Global ETD Search

111	Investigating the deleterious effects of type 1 diabetes mellitus on microvascular repair in the mouse cortex Mehina, Eslam 25 May 2021 (has links) Microglia and brain-resident macrophages are the sentinel immune cells of the central nervous system (CNS), and are ideally situated to respond to any damage to the brain parenchyma or vasculature. Circulating leukocytes are generally excluded from the CNS environment under homeostatic conditions but can gain access to this region in diseases that disrupt immune system function and blood-brain barrier integrity. Although these diverse immune cells exhibit properties that may engender them to be well-suited to resolve microcirculatory insults, their relative contributions to the recanalization of capillary rupture in the cortex, known as cerebral microbleeds (CMBs), has yet to be described. CMBs are particularly concerning in conditions, such as diabetes mellitus (DM), in which these insults occur more frequently and potentially underlie the onset and progression of cognitive decline. Using in vivo 2-photon microscopy and confocal imaging, here I highlight the compromised repair of CMBs in a mouse model of type 1 DM and characterize the robust, heterogeneous macrophage response to these insults. Specifically, 20% of damaged capillaries were eliminated from the circulation in the diabetic cortex and chronic insulin treatment failed to prevent this microvascular loss. Administration of interferon-α or interferon-γ neutralizing antibodies to dampen inflammatory signalling, or dexamethasone to reduce global inflammation, also failed to improve repair rates of damaged microvessels in diabetic mice. In contrast, CMBs in nondiabetic mice repaired without exception. Interestingly, depletion of CNS macrophages using the colony stimulating factor-1 receptor antagonist PLX5622 resulted in microvascular elimination in nondiabetic mice. Given the robust depletion of brain macrophage populations with this treatment, at first these data suggested that these cells were necessary for microvascular repair since their elimination produced vessel loss. However, by parsing the data I identified that microvessels repaired in all cases where macrophages were not identified at the CMB; when CX3CR1+ aggregate was localized to the injury, ~20% of microvessels were eliminated. These findings show that CNS macrophages are not required for microvascular repair following CMB. Immunofluorescent co-labelling of various microglial and macrophage markers within the diabetic CMB milieu revealed a novel population of Mac2+/TMEM119- cells, distinct from homeostatic TMEM119+ microglia. These cells reliably localized to CMBs that failed to repair and rarely associated with vessels that recanalized; Mac2+/TMEM119- cells were not found within nondiabetic CMBs. Treatment of diabetic mice with clodronate liposomes (CLR) to deplete circulating phagocytic leukocytes prevented aggregation of Mac2+/TMEM119- cells to CMBs and improved capillary repair rates. The efficacy of CLR in excluding these cells from the CMB aggregate, coincident with eradication of monocytes from circulation, indicated that these cells likely arose from the periphery. In vivo 2-photon imaging revealed significant increases in lipofuscin at the site of diabetic CMBs relative to the nondiabetic context; other phagocytic markers including CD68 and TREM2 were also upregulated. Mac2+/TMEM119- cells showed elevated lipofuscin content relative to homeostatic microglia; their association with CMBs may thus signal an increase in phagocytosis that contributes to capillary pruning. Taken together, these data identify a novel Mac2+/TMEM119- macrophage associated with pathological microvascular elimination following CMB in the diabetic neocortex. These findings highlight the diversity of immune cell responses to CNS injury and provide insights into the cellular mechanisms of capillary pruning. Furthermore, these advances in our understanding of the regulation of microvascular elimination in the diabetic brain may have clinical implications for patients with DM as they provide evidence for putative adjuvant anti-inflammatory treatments, such as CLR, in mitigating cerebrovascular pathology. / Graduate / 2022-05-06 microvessel cerebral microbleed vascular repair inflammation immune cells microglia macrophage Mac2 type 1 diabetes mellitus 2-photon confocal in vivo imaging clodronate phagocytosis
112	Pulsed Infrared Light Therapy Does Not Increase Nitric Oxide Concentration in the Blood of Patients With Type 1 and Type 2 Diabetes Mellitus Arnall, David A., Nelson, Arnold G., Stambaugh, Laura, Sanz Sevilla, Núria, Cebrià I Iranzo, M. Àngels, López Bueno, Laura, Sanz, Isabel, Arnall, Sheridan B. 01 September 2009 (has links) The purpose of this study was to determine if NO blood concentrations increased acutely following an 8-week course of pulsed infrared light therapy (PILT) which could be linked to an improvement in peripheral protective sensation (PPS) in patients who have profound chronic diabetic peripheral neuropathy. A total of 22 subjects with the diagnosis of type 1 (N = 2) or type 2 (N = 20) diabetes participated in the study. PILT was administered to one foot chosen at random with the other foot serving as a within-subject control (no treatment). Patients underwent 24 treatments (3 times/week, for 8 weeks) for 30 min per treatment. Venous blood samples were taken during the last 5 min of treatment from veins in the dorsum of the control and experimental feet and were later analyzed for NO concentration. Contrary to the popular supposition, PILT treatments actually resulted in a significantly (P < 0.05) decreased concentration of NO. Additionally, there were no significant differences between the treated and untreated feet. Since in individuals where PILT has significantly improved PPS, PILT did not stimulate an increased NO content in the blood, it appears that infrared light improves peripheral protective sensation in patients by a mechanism other than an increased NO production. infrared light infrared light modality peripheral neuropathy peripheral protective sensation physical therapy PILT type 1 diabetes mellitus type 2 diabetes mellitus
113	The Restorative Effects of Pulsed Infrared Light Therapy on Significant Loss of Peripheral Protective Sensation in Patients With Long-Term Type 1 and Type 2 Diabetes Mellitus Arnall, D., Nelson, A. G., López, L., Sanz, N., Iversen, L., Sanz, I., Stambaugh, L., Arnall, S. B. 01 May 2006 (has links) Pulsed infrared light therapy (PILT) has been shown to increase peripheral sensation in diabetic patients with diabetic peripheral neuropathy (DPN). However, most studies last for very short periods, with the subjects receiving only 6-20 treatments. The purpose of this study was to evaluate the effectiveness of an eight-week course of PILT in reversing long-standing, profound DPN in patients with type 1 and type 2 diabetes. Twenty-two subjects with a diagnosis of type 1 (n=2) or type 2 (n=20) diabetes participated in the study. PILT was administered to one foot chosen at random with the other foot serving as a within-subject control (no treatment). Patients underwent 24 treatments (3 times/week, for eight weeks) for 30 min per treatment. Changes in peripheral protective sensation (PPS) were measured using Semmes-Weinstein monofilaments (SWM) ranging from 3.7 to 6.48. PILT improved PPS even in patients with long-standing chronic neuropathies whose initial pre-study sensation was not measurable with a 200-g SWM. PILT significantly improves PPS. While the exact mechanism of action is not understood, infrared light may improve peripheral neuropathies by improving foot perfusion by stimulating nitric oxide production. infrared light modality loss of protective sensation peripheral neuropathy peripheral protective sensation physical therapy pulsed infrared light therapy Semmes-Weinstein monofilaments type 1 diabetes mellitus type 2 diabetes mellitus
114	Viruses Implicated in the Initiation of Type 1 Diabetes Affect β Cell Function and Antiviral Innate Immune Responses: A Dissertation Gallagher, Glen R. 10 June 2016 (has links) The increasing healthcare burden of type 1 diabetes (T1D) makes finding preventive or therapeutic strategies a global priority. This chronic disease is characterized by the autoimmune destruction of the insulin-producing β cells. This destruction leads to poorly controlled blood glucose and accompanying life threatening acute and chronic complications. The role of viral infections as initiating factors for T1D is probable, but contentious. Therefore, my goal is to better characterize the effects of viral infection on human β cells in their function of producing insulin and to define innate immune gene responses in β cells upon viral infection. These aspects were evaluated in various platforms including mice engrafted with primary human islets, cultured primary human islets, β cells derived from human stem cells, and a human β cell line. Furthermore, the contributions of cell-type specific innate immune responses are evaluated in flow cytometry-sorted primary human islet cells. Taken together, the results from these studies provide insights into the mechanisms of the loss of insulin production in β cells during virus infection, and characterize the antiviral innate immune responses that may contribute to the autoimmune destruction of these cells in T1D. Type 1 Diabetes Mellitus Innate Immunity Insulin Insulin-Secreting Cells Dissertations, UMMS Diabetes Mellitus, Type 1 Immunity, Innate Endocrine System Diseases Immunity Immunology of Infectious Disease Virology
115	Characterizing the Effects of Novel Compounds on Pancreatic Islets for Type 1 Diabetes Bogart, Maislin C. 19 May 2023 (has links) No description available. Biology Biomedical Research Cellular Biology type 1 diabetes mellitus islets beta-cells therapeutics cytokines inflammation insulin secretion intracellular calcium ER stress
116	Análise da expressão gênica global de células estromais mesenquimais e de células tronco hematopoéticas isoladas da medula óssea de pacientes com diabetes mellitus do tipo 1 / Global gene expression analysis of mesenchymal stromal cells and hematopoietic stem cells isolated from bone marrow of type 1 diabetes patients Lima, Kalil William Alves de 25 February 2013 (has links) O diabetes mellitus do tipo 1 (T1D) é uma doença autoimune mediada por células T e caracterizada pela destruição seletiva das células ? pancreáticas produtoras de insulina. Células estromais mesenquimais (MSCs) e células tronco hematopoéticas (HSCs) são os principais componentes do nicho hematopoético na medula óssea. Estas células vêm sendo utilizadas nos últimos anos em transplantes autólogos para tratamento do T1D. O objetivo geral do presente trabalho foi avaliar o perfil de expressão gênica global de MSCs e HSCs de pacientes com T1D e compará-lo com células isoladas de indivíduos saudáveis através da técnica de microarray e programas específicos de bioinformática. As MSCs e HSCs foram isoladas da medula óssea de pacientes com T1D antes e após o tratamento com imunossupressão em altas doses seguida pelo transplante autólogo de células tronco hematopoéticas (AHSCT). As MSCs apresentaram valor elevado de expressão absoluta de diversas moléculas potencialmente relacionadas com suas funções de suporte à hematopoese. MSCs de pacientes diabéticos apresentaram perfil de expressão gênica global distinto das isoladas de indivíduos saudáveis, com hiper-regulação da sinalização via proteína G e hiporregulação da atividade transcricional. O receptor ?3 adrenérgico, assim como a sinalização simpática, foram hiper-expressos nas células dos pacientes. Genes que codificam moléculas que suportam a hematopoese e regulados pelo sistema nervoso simpático, VCAM1 e CXCL12, foram hiporregulados em nossa análise. Após o AHSCT, houve atenuação do perfil de expressão diferencial das MSCs dos pacientes, entretanto elas permaneceram com hiperatividade da sinalização via proteína G e déficit da atividade transcricional. As HSCs apresentaram altos níveis de expressão absoluta de diversas integrinas e receptores de citocinas e fatores de crescimento, potencialmente relacionados com funções na hematopoese. HSCs de pacientes com T1D apresentaram perfil de expressão gênica global distinto das de indivíduos saudáveis, com hiper-regulação de genes associados com a atividade transcricional. Os fatores de transcrição TCFL2 e p53, que têm papel fundamental na regulação do ciclo celular das HSCs, foram diferencialmente expressos entre as HSCs de pacientes diabéticos e controles. Assim, nossos resultados de expressão gênica global apontaram alterações intrínsecas nas HSCs e MSCs de pacientes diabéticos que podem estar relacionadas com a falha terapêutica dos transplantes autólogos. A implicação dessas alterações no desenvolvimento e patogênese do T1D permanece desconhecida e a realização de ensaios funcionais poderá esclarecer o significado biológico das mesmas. / Type 1 diabetes mellitus (T1D) is a T cell-mediated autoimmune disease, characterized by selective destruction of insulin-producing pancreatic ? cells. Mesenchymal stromal cells (MSCs) and hematopoietic stem cells (HSCs) are the main components of hematopoietic niches. In the last years, these cells are being used in autologous transplantation settings for T1D treatment. The main goal of this study was to evaluate the global gene expression profile of MSCs and HSCs from T1D patients, by using microarrays and bioinformatics specific programs. MSCs and HSCs were isolated from bone marrow of T1D patients before and after treatment with high dose immunossupression followed by hematopoietic stem cell transplantation. MSCs showed high absolute expression values of several molecules potentially related to their function of hematopoiesis support. MSCs from T1D patients exhibited distinct gene expression profile from control MSCs and presented up-regulation of the G protein-coupled receptor signaling pathway and down-regulation of transcriptional activity. The ?3 adrenergic receptor, as well the sympathetic nervous system signaling were up-regulated on patient´s cells. Genes that codify molecules which support hematopoeisis and are regulated by the symphatic nervous system, VCAM1 and CXCL12, were downregulated on our analysis. After AHSCT, there was an attenuation of the differential expression profile of MSCs from T1D patients, however they remained with G proteincoupled receptor signaling pathway hyperactivity and transcriptional activity deficit. HSCs exhibited high absolute expression values of integrins, cytokine receptors and growth factors, molecules potencially related to hematopoietic functions. HSCs from T1D patients showed distinct expression profile from control HSCs and demonstrated up-regulation of genes related to transcriptional activity. The transcription factors TCFL2 and p53, which have important role in regulating HSC cycle, were differentially expressed between HSCs from T1D patients and controls. Thus, our global gene expression analysis has revealed intrinsic alterations on MSCs and HSCs from T1D patients that could be related to the autologous transplant therapeutic failures. The implications of these alterations on the development and pathogenesis of T1D remain unknown and functional assays could unravel their biological meaning. Autoimmunity Autoimunidade Cell therapy Células tronco hematopoéticas Células tronco mesenquimais Diabetes mellitus do tipo 1 Expressão gênica Gene expression Hematopoietic stem cells Mesenchymal stem cells Terapia celular Type 1 diabetes mellitus
117	Associação dos polimorfismos -318C/T, CT60 e A49G do gene CTLA4, R620W do gene PTPN22 e A946T do gene IFIH1 em pacientes pediátricos com doença autoimune tireoidiana e diabetes mellitus tipo 1 / Association of -318C/T, A49G and CT60 polymorphisms of CTLA4 gene, R620W of PTPN22 gene, and A946T of IFIH1 gene in pediatric patients with autoimmune thyroid disease and type 1 diabetes mellitus Bedin, Márcia Regina 12 July 2013 (has links) As doenças autoimunes da tireoide (DAIT) representadas, principalmente pela doença de Graves (DG) e tireoidite de Hashimoto (TH), apresentam causas multifatoriais, incluindo fatores genéticos e ambientais. Diversos genes estão envolvidos, entre eles CTLA4, PTPN22 e mais recentemente IFIH1, principalmente quando associados a diabetes mellitus tipo 1 (DM1). OBJETIVOS: Determinar a frequência alélica e genotípica dos polimorfismos: -318C/T, A49G e CT60 do CTLA4, R620W do PTPN22 e A946T do IFIH1 em pacientes pediátricos portadores de DG, TH e DM1 associado a TH e em uma população controle normal, e determinar a associação com características clínicas e laboratoriais. MATERIAL E MÉTODOS: Foram estudados 142 pacientes menores de 21 anos ao diagnóstico. Os dados clínicos e laboratoriais foram obtidos em prontuário. A genotipagem foi realizada por PCR em tempo real de todos os polimorfismos. Dados clínicos e laboratoriais como sexo, idade de início, bócio, anticorpos anti-GAD, IA2 e IAA e níveis de TRAb e anti-TPO foram analisados. RESULTADOS: Sessenta e dois pacientes foram diagnosticados com DG, com idade média ao diagnóstico (IMD) de 10,8 ± 4,4 anos, sendo 43 do sexo feminino; TH esteve presente em 44 pacientes, sendo 37 meninas, com IMD de 10,3 (± 2,9 anos); e 36 pacientes com DM1 associado a TH, sendo 21 meninas, com IMD de 6,2 (± 4,0 anos) no momento do diagnóstico de DM1 e de 11,6 (± 4,6 anos) ao diagnóstico de TH. O grupo controle foi constituído por 81 indivíduos sem diabetes, função tireoidiana normal e ausência de anticorpos antitireoidianos. Todos os polimorfismos estavam em equilíbrio de Hardy-Weinberg. O polimorfismo -318C/T não esteve associado com nenhum dos grupos. O alelo de risco G do polimorfismo A49G foi mais frequente em pacientes com TH (p=0,047) e o genótipo patogênico (AG e GG) foi mais frequente em pacientes com DG (p=0,049). O alelo de risco G do polimorfismo CT60 foi mais frequente apenas em pacientes com DG (p=0,035). O alelo de risco T do polimorfismo R620W foi mais frequente em pacientes com DM1 associado a TH (p=0,043). O alelo de risco T do polimorfismo A946T foi mais frequente em pacientes com DM1 associado a TH (p=0,009), assim como o genótipo patogênico (CT e TT) quando comparado ao grupo controle (p=0,007). Quando agrupamos todas as DAIT, observamos associação com A49G (p=0,024) e R620W (p=0,047). Quando agrupamos apenas pacientes com TH, encontramos diferença no A49G (p=0,018) e no A946T (p=0,041). O polimorfismo CT60 foi associado com menor duração da terapia medicamentosa no grupo DG (p=0,004), mas não com os níveis de TRAb ou presença de bócio. No DM1 com HT, o alelo de risco do A49G foi mais frequentemente encontrado no sexo masculino (p=0,04); R620W foi relacionado com a presença de bócio (p=0,03), enquanto A946T foi associado com níveis de anti-TPO mais baixos (p=0,047). Os níveis de anti-GAD, IA2 e Resumo IAA não foram associados aos polimorfismos. CONCLUSÃO: Encontramos associações genéticas diferentes entre os pacientes com DAIT, sugerindo que as crianças possuem provavelmente padrões genéticos distintos, apesar do menor tempo de exposição a fatores ambientais / Autoimmune thyroid diseases (AITD) represented by Graves\' disease (GD) and Hashimoto\'s thyroiditis (HT), have multifactorial causes, including genetic and environmental factors. Several genes are involved, including CTLA4, PTPN22 and more recently IFIH1, especially when associated with type 1 diabetes (T1D). OBJECTIVES: To determine the allelic and genotypic frequencies of the polymorphisms: -318C/T, A49G and CT60 of CTLA4, R620W of PTPN22 and A946T of IFIH1 in pediatric patients with GD, HT and T1D associated with HT and in a control population and determine association with clinical and laboratory features. MATERIAL AND METHODS: We studied 142 patients under 21 years at diagnosis. Clinical and laboratory data were obtained from medical records. Genotyping was performed by real time PCR for all polymorphisms. Clinical and laboratory data were analyzed, such as gender, age of onset, goiter, anti-GAD, IA2 and IAA levels and TRAb and anti-TPO levels. RESULTS: Sixty-two patients were diagnosed with GD, with mean age at diagnosis (MAD) of 10.8 ± 4.4 years, 43 females; HT was present in 44 patients, 37 girls, MAD 10.3 (± 2.9 years) and type 1 diabetes associated with HT was present in 36 patients, 21 girls, MAD 6.2 (± 4.0 years) at diagnosis of T1D and 11.6 (± 4.6 years) at diagnosis of HT. Control group consisted of 81 subjects without diabetes, normal thyroid function and absence of antithyroid antibodies. All polymorphisms were in Hardy-Weinberg equilibrium. The polymorphism -318C/T was not associated with any of the groups. The risk allele G of A49G polymorphism was more frequent in patients with HT (p=0.047) and the pathogenic genotype (AG and GG) was more frequent in patients with GD (p=0.049). The risk allele G of CT60 polymorphism was more frequent only in patients with GD (p=0.035). The risk allele T of R620W polymorphism was more frequent in patients with T1D associated with HT (p=0.043). The risk allele T of A946T polymorphism was more frequent in patients with T1D associated with HT (p=0.009), as well as the pathogenic genotype (CT and TT) compared to control group (p=0.007). When all AITD is grouped, we observed association with A49G (p=0.024) and R620W (p=0.047). Only when patients with HT are grouped, we found differences in A49G (p=0.018) and A946T (p=0.041). CT60 polymorphism was associated with a shorter duration of drug therapy on GD group (p=0.004), but no association with TRAb levels or presence of goiter were found. In T1D with HT, the risk allele of A49G was more often found in males (p=0.04); R620W was associated with presence of goiter (p=0.03), while A946T was associated with anti-TPO levels (p=0.047). The anti-GAD, IAA and IA2 levels were not associated with any polymorphisms. CONCLUSION: We found different genetic associations among patients with AITD, suggesting that children are likely to have distinct genetic background, despite shorter exposure to environmental factors Autoimmune diseases/immunology Diabetes mellitus tipo 1 Doença de Graves/genética Doença de Hashimoto/genética Doenças autoimunes/imunologia Graves disease/genetics Pediatria Pediatry Polimorfismo genético Polymorphism genetic Thyroid diseases/immunology
118	Avaliação da função tímica em pacientes com diabetes mellitus tipo 1 submetidos ao transplante autólogo de células-tronco hematopoéticas / Evaluation of thymic function in type 1 diabetes mellitus patients following autologous hematopoietic stem cell transplantation. Azevedo, Júlia Teixeira Cottas de 19 August 2013 (has links) O diabetes mellitus tipo 1 (DM-1) é uma doença autoimune órgão-específica caracterizada pela destruição seletiva das células pancreáticas produtoras de insulina. A imunossupressão em altas doses seguida do transplante autólogo de células-tronco hematopoéticas (TACTH) constitui uma alternativa terapêutica recente e promissora para o DM-1 recém-diagnosticado, impedindo a progressão da destruição das células pancreáticas produtoras de insulina e induzindo independência insulínica por um período prolongado na maioria dos pacientes. O princípio dessa terapia baseia-se na eliminação das células autorreativas pela imunossupressão intensa e na reconstituição de um sistema imunológico novo e tolerante após o transplante. Com o objetivo de avaliar a função do timo e sua contribuição na geração do repertório de células T nos pacientes com DM-1 após o TACTH, nesse trabalho foram avaliados os níveis de T cell receptor excision circles (TRECs) em células T do sangue periférico e a diversidade do repertório de células T dos pacientes com DM-1 (n=23) antes e em diversos períodos após o transplante. A quantificação absoluta dos níveis de TRECs (número de moléculas de TRECs/100g de DNA) foi realizada pela técnica de PCR em tempo real e a avaliação do repertório de células T foi realizada pela técnica de TCRBV CDR3 Spectratyping. Dentre os vinte e três pacientes, vinte alcançaram a independência insulínica por períodos variáveis de tempo e três não responderam ao tratamento. Não foi observada a restrição do repertório de células T nos pacientes com DM-1 no período pré-transplante, ou seja, quando recém-diagnosticados. Foram identificadas cinco famílias V (7, 18, 19, 20 e 22) em expansão clonal nos pacientes com DM-1. As famílias V 7, 18, 19, 20 apresentaram-se em expansão clonal antes do transplante e se mantiveram com frequência elevada após o transplante, enquanto a família V 22 apresentou aumento da frequência somente nos períodos mais tardios após o transplante. Nos primeiros meses após o transplante, houve redução do número de moléculas de TRECs e restrição do repertório de células T. Contudo, um ano após o transplante, o número de moléculas de TRECs atingiram valores normais e o repertório de células T apresentou-se com ampla diversidade. Nossos resultados mostraram que o TACTH foi capaz de induzir mudanças na composição do repertório de células T dos pacientes com DM-1 após a terapia de IAD/TACTH, evidenciadas por alterações qualitativas e quantitativas dos picos de CDR3 do TCR, sugerindo a reconstituição de um repertório de células T diverso até dois anos pós-transplante. Embora tenha ocorrido reativação da função tímica após o transplante, evidenciada pelo aumento dos níveis de TRECs de um ano e meio a cinco anos pós-transplante, a diversidade do repertório das células T diminuiu a partir de dois anos e meio pós-transplante, sugerindo uma reconstituição tímica de novo de células T naive que expressam preferencialmente algumas cadeias V. Estas evidências imunológicas poderiam explicar a melhora clínica (independência insulínica) temporária observada na maioria dos pacientes após a terapia de IAD/TACTH. / Type 1 diabetes mellitus (T1D) is an organ-specific autoimmune disease characterized by insulin-producing pancreatic cell destruction. High-dose immunosuppression followed by autologous hematopoietic stem cell transplantation (AHSCT) is a recent and promising therapeutic approach for treatment of T1D, preventing the progress of destruction of pancreatic cells and inducing insulin independence for a prolonged period in most patients. The rationale of the AHSCT is based on the elimination of autoreactive cells by the intense immunosuppression and on the reconstitution of a new and tolerant immune system after transplantation. Aiming at assessing the thymic role in the production of new T cell repertoire in T1D patients after AHSCT, in this study was evaluated the levels of T cell receptor excision circles (TRECs) in T cells of peripheral blood as well as the clonality and diversity of T cell repertoire in T1D patients (n=23) before and several periods after transplantation. The absolute quantification of TRECs levels (number of molecules of TRECs/100ng of DNA) was performed by real-time PCR and the analysis of T cell repertoire was performed by TCRBV CDR3 Spectratyping. Among the twenty-three patients, twenty achieved insulin independence for variable periods and three did not respond to the treatment. The T cell repertoire in T1D patients was not restricted in pre-transplantation, i.e., when newly diagnosed. It was identified five V families (7, 18, 19, 20 e 22) in the clonal expansion in T1D patients. The V families 7, 18, 19, 20 were in clonal expansion before transplantation and maintained with high frequency after transplantation, whereas the V 22 family increased its frequency only in the later periods after transplantation. It was observed that the numbers of molecules of TRECs decreased and the T cell repertoire was restricted in the early months after transplantation. However, the levels of TRECs were normalized and the T cell repertoire showed diversity one year after transplantation. Our results indicate that AHSCT was able to induce changes in the composition of the T cell repertoire of patients after AHSCT, evidenced by qualitative and quantitative changes in the composition of T-cell receptor -chain CDR3 peaks, suggesting the reconstitution of diverse T cell repertoire up to two years after transplantation. Although there was reactivation of thymic function after transplantation, as evidenced by increased levels of TRECs from one and a half year to five years after transplantation, the diversity of the T cells repertoire decreased from two and a half years after transplantation, suggesting a reconstruction of new naive T cells that preferentially express some V chains. These immunological evidences could explain the temporary clinical improvement (insulin independence) observed in most patients after IAD / AHSCT therapy. CDR3 CDR3 Diabetes mellitus tipo 1 Immune reconstitution Receptor de célula T Reconstituição imunológica T cell receptor Thymus Timo TREC. TREC. Type 1 Diabetes mellitus
119	Associação do polimorfismo INS-VNTR com a susceptibilidade ao diabetes mellitus tipo 1, tipo 2 e gestacional na população urbana brasileira / Association of the INS-VNTR polymorphism with susceptibility to type 1, type 2 and gestational diabetes mellitus in the urban brazilian population Pelá, Flávia Porto 19 October 2012 (has links) O diabetes mellitus (DM) é definido como doença metabólica, caracterizado pela hiperglicemia, causada pela disfunção da secreção de insulina, atividade da insulina ou ambas. É classificado em quatro classes clínicas i) diabetes mellitus tipo 1 (DM1), ii) diabetes mellitus tipo 2 (DM2), iii) diabetes mellitus gestacional (DMG), iv) outros tipos específicos. Dentre os genes conhecidos por influenciarem o mecanismo de produção e liberação de insulina no organismo humano, o gene da insulina (INS) é o mais bem caracterizado nas classes clínicas do DM. A região promotora do gene INS tem sido alvo de estudo em diversas amostras populacionais do mundo, devido a sua capacidade de modular os níveis de expressão de insulina no timo e no pâncreas, de acordo, com a classe alélica que compõe o genótipo do indivíduo. Localizada a 596pb acima do sítio de transcrição do gene da insulina, é estruturada em alelos minissatélites distribuídos in tandem (ACAGGGGTGTGGGG). O alelo classe I (30 - 60 repetições) tem sido associado com predisposição ao DM1, enquanto o alelo classe III (120 - 170 repetições) tem efeito de proteção ao DM1, no entanto, esse alelo tem apresentado correlação ao DM2, à obesidade em crianças e jovens e, aumento de riscos cardiovasculares. O presente trabalho tem como objetivo analisar o polimorfismo da região promotora do gene da insulina sobre os fenótipos do DM e a possível influência desse em características demográficas, clínicas e laboratoriais desses pacientes. Foram analisados 189 pacientes com DM1, 116 pacientes com DM2, 68 pacientes com DMG e 339 indivíduos controle da região de Ribeirão Preto, SP. O DNA genômico foi extraído por salting-out, seguido da amplificação e digestão enzimática do fragmento referente a região promotora do gene INS, o qual contém na sequência downstream, o polimorfismo -23HphI, cujo desequilíbrio de ligação (r2 1) com o polimorfismo INSVNTR, permite inferir os genótipos por intermédio da análise do polimorfismo -23HphI. Observamos que o alelo classe I e o genótipo classe I : classe I estão relacionados à predisposição ao DM1, enquanto o alelo classe III, predominantemente em homozigose, está associado à proteção ao DM1. Em relação ao DM2, o genótipo classe I : classe III foi associado à susceptibilidade a doença e, nenhum genótipo foi correlacionado ao DMG. De acordo com os dados demográficos, clínicos e laboratoriais, variáveis como gênero e pigmentação da pele têm influenciado na frequência do polimorfismo INSVNTR em pacientes com DM1, como por exemplo, a maior frequência de homens com genótipo classe I : classe I no conjunto DM1. Em contrapartida, nesse mesmo grupo de pacientes, o genótipo classe III : classe III evidenciou maior susceptibilidade ao desenvolvimento de retinopatia (p=0,0020; OR= 0,05333; 95% I.C. 0,007839 - 0,3629). Em pacientes com DM2, a comparação entre gêneros evidenciou maior frequência do genótipo classe III : classe III em mulheres. E, em relação ao DMG, os genótipos de classe I : classe I e classe I : classe III estavam associados ao menor nível de glicose no plasma sanguíneo em relação as pacientes que exibiam o genótipo classe III : classe III. Esse é o primeiro estudo de associação do polimorfismo INS-VNTR comparando as três principais classes clínicas de DM oriundas de uma mesma amostra geográfica, sendo evidenciado um perfil genotípico padrão de susceptibilidade de acordo com o tipo de DM. / Diabetes mellitus (DM) is defined as a metabolic disorder characterized by hyperglycemia caused by impaired insulin secretion, insulin activity or both. It is classified into four clinical classes i) type 1 diabetes mellitus (T1DM), ii) type 2 diabetes mellitus (T2DM), iii) gestational diabetes mellitus (GDM), iv) other specific types. Among the genes known to influence the mechanism of production and release of insulin, the insulin gene (INS) has been well characterized in disease susceptibility. The INS promoter has been studied in different worldwide populations due to its ability to modulate expression levels of insulin in the thymus and pancreas, in accordance with the type of diabetes. The major polymorphic site is located 596bp upstream from the translation initiation site of the INS gene and it is structured into minisatellite alleles (ACAGGGGTGTGGGG). The shorter class I alleles (30 60 repeats) confers predisposition to DM1 and the longer class III (120 170 repeats) confers protection to DM1; however, the latter allele has also shown to be correlated with DM2, obesity in children and juvenile individuals, and increased cardiovascular risks. This study aims to analyze the association of a polymorphic site at promoter region of the INS gene with diabetes phenotypes, with the purpose of evaluating this region as a possible genetic marker of the disease, and the possible influence on demographic, clinical and laboratory features in a sample of the urban Brazilian population. We analyzed 189 T1DM patients, 116 T2DM patients, 68 GDM patients and 339 healthy individuals from the region of Ribeirão Preto, SP. DNA extraction was performed using a salting-out procedure, followed by amplification and restriction enzyme digestion of the fragment relating to INS gene promoter, which contains another polymorphism, -23HphI, which is in perfect linkage disequilibrium (r2 1) with the INS-VNTR, making it an useful genetic marker. We observed that the class I allele and class I : class I genotype are associated with predisposition to T1DM, whereas, class III allele, predominantly in homozygosity, is associated to T1DM protection. In relation to T2DM, the class I : class III genotype has been associated with susceptibility to disease. Finally, no genotype was correlated with GDM. Data stratification according to demographical, clinical and laboratory variables, indicated that gender, skin color seemed to influence the frequency of the INS-VNTR polymorphism; i. e., the class I : class I genotype was more frequent in male T1DM patients. On the other hand, the presence of the class III : class III genotype was associated with susceptibility the development of retinopathy (p=0,0020; OR= 0,05333; 95% I.C. 0,007839 - 0,3629). In T2DM patients, a trend association was observed between the class III : class III genotype with female diabetic patients. In relation to GDM, the genotypes class I : class I and class I : class III were associated with decreased glucose levels in relation to patients exhibiting the class III : class III genotype. This is the first study of the INS-VNTR polymorphism encompassing the major types if DM patients from the same geographical region, which showed a differential pattern of susceptibility according to the underlying type of DM. -23HphI -23HphI INS-VNTR INS-VNTR Brazilian population Diabetes mellitus gestacional Diabetes mellitus tipo 1 Diabetes mellitus tipo 2 Gestational diabetes mellitus Insulina População brasileira Type 1 diabetes mellitus Type 2 diabetes mellitus
120	Análise Integrativa de Perfis Transcricionais de Pacientes com Diabetes Mellitus Tipo 1, Tipo 2 e Gestacional, Comparando-os com Manifestações Demográficas, Clínicas, Laboratoriais, Fisiopatológicas e Terapêuticas / Integrative Analysis of Transcriptional Profiles in Type 1, Type 2 and Gestational Diabetes Mellitus, Compared with Demographic, Clinical, Laboratory, Physiopathology and Therapeutic Manifestations. Evangelista, Adriane Feijó 09 March 2012 (has links) O diabetes mellitus tipo 1 (DM1) tem etiologia autoimune, enquanto o diabetes mellitus tipo 2 (DM2) e o diabetes mellitus gestacional (DMG) são considerados como distúrbios metabólicos. Neste trabalho, foi realizada análise do transcriptoma das células mononucleares do sangue periférico (do inglês, peripheral mononuclear blood cells - PBMCs), obtidas de pacientes com DM1, DM2 e DMG, realizando análises por module maps a fim de comparar características patogênicas e aspectos gerais do tratamento com anotações disponíveis de genes modulados, tais como: a) análises disponíveis a partir de estudos de associação em larga escala (do inglês genome-wide association studies GWAS); b) genes associados ao diabetes em estudos clássicos de ligação disponíveis em bancos de dados públicos; c) perfis de expressão de células imunológicas fornecidos pelo grupo ImmGen (Immunological Project). Foram feitos microarrays do transcriptoma total da plataforma Agilent (Whole genome onecolor Agilent 4x44k) para 56 pacientes (19 DM1, 20 DM2 e 17 DMG). Para a compreensão dos resultados foram aplicados filtros não-informativos e as listas de genes diferencialmente expressos foram obtidas por análise de partição e análise estatística não-paramétrica (rank products), respectivamente. Posteriormente, análises de enriquecimento funcional foram feitas pelo DAVID e os module maps construídos usando a ferramenta Genomica. As análises funcionais contribuíram para discriminar os pacientes a partir de genes envolvidos na inflamação, em especial DM1 e DMG. Os module maps de genes diferencialmente expressos revelaram: a) genes modulados exibiram perfis de transcrição típicos de macrófagos e células dendríticas, b) genes modulados foram associados com genes previamente descritos como genes de complicação ao diabetes a partir de estudos de ligação e de meta-análises; c) a duração da doença, obesidade, número de gestações, níveis de glicose sérica e uso de medicações, tais como metformina, influenciaram a expressão gênica em pelo menos um tipo de diabetes. Esse é o primeiro estudo de module maps mostrando a influência de padrões epidemiológicos, clínicos, laboratoriais, imunopatogênicos e de tratamento na modulação dos perfis transcricionais em pacientes com os três tipos clássicos de diabetes: DM1, DM2 e DMG. / Type 1 diabetes (T1D) is an autoimmune disease while type 2 (T2D) and gestational diabetes (GDM) are considered as metabolic disturbances. We performed a transcriptome analysis of peripheral mononuclear blood cells obtained from T1D, T2D and GDM patients, and we took advantage of the module map approach to compare pathogenic and treatment features of our patient series with available annotation of modulated genes from i) genome-wide association studies; ii) genes provided by diabetes meta-analysis in public databases, iii) immune cell gene expression profiles provided by the ImmGen project. Whole genome one-color Agilent 4x44k microarray was performed for 56 (19 T1D, 20 T2D, 17 GDM) patients. Noninformative filtered and differentially expressed genes were obtained by partitioning and rank product analysis, respectively. Functional analyses were carried out using the DAVID software and module maps were constructed using the Genomica tool. Functional analyses contributed to discriminate patients on the basis of genes involved in inflammation, primarily for T1D and GDM. Module maps of differentially expressed genes revealed that: i) modulated genes exhibited transcription profiles typical of macrophage and dendritic cells, ii) modulated genes were associated with previously reported diabetes complication genes disclosed by association and meta-analysis studies, iii) disease duration, obesity, number of gestations, glucose serum levels and the use of medications, such as metformin, influenced gene expression profiles in at least one type of diabetes. This is the first module map study to show the influence of epidemiological, clinical, laboratory, immunopathogenic and treatment features on the modulation of the transcription profiles of T1D, T2D and GDM patients. Bioinformatic analysis by module maps Bioinformática Diabetes mellitus gestacional Diabetes mellitus tipo 1 Diabetes mellitus tipo 2 Expressão gênica Gene expression Gestational diabetes mellitus Microarrays Microarrays Module maps Type 1 diabetes mellitus Type 2 diabetes mellitus

Search results