les disparités, tant d’antigènes mineurs que majeurs, exposent le patient transplanté au risque de rejet et imposent l’administration d’un traitement immunosuppresseur. Ce dernier affecte de façon non spécifique l’ensemble des réponses immunitaires et augmente le risque d’infections mortelles et de cancers. En outre, ce traitement ne semble pas prévenir le rejet chronique. <p>Des découvertes récentes ont confirmé l’existence de lymphocytes appelés régulateurs (Tregs) dont le rôle est de garantir l’homéostasie des réponses immunes afin qu’elles ne deviennent incontrôlées et pathologiques. Les Tregs classiquement décrits expriment de manière constitutive l’antigène CD4+, la chaîne alpha du récepteur de l’interleukine (IL)-2 (CD25) et le facteur de transcription Foxp3. Ils représentent 5 à 10% des lymphocytes CD4+ totaux. Les Tregs sont capables de réguler des lymphocytes alloréactifs et ont été décrits comme responsables du maintien de la tolérance d’allogreffe chez la souris. Mais jusqu'alors, les modèles employés pour démontrer l'importance des Tregs en transplantation utilisaient soit un traitement immunosuppresseur transitoire, soit des transferts de cellules T dans des souris lymphopéniques. <p>Toutefois, ces derniers ne permettent pas de distinguer l'effet des Tregs sur la prolifération homéostatique des lymphocytes effecteurs de leur effet sur la réponse allogénique.<p>Dans notre travail, nous montrons que les Tregs jouent un rôle prépondérant dans l’acceptation spontanée d’allogreffes en l’absence d’immunosuppresseur et en dehors d’un contexte lymphopénique chez la souris. En effet, la déplétion des Tregs du receveur par l’administration d’anticorps anti CD25 amplifie les réponses allogéniques de type Th1 et Th2 et, par conséquent, déclenche le rejet d’allogreffe. Les propriétés régulatrices des Tregs ne sont cependant pas illimitées. En effet, dans un second travail, nous décrivons, d’une part, leur incapacité à contrôler la production d’IL-17 par des lymphocytes CD4+CD25pos mémoires et, d’autre, part leur implication directe dans la différenciation de cellules Th17 au départ de lymphocytes CD4+CD25neg alloréactifs.<p>Nous concluons donc que si les Tregs naturellement présents chez le receveur jouent un rôle primordial dans la protection du greffon contre des réponses de type Th1 ou Th2, ils pourraient néanmoins favoriser une voie alterne du rejet d’allogreffe dépendante de l’IL 17.<p>/<p>Major histocompatibility complex (MHC) polymorphism is a major hindrance to transplantation success. Both minor and major antigen disparities between donor and recipient increase the risk of transplant rejection. This is thwarted by the administration of an immunosuppressive therapy that unspecifically affects all immune responses therefore increasing the risk of infections and cancers. Besides, this treatment does not seem to prevent chronic rejection.<p>Recent studies have confirmed the existence of lymphocytes called regulatory T cells (Tregs), whose role is to maintain the general immune homeostasis and to protect the individual from autoimmune diseases.<p>The classically described Tregs express constitutively the CD4 antigen, the alpha chain of the interleukin (IL)-2 receptor (CD25) and the transcription factor Foxp3. They represent 5 to 10% of total CD4+ T cells. Tregs are able to control alloreactive responses and were described to be responsible for the maintenance of allograft tolerance in mice. So far, the tolerogenic capacities of Tregs have been demonstrated either in mice treated with immunomodulatory antibodies (induced Tregs) or by adoptive co-transfer of Tregs and effector cells into lymphopenic mice. However, the latter has the disadvantage of not being able to distinguish the effect of Treg on lymphopenia-induced homeostatic proliferation from their effect on alloreactive responses. <p>Herein, we show that Tregs play a crucial role in spontaneously accepted allografts in the absence of immunosuppressive therapy and in non-lymphopenic condition. Indeed, the depletion of the recipient’s Tregs through the administration of an anti-CD25 antibody enhances type Th1 and type-Th2 allogeneic responses, consequently triggering allograft rejection. However, the regulatory properties of Tregs are not unlimited. Indeed, we found that Tregs are unable to control allogeneic IL-17 production by memory CD4+ T cells and are even necessary for de novo Th17 differentiation. <p>We conclude, therefore, that Tregs naturally present in the recipient play a critical role in protecting the allograft. Nevertheless, despite this context of regulation, IL-17-producing alloreactive T cells, beyond the control of Tregs, could mediate an alternative pathway of allograft rejection. / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine T cells Histocompatibility Histocompatibility antigens Transplantation immunology Immunosuppression Lymphocytes T Histocompatiblité Antigènes d'histocompatibilité Greffe (Chirurgie) -- Immunologie Immunosuppression anticorps anti-CD25 Réaction mixte lymphocytaire regulation régulation/ Mixed lymphocyte reaction anti-CD25 monoclonal antibody
36	Implication of vascular endothelium and interleukin-22 in rejection of cardiac allografts / Implication de l'endothélium vasculaire et de l'interleukine-22 dans le rejet d'allogreffe cardiaque Kapessidou, Panayota 28 June 2010 (has links) Cardiac transplantation is governed by complex immunological mechanisms contributing to different types of allograft rejection. Early non-specific graft failure and chronic rejection (cardiac allograft vasculopathy) represent the main limitations for the recipients’ short- and long-term survival respectively. To date, the pathogenesis of both rejection types remains ill-defined. However, it is believed that they are related to an immunologically mediated potent inflammatory process, occurring whether early after transplantation (acute), or lasting for the lifetime of the graft (chronic).<p> <p>The initiating mechanisms of chronic rejection in solid organ transplantation remain ill-defined. Emerging evidence sustains that graft vasculopathy is primarily driven by alloreactive CD4+ T lymphocytes sensitized by the indirect pathway of allorecognition. To date, whereas the nature of APCs involved in this particular pathway has yet to be identified, it appears challenging to speculate that recipient-derived endothelial cells (ECs) repopulating the graft may represent the main cell targets recognized by indirectly primed alloreactive CD4+ T cells to mediate the rejection of cardiac transplants. In the first part of this thesis, we specifically studied the indirect pathway of allorecognition with a transgenic mice (Marilyn mice) model that expresses a T cell receptor (TCR) transgene which recognizes the male antigen H-Y in an I-Ab-restricted fashion. Our results provide evidence that graft endothelium replacement by recipient-type cells expressing MHC Class II molecules is required for the chronic rejection of vascularized cardiac transplants mediated by indirect pathway alloreactive CD4+ T cells.<p><p>The purpose of the second part of the thesis was to investigate the potential implication of interleukin-22 (IL-22), an early phase secreted proinflammatory cytokine of the IL-10 family, in the acute rejection of cardiac allografts. IL-22 was recently described as an effector key modulator of the inflammatory process produced mainly by differentiated CD4+ T cells of the Th17 lineage. As being closely related to IL-10 and IL-17, both involved in the rejection process of vascularized heart allografts, we attempted to determine the precise role of IL-22 in this process. Experiments were conducted with a recently developed murine model deficient for the IL-22 gene (IL-22KO). The results of the second part of the thesis show that IL-22 is not an effector cytokine in cardiac allograft rejection. In contrast, as being early expressed into the allograft, likely IL-22 plays a protective role in the inflammation leading to acute cardiac rejection, probably depending on a neutrophil-related mechanism. <p><p><p>In conjunction with current understanding of inflammatory and antigen-specific events in allografts, overall, our results provide new insights into the mechanisms of chronic and acute cardiac rejection, thus prompting to further interrogations and appealing novel therapeutic strategies. Pharmacologic manipulation of endothelium is challenging. Given their capacity to sense and rapidly respond to the local environment, ECs are the ideal targets for rapid systemic delivery of therapeutic agents. Combination therapy is required to reduce inflammatory reaction and endothelial activation, to modulate endothelial dysfunction and promote endothelial survival. Also, given that IL-22 may alleviate tissue destruction during inflammatory responses, therapies that enhance its production and protective action in the transplanted organs seem attractive to specifically affect tissue responses, without exerting direct effects on the immune response.<p><p><p> / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Heart -- Transplantation Graft rejection Transplantation immunology Coeur -- Greffe Coeur -- Greffe -- Immunologie Rejet (Biologie) Greffe (Chirurgie) -- Immunologie interleukin-22 / transplantation coeur vascular endothelium endothélium vasculaire rejet interleukine-22 rejection transplantation heart
37	Dialogue entre l'immunité innée et acquise en réponse au lipopolysaccharide / Cross talk between innate and adaptive immunity in response to LPS De Wilde, Virginie 12 December 2008 (has links) Le système immunitaire nous protège contre les infections et les cancers. Cependant, des réponses immunitaires excessives ou incontrôlées peuvent causer des pathologies potentiellement mortelles comme le choc endotoxinique, des maladies auto-immunes, ou le rejet d’allogreffe. Une compréhension claire des mécanismes de régulation des réponses immunes permettrait d’envisager de nouvelles thérapeutiques plus ciblées. Dans ce travail réalisé chez la souris, la modulation de la réponse inflammatoire à une toxine bactérienne, le lipopolysaccharide (LPS), a été utilisée comme archétype de la régulation immunitaire. Ceci nous a permis de démontrer que la régulation de la prolifération homéostatique de lymphocytes T CD4+CD25- par des lymphocytes T régulateurs naturels tempère la réponse inflammatoire au LPS. Cet effet est notamment dépendant d’une diminution de la sécrétion d’IFN-γ par les lymphocytes activés par la prolifération induite par la lymphopénie. Nous avons aussi observé, que la désensibilisation du système immunitaire inné vis-à-vis du LPS, suite à des injections répétées d’endotoxine, induit le développement de cellules myéloïdes suppressives (myeloïd-derived suppressor cells MDSC) capables de réguler des réponses lymphocytaires T in vitro et in vivo. Nous avons pu mettre en évidence que l’effet suppresseur des MDSC est dépendant de leur expression de l’enzyme hème oxygénase-1 et de leur production d’IL-10. Le dialogue constant entre les cellules de l’immunité innée et de l’immunité acquise assure donc à la fois l’activation et la régulation du système immunitaire. Dans la majorité des cas, ceci permet aux réponses immunitaires d’être efficaces sans être excessives. La mise en évidence de ces processus identifie les lymphocytes T régulateurs et les cellules myéloïdes suppressives comme des éléments clefs de la régulation d’un processus inflammatoire. Les traitements immunosuppresseurs, les thérapies cellulaires et les greffes de moelle ont des effets variables et mal connu sur ces populations de cellules régulatrices. Tenir compte de ces interférences thérapeutiques avec les processus naturels de régulation de notre système immunitaire permettra certainement d’optimaliser l’utilisation de ce type de traitements. D’autre part, l’utilisation thérapeutique de ces deux types de cellules régulatrices pourrait être envisagé dans de nouvelles stratégies d’immuno-modulation plus « physiologique ».<p> / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Immune response Immune response -- Regulation Endotoxins T cells Immunosuppression Transplantation immunology Réaction immunitaire Réaction immunitaire -- Régulation Endotoxines Lymphocytes T Immunosuppression Greffe (Chirurgie) -- Immunologie immunité régulation transplantation regulation transplantation/ immunity
38	CD40-CD154 Blockade Facilitates Induction of Allogeneic Hematopoietic Chimerism and Transplantation Tolerance: A Dissertation Seung, Edward 14 May 2003 (has links) Allogeneic hematopoietic chimerism leading to central tolerance has significant therapeutic potential. Establishment of hematopoietic chimerism created by stem cell transplantation has been shown to prevent and cure a number of autoimmune diseases and induce the most robust and long-lasting form of transplantation tolerance known. However, the realization of the vast clinical potential of hematopoietic chimerism for induction of transplantation tolerance has been impeded by the toxicity of the host conditioning regimen and the development of graft-versus-host disease (GVHD). This thesis describes the development of stem cell transplantation protocols that 1) reduce the host conditioning regimen; and 2) abrogate the development of GVHD. When applied to the treatment of autoimmune diabetic NOD mice, a model of type 1 diabetes, stem cell transplantation was able to 3) prevent autoimmune recurrence; and 4) permit curative pancreatic islet transplantation. I first describe a tolerance-based stem cell transplantation protocol that combines sub-lethal irradiation with transient blockade of the CD40-CD154 costimulatory pathway using an anti-CD154 antibody. With this protocol, I established hematopoietic chimerism in BALB/c mice transplanted with fully allogeneic C57BL/6 bone marrow. All chimeric mice treated with anti-CD154 antibody remained free of graft vs.host disease (GVHD) and accepted donor-origin but not third party skin allografts. It was similarly possible to create allogeneic hematopoietic chimerism in NOD/Lt mice with spontaneous autoimmune diabetes. Pancreatic islet allografts transplanted into chimeric NOD/Lt mice were resistant not only to allorejection but also to recurrence of autoimmunity. I conclude that it is possible to establish robust allogeneic hematopoietic chimerism in sub-lethally irradiated mice without subsequent GVHD by blocking the CD40-CD154 costimulatory pathway using as few as two injections of anti-CD154 antibody. I also conclude that chimerism created in this way generates donor-specific allograft tolerance and reverses the predisposition to recurrent autoimmune diabetes in NOD/Lt mice, enabling them to accept curative islet allografts. In order to further reduce the impediments associated with the implementation of allogeneic hematopoietic chimerism as a therapeutic modality, I adapted a costimulation blockade-based protocol developed for solid organ transplantation for use in stem cell transplantation. The protocol combines a donor-specific transfusion (DST) with anti-CD154 antibody to induce peripheral transplantation tolerance. When applied to stem cell transplantation, administration of DST, anti-CD154 antibody, and allogeneic bone marrow led to hematopoietic chimerism and central tolerance with no myeloablation (i.e. no radiation) and no GVHD in 3 different strains of mice. The development of donor-specific tolerance in this system was shown to involve deletion of both peripheral host alloreactive CD8+ T cells and nascent intrathymic alloreactive CD8+ T cells. In the absence of large numbers of host alloreactive CD8+ T cells, the cell transfusion that precedes transplantation need not be of donor-origin, suggesting that both allo-specific and non-allo-specific mechanisms regulate engraftment. Agents that interfere with peripheral transplantation tolerance partially impair establishment of chimerism. I conclude that robust allogeneic hematopoietic chimerism and central tolerance can be established in the absence of host myeloablative conditioning using a peripheral transplantation tolerance protocol. Hematopoietic Stem Cell Transplantation Transplantation Immunology Transplantation Homologous Transplantation Tolerance Transplantation Chimera Radiation Chimera Transplantation Conditioning Graft vs Host Disease Amino Acids, Peptides, and Proteins Animal Experimentation and Research Endocrine System Diseases Immune System Diseases Immunology and Infectious Disease Nutritional and Metabolic Diseases Surgical Procedures, Operative Therapeutics
39	Rôles de l'IL-9 dans les mécanismes de rejet d'allogreffe dirigés par les lymphocytes TCDA+ de type Th2 Poulin, Lionel 24 May 2005 (has links) Le rejet d’allogreffe dépend de la reconnaissance d’antigènes d’histocompatibilité étrangers par le système immunitaire du receveur. En l'absence de thérapies immunosuppressives, la réaction inflammatoire éventuelle conduit à la destruction rapide du tissu transplanté. Le rôle critique joué par les lymphocytes T CD4+ dans le rejet aigu d'allogreffe est bien établi. Cependant, les contributions respectives des lymphocytes CD4+ Th1 et Th2 dans la réaction de rejet sont controversées. Alors que le rôle des cellules Th1 dans la pathogénèse du rejet est bien établi, l'hypothèse que les cellules Th2 favorisent l'acceptation de la greffe est invalide puisque ces cellules sont capables de déclencher des voies alternatives de rejet. En effet, la fonction effectrice des lymphocytes Th2 a été démontrée dans beaucoup de modèles de rejet de greffe ou de tumeur, et dans la maladie du greffon contre l'hôte. Les caractéristiques principales du rejet de type Th2 sont sa dépendance envers la production d'IL-4 et d'IL-5, le recrutement d'éosinophiles au site du rejet, et son inhibition par les lymphocytes T CD8+ alloréactifs. Les éosinophiles activés exercent leur activité cytotoxique par la libération de plusieurs molécules cytotoxiques comme l’EDN, l’ECP, la MBP et l’EPO. Ces molécules sont probablement responsables de la capacité des éosinophies à affecter la perméabilité vasculaire et à induire des dégâts tissulaires dans les organes rejetés.<p><p>L'interleukine 9 (IL-9) est une cytokine produite par les lymphocytes T qui joue un rôle important dans les voies effectrices Th2. Dans la littérature, l’IL-9 est fortement associée au développement de l’éosinophilie tissulaire. Dans notre première étude, nous avons analysé le rôle joué par l'IL-9 dans le rejet d'allogreffe bm12 par des souris B6 (pour C57BL/6), un modèle dans le lequel une simple disparité au niveau de la molécule du CMH de classe II favorise une réaction inflammatoire de type Th2. Dans ce modèle, de faible alloantigénicité, les greffes cardiaques bm12 survivent presque indéfiniment dans les receveurs B6 (>60 jours). Nos expériences ont été conçues afin de savoir si l’expression de l’IL-9 au niveau de la greffe pouvait modifier la survie de greffes cardiaques exprimant les alloantigènes bm12. Nous avons ainsi montré que la production locale d’IL-9 induit le rejet des allogreffes cardiaques exprimant l’alloantigène I-Abm12 (survie <30jours). Aucun des organes transgéniques pour l’IL-9 n’a survécu plus de 30 jours alors que des greffes non transgéniques ne furent pas rejetées (>50 jours). L’analyse histologique des allogreffes cardiaques transgéniques pour l’IL-9 montre une infiltration cellulaire dense du myocarde. La composante principale de cet infiltrat est la présence de nombreux éosinophiles. <p><p>Pour étudier la contribution des cytokines de type Th2, comme l’IL-4 et l’IL-5, dans le rejet des cœurs transgéniques pour l’IL-9, nous avons sélectivement bloqué ces cytokines lors du processus de rejet. Le traitement avec des anticorps neutralisant l’IL-4 bloque complètement le rejet induit par l’IL-9 et permet la survie à long terme des allogreffes cardiaques. Au point de vue de l’histologie ces greffes ne montrent ni infiltration leucocytaire ni artériopathie. Afin de déterminer si l’infiltration éosinophilique induite par l’IL-9 provient de l’activité directe de l’IL-9 ou est le résultat de la sécrétion d’IL-5, un traitement avec un anticorps anti-IL-5 a été appliqué aux receveurs d'allogreffe cardiaque. Ce traitement augmente la survie de la majorité des allogreffes et modifie de manière marquée la composition de l’infiltrat cellulaire en prévenant le recrutement des éosinophiles. De manière intéressante, les cœurs transgéniques pour l’IL-9 qui survivent indéfiniment après le traitement anti-IL-5 arborent une importante fibrose. <p><p>A la différence du cœur bm12, la peau bm12 greffée sur un receveur B6 subit un rejet rapide et l'histologie des greffes rejetées révèle la présence d'infiltrats denses à éosinophiles. Notre laboratoire a montré que ce processus de rejet est dirigé par les lymphocytes T CD4+ alloréactifs et que les souris B6 déficientes pour l'IL-5 et la voie de cytotoxicité Fas/Fas-L sont incapables de rejeter des peaux bm12. Nos premiers résultats laissaient supposer un rôle pour l'IL-9 dans notre modèle de rejet de greffes en disparité des molécules du CMH de classe II: premièrement, nous avions observé la production d'IL-9 par les lymphocytes T de type Th2 alloréactifs et deuxièmement, l'ARNm d'IL-9 était fortement exprimé au niveau des allogreffes de peaux rejetées. C’est pourquoi, la survie de peaux bm12, déficientes pour la molécule Fas, greffées sur des receveurs B6 déficients pour l'IL-9 (B6.IL-9-/-) a été comparée avec celle de peaux transplantées sur des receveurs B6. Nous avons montré que, comme les souris B6 normales, les animaux B6.IL-9-/- rejettent leur greffe dans les 15 jours. Donc, contrairement à l'IL-5, l'IL-9 n'est pas essentielle pour le rejet de peau dirigé par les cellules T CD4+ de type Th2 dans notre modèle de disparité des molécules du CMH de classe II.<p><p>Néanmoins, les allogreffes de peaux, dans notre modèle de disparité des molécules du CMH de classe II, contiennent moins d’éosinophiles lorsqu’elles sont rejetées par des receveurs déficients pour la synthèse d’IL-9 (IL-9-/-). En plus du modèle bm12, nous avons également observé un rôle de l’IL-9 dans un autre modèle de rejet Th2. Il a été montré par notre laboratoire que le rejet d’allogreffes cardiaques Balb/c complètement incompatibles par des souris receveuses B6.CD8-/- est caractérisé par le recrutement d’éosinophiles dans l’organe rejeté (106). Dans celui-ci, l’ARNm de l’IL-9 est présent pendant le rejet, de même que l’IL-4 et l’IL-5 et les greffes rejetées par des receveurs IL-9-/- contiennent moins d’éosinophiles par rapport à des receveurs contrôles. Les mécanismes par lesquels l’IL-9 induit le recrutement des éosinophiles ne sont pas complètement connus.<p><p>L’IL-5 est considérée comme la cytokine clé pour le développement de l’éosinophilie. De plus, le rejet aigu des cœurs transgéniques pour l’IL-9 est caractérisé par une infiltration massive d'éosinophiles et est inhibé lors de la neutralisation de l'IL-5. Nous avons entrepris la seconde étude pour investiguer le lien fonctionnel entre l’IL-9 et l’IL-5 dans le rejet d’allogreffe, ce qui permettra de mieux comprendre le recrutement des éosinophiles par l’IL-9.<p><p>Bien que le rejet ne soit pas inhibé par le manque d’IL-9, les allogreffes rejetées par les souris déficientes en IL-9 contiennent moins d’éosinophiles par rapport à des souris contrôles et présentent une production plus faible d’IL-5 par les cellules T alloréactives. De manière intéressante, la production optimale d’IL-5 après une stimulation allogénique requiert un récepteur à l’IL-9 (IL-9R) fonctionnel sur les cellules répondeuses. De plus, l’infiltration d’éosinophiles induite par l’IL-9 est absente dans des peaux transplantées sur des receveurs déficients pour le récepteur de l’IL-9. Finalement, la production d’IL-5 par des cellules T CD4+ stimulées par l’anti-CD3 est abolie par la neutralisation de l’IL-9. <p><p>En conclusion, nous pouvons dire que l'IL-9 est capable d'induire un rejet de type Th2, caractérisé par une forte infiltration d’éosinophiles et une dépendance à l'IL-5 et à l'IL-4. Notre étude montre également que l’IL-9 peut agir directement sur les cellules T CD4+ pour induire leur capacité à sécréter de l’IL-5. Cependant, l’IL-9 n’est pas indispensable au processus de rejet Th2 et il est probable que lorsque l’IL-9 est bloquée d'autres cytokines soient capables de compenser son absence. Notre étude permet une meilleure compréhension des voies complexes du recrutement des éosinophiles.<p> / Doctorat en sciences biomédicales / info:eu-repo/semantics/nonPublished Disciplines biomédicales diverses Médecine pathologie humaine Homografts Transplantation immunology Graft rejection Isoantigens T cells Homogreffes Greffe (Chirurgie) -- Immunologie Coeur -- Greffe -- Immunologie Rejet (Biologie) Isoantigènes Lymphocytes T rejet coeur peau transplantation interleukine IL-9 Th2 CD4 allogreffe lymphocyte
40	Study of Physiologic and Immunologic Incompatibilities of Pig to Human Transplantation Chihara, Ray K. January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Solid organ transplantation is limited by available donor allografts. Pig to human transplantation, xenotransplantation, could potentially solve this problem if physiologic and immunologic incompatibilities are overcome. Genetic modifications of pigs have proven valuable in the study of xenotransplantation by improving pig to human compatibility. More genetic targets must be identified for clinical success. First, this study examines platelet homeostasis incompatibilities leading to acute thrombocytopenia in liver xenotransplantation. Mechanisms for xenogeneic thrombocytopenia were evaluated using liver macrophages, Kupffer cells, leading to identification of CD18, beta-2 integrin, as a potential target for modification. When disruption of CD18 was accomplished, human platelet binding and clearance by pig Kupffer cells was inhibited. Further, human and pig platelet surface carbohydrates were examined demonstrating significant differences in carbohydrates known to be involved with platelet homeostasis. Carbohydrate recognition domains of receptors responsible for platelet clearance Macrophage antigen complex-1 (CD11b/CD18) and Asialoglycoprotein receptor 1 in pigs were found to be different from those in humans, further supporting the involvement of platelet surface carbohydrate differences in xenogeneic thrombocytopenia. Second, immunologic incompatibilities due to antibody recognition of antigens resulting in antibody-mediated rejection were studied. Identification of relevant targets was systematically approached through evaluation of a known xenoantigenic protein fibronectin from genetically modified pigs. N-Glycolylneuraminic acid, a sialic acid not found in humans, was expressed on pig fibronectin and was identified as an antigenic epitope recognized by human IgG. These studies have provided further insight into xenogeneic thrombocytopenia and antibody-mediated rejection, and have identified potential targets to improve pig to human transplant compatibility. Transplantation Xenotransplantation Thrombocytopenia Antibody-mediated rejection Medicine -- Research -- Animal models Transplantation immunology -- Research Graft rejection -- Research Swine -- Physiology -- Research Kupffer cells Compatibility testing (Hematology) Animal biotechnology -- Research Antigens -- Analysis Blood platelets -- Activation Homeostasis -- Research -- Analysis

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