Global ETD Search

271	Células dendríticas plasmocitóides, expressão de receptores \"Toll-like\" 9 e 3 e de podoplanina nas lesões cutâneas do Sarcoma de Kaposi associado à síndrome de imunodeficiência adquirida e esporádico / Plasmacytoid dendritic cells and the expression of toll-like receptors 9 and 3 and podoplaninin in cutaneous lesions of Aids-associated Kaposi\'s sarcoma and classic Kaposi\'s sarcoma Soares, Cinara Prata Cirino Castro 25 August 2014 (has links) INTRODUÇÃO: O Sarcoma de Kaposi (SK) é a neoplasia mais frequente dos doentes com Aids. É causada pelo herpes-vírus 8 (HHV-8). As células dendríticas plasmocitóides (CDp) são especializadas na produção de interferon tipo 1 e participam da resposta imune aos vírus. Os receptores \"toll-like\" são os principais receptores de reconhecimento de padrão, sendo que os receptores toll-like (TLR) 3 e 9 têm função no reconhecimento de vírus. O D2-40 é o anticorpo que reconhece a podoplanina, uma proteína transmembrana, presente no endotélio linfático e que tem função na imunidade. OBJETIVO: Demonstrar e comparar os componentes da imunidade inata: CDp e TLR 3 e 9, nas lesões cutâneas de SK associado a Aids e esporádico. Identificar a presença do HHV-8 nas CDp. Verificar o componente endotelial linfático na progressão das lesões de SK e comparar a expressão dos elementos da imunidade inata estudados, nas lesões com menor e maior componente endotelial linfático. MÉTODOS: Estudo retrospectivo de 50 biopsias de pacientes com diagnóstico de SK, todos com comprovação pelo exame histopatológico e demonstração do antígeno nuclear associado à latência (LANA) do HHV-8. Foram avaliados 11 biopsias de SK da forma clássica (SKc), 22 lesões de doentes com Aids (SK-Aids) e de 17 de doentes com Aids submetidos a tratamento com terapia antirretroviral altamente eficaz (SK-Aids/HAART). Os espécimes foram submetidos a exame por técnica imuno-histoquímica para evidenciar a presença de CDp (anticorpo CD303/BDCA-2), a expressão de TLR 3 e 9, bem como de podoplanina (anticorpo D2-40). Foi realizada também técnica de dupla marcação com CD303 e LANA, objetivando a identificação de CDp infectadas pelo HHV-8.Vinte e três espécimes de granuloma piogênico constituíram o grupo controle. A população de CDp e expressão de TLR 3 e TLR 9 também foi comparada nas lesões cutâneas de SK de doentes com e sem comprometimento visceral pela neoplasia; lesões não tumorais (máculo-papulares/placas) foram comparadas às lesões tumorais (nodulares) e de acordo com níveis sanguíneos de linfócitos T CD4+ (menor e igual ou maior que 350 células/mm3). RESULTADOS: As CDp foram mais numerosas nos espécimes de SK-Aids quando comparado com o granuloma piogênico. Foram identificadas CDp infectadas pelo HHV-8. A expressão de TLR 3 foi menor nas lesões de SK, independente da forma epidemiológica, do que no granuloma piogênico. Para todas as outras comparações da densidade de CDp e expressão de TLR 3 e de TLR 9 não houve diferença entre os grupos. Não houve diferença no componente endotelial linfático das lesões máculo-papulares/placas e tumorais do SK, assim como na expressão dos elementos da imunidade inata estudados entre as lesões com maior e menor componente endotelial linfático. CONCLUSÕES: Demonstrou-se pela primeira vez a presença de CDp e a expressão de TLR 3 e 9 em lesões cutâneas do Sarcoma de Kaposi, bem como a infecção de CDp pelo HHV-8 \"in situ\" nos tumores. Os resultados obtidos sugerem a participação das células CDp e do TLR 3 na patogênese das lesões cutâneas do Sarcoma de Kaposi, independente da presença do vírus da imunodeficiência humana. A imunomarcação de SK com o anticorpo D2-40, tanto nas fases precoce como tardia das lesões, confirma a natureza endotelial linfática das células neoplásicas. Esta parece não ter relação com a expressão dos elementos da imunidade inata estudados / Introduction: Kaposi\'s sarcoma (KS) is the most common Aids-associated malignancy. It is caused by human herpesvirus-8. Plasmacytoid dendritic cells (pDC) are professional interferon producing cells, and participate in the immune response against viruses. Toll-like receptors (TLR) are the main pattern recognition receptors, and TLR 3 and TLR 9 participate in the recognition of viruses. Podoplanin, recognized by antibody D2-40, is a transmembrane protein identified on lymphatic endothelial cells with functions inimmunity. Objective: Demonstrate and compare some innate immunity components: pDC, TLR 3 and TLR 9, in cutaneous lesions of Aids-associated Kaposi\'s sarcoma and classic Kaposi\'s sarcoma. Identify the infection of pDC by HHV-8. Compare the lymphatic endothelial component in the course of tumor progression and compare the expression of innate immunity elements in lesions with a predominance of lymphatic endothelial components or not. Methods: Retrospective study of 50 biopsies diagnosed as Kaposi\'s sarcoma withpositive staining for latency-associated nuclear antigen (LANA) of HHV-8. Eleven classic KS, 22 Aids-associated KS and 17 Aids-associated KS from patients undergoing highly active antiretroviral therapy (HAART) were assessed. Paraffinembedded tissue was submitted to immunohistochemistry technique in order to demonstrate pDC (CD303/BDCA-2 antibody), expression of TLR 3, TLR 9 and podoplanin (D2-40 antibody). We performed double staining with CD303 and LANA in order to identify pDC infection with HHV-8. Twenty-three pyogenic granuloma(PG) specimens were analyzed as a control group. Plasmacytoid dendritic cells population, TLR 3 and TLR 9 expressions were compared between patients with and without visceral disease, nodular stageandpatch/plaque stage and according to bloodlymphocytes T CD4 count(=350 cells/mm3). Results: Plasmacytoid dendritic cells density in Aids-associated SK was higher than in PG. We could identify pDC infection by HHV-8. The expression of TLR 3 in all forms of KS was less extensive than PG. All others comparisons about pDC density, TLR 3 and 9expressions were similar. We found no difference in D2-40 expression between nodular and patch/plaque stages. When comparing tumors with extensive expression of D2-40 (>= 50% of cells) and tumors with less expression (<50% of cells), we found no differences in density of pDC and expression of TLR 3 and TLR 9. Conclusion: This is the first time that pDC, TLR 3 and TLR 9 have been demonstrated in skin lesions of KS, as well as the infection of pDC in the lesions. Our results suggest that pDC and TLR 3 participate in the pathogenesis of KS, independently of HIV presence. The positive staining with D2-40 antibody, in all the stages of KS, confirmsthe lymphatic nature of neoplastic cells. It seems that podoplanin is not related to the innate immunity elements studied here Células dendríticas Dendritic cells Herpesvírus humano 8 Human herpesvirus 8 Immunohistochemistry Imunidade inata Imunohistoquímica Innate immunity Kaposi sarcoma Receptor Toll-like 3 Receptor Toll-like 9 Sarcoma de Kaposi Toll-like receptor 9 Toll-like receptor 3
272	Regulation of actin, microtubules and focal adhesions during cell division : a specific role for GAS2-like proteins Nazgiewicz, Alicja January 2014 (has links) My thesis, written in an alternative format, consists of three manuscripts. The first one is published in Journal of Cell Science and is entitled "GAS2-like proteins mediate communication between microtubules and actin through interaction with end-binding (EB) proteins." This article describes the mechanisms of how members of the GAS2 family of proteins mediate the crosstalk between actin and microtubules (MTs). We show that in particular GAS2-like 1 (G2L1) and GAS2-like 2 (G2L2) coordinate this cross-communication, as their exogenous expression leads to the stabilisation of MTs and guidance along actin stress fibres. We found that the association of GAS2-like members with MTs is mediated through their binding to EB proteins. The second article is a follow up story of the first article, in which we further elucidate the role of GAS2-like proteins during cell division. We show that G2L1 localises to the mitotic spindle and cleavage furrow during cell division. G2L1 knockdown leads to reduced cell division rates, multinucleation and nuclear deformation. As for MT guidance along actin filaments, we demonstrate that the binding of G2L1 to EB proteins plays an important role in cell division. Although overexpression of G2L1 had no effect, the expression of a mutant that blocks the association with EB proteins phenocopies the knockdown effect of G2L1 on cell division. Actin and MTs undergo major reorganisation during cell division. This reorganisation involves the fast remodelling of focal adhesions (FAs) but the mechanisms of this remodelling were not clear. In the third paper we demonstrate that the majority of FAs disassemble shortly before cell division and reassemble in newly formed daughter cells during cytokinesis. Interestingly, our data suggest that the regulation of FA disassembly during cell division differs from the disassembly processes during cell migration. While in migrating cells FAs can be stabilised by the expression of constitutively active vinculin (vinT12, known to circumvent the requirement forces for FA stability), this was not case for FAs during cell division. Further experiments using inhibitors suggested that calpain-driven cleavage of FA components but not endocytosis play a key role in FA disassembly during cell division. Altogether, the three manuscripts provide insight into important molecular aspects involved in the regulation of cell cytoskeletal networks and cell adhesion during cell division.
273	Interplay between S-nitrosylation and SUMOylation in plant immunity Skelly, Michael J. January 2015 (has links) Post-translational protein modifications (PTM) vastly increase the complexity and functional diversity of the proteome, to precisely regulate crucial cellular processes. The plant immune system is composed of complex signalling networks that are influenced by various PTMs. Activation of plant immunity is associated with a rapid burst of nitric oxide (NO), which can covalently modify cysteine thiols within target proteins by a process termed S-nitrosylation to form S-nitrosothiols (SNOs), constituting a redox-based PTM. Another key PTM involved in plant immunity is SUMOylation, an essential mechanism involving the conjugation of the small ubiquitin-like modifier (SUMO) peptide to lysine residues within target proteins. Although the targets and mechanisms of S-nitrosylation and SUMOylation are becoming evident, how these key PTMs are themselves regulated remains obscure. Work presented in this thesis reveals that during plant immune signalling, the sole Arabidopsis thaliana SUMO conjugating enzyme, SUMO CONJUGATING ENZYME 1 (SCE1), is S-nitrosylated at a highly conserved, but previously uncharacterized cysteine. S-nitrosylation of SCE1 was shown to inhibit its SUMO conjugating activity in vitro and mutational analysis revealed that the site of this modification, Cys139, is not required for enzyme activity but rather constitutes a redox-sensitive inhibitory switch. Generation and characterization of transgenic Arabidopsis plants overexpressing both wild-type and mutant forms of SCE1 revealed that Cys139 is required for efficient immunity against bacterial pathogens. Furthermore, after immune activation, S-nitrosylation of this residue inhibits global SUMOylation of proteins. These results provide evidence of a novel means of crosstalk between S-nitrosylation and SUMOylation in the context of plant immunity. The abundant cellular antioxidant, glutathione (GSH), is S-nitrosylated to form S-nitrosoglutathione (GSNO), which is thought to constitute a stable reservoir of NO bioactivity. In Arabidopsis, GSNO levels are controlled by the enzyme S-NITROSOGLUTATHIONE REDUCTASE 1 (GSNOR1), which indirectly influences the levels of protein SNOs. In this study, transgenic plants overexpressing FLAG-epitope tagged GSNOR1 were generated in various mutant backgrounds, including nitric oxide overproducer 1 (nox1), to further investigate the roles of GSNOR1 and NO in plant immunity. It was shown that ectopic GSNOR1 expression completely recovers developmental and disease susceptibility phenotypes of gsnor1, but not nox1 mutant plants, highlighting in vivo differences between accumulation of GSNO and free NO. Surprisingly, elevated NO levels in nox1 plants promote S-nitrosylation of GSNOR1, inhibiting its enzymatic activity. This suggests a previously unreported means by which NO might regulate its own bioavailability. Further work in this study revealed that recombinant GSNOR1 can be SUMOylated in vitro, which appeared to increase its enzymatic activity. Several potential SUMO modification sites were identified within GSNOR1 and mutational analysis revealed that at least one of these, Lys191, is SUMOylated. Co-immunoprecipitation experiments revealed that transgenic GSNOR1 might be SUMOylated in vivo, although the site(s) and biological function of SUMOylation were not identified. Nonetheless, these results reveal another possible layer of interplay between S-nitrosylation and SUMOylation. 571.9
274	Efeito do peptídeo liberador de gastrina na resposta inflamatória local e sistêmica : envolvimento na sinalização do receptor Toll-like 4 Petronilho, Fabrícia Cardoso January 2010 (has links) É bem estabelecido que respostas imunes possam ser influenciadas pelo sistema nervoso. O neuropeptídeo, peptídeo liberador de gastrina (GRP) tem sido detectado na produção e liberação de citocinas, em modelo animal e em humanos com doenças inflamatórias e sabe-se que o antagonista do receptor de GRP, RC-3095 modula a resposta de citocinas pro-inflamatórias em macrófagos ativados por lipopolissacarídeo (LPS) molhando a sobrevivência em modelo animal de sepse induzida por ligação e perfuração cecal (CLP). Neste contexto, neste estudo avaliamos o efeito modulatório de GRP em modelos animais de doenças inflamatórias agudas: injúria pulmonar associada à pleurisia induzida por carragenina e sepse induzida por CLP e adicionalmente, em pacientes sépticos através da correlação dos seus níveis com o desfecho clínico. Para esta proposta, no Capítulo 1 avaliamos em pleurisia induzida por carragenina os seguintes parâmetros: migração celular, atividade da lactato desidrogenase, conteúdo de proteínas totais, concentração de nitrito/nitrato e níveis de TNF-α e IL- β no exsudato pleural e atividade da mieloperoxidade e marcadores de dano oxidativo em lipídios e proteínas no tecido pulmonar. Assim, o RC-3095 exibiu significante ação anti-inflamatória através da inibição do influxo de leucócitos e bloqueio da mieloperoxidade, conteúdo de nitrito/nitrato e níveis de citocinas. Além disso, os resultados mostraram que RC-3095 exerce ação contra o dano oxidativo em lipídios e proteínas, bem como o aumento na viabilidade celular. Isto sugere que RC- 3095 tem propriedades anti-inflamatórias que podem estar relacionadas com a redução do dano oxidativo. No Capítulo 2, entretanto, nós seguimos no modelo animal de sepse onde buscamos o entendimento do papel protetor que exerce o RC-3095. Vários estudos sugerem o envolvimento de TLR-4 como um importante elemento de defesa do hospedeiro durante a infecção, e importantes eviências indicam que esses receptores também possuem um papel na patofisiologia da sepse, onde camundongos deficientes de TLR-4 não apresentam falência na migração de neutrófilos para a cavidade peritoneal durante a sepse polimicrobiana induzida por CLP letal, e como conseqüência, foram mais resistentes para sepse que controles. Nossos resultados indicam que este efeito protetor pode ser atribuído para uma atenuação de sinalização de TLR-4 em cultura de células RAW 264.7 estimuladas por LPS e tecido pulmonar em ratos CLP, levando a uma diminuição de citocinas proinflamatórias as quais a via de ativação de GRPR mostra seletividade como verificado no Capítulo 3, possibilitando a explicação dos baixos níveis de citocinas pro-inflamatórias em pacientes sépticos tratados com RC-3095. Esta atenuação favorece a infiltração de neutrófilos, resultando na diminuição de bacteremia preservando o controle da infecção no local melhorando o desfecho da sepse. Nossos resultados ainda mostram que níveis plasmáticos de GRP podem predizer o desfecho na sepse, mas não em pacientes SIRS sugerindo que GRP exerce funções diferenciais nas duas condições e sugere que o antagonismo de GRPR modula a inflamação incontrolada por agir em respostas mediadas por TLR-4 e funcionalidade imunoregulatória. Em conclusão, os presentes resultados indicam que o antagonista de GRPR exerce um papel na inflamação aguda e pode ser utilizado como uma nova terapia alternativa para sepse bacteriana Gram-negativa. / It is well established that immune responses may be influenced by the nervous system. The neuropeptide gastrin-releasing peptide (GRP) has been detected on the production and release of cytokines, both in animal models and humans with inflammatory diseases and reported that the GRP receptor antagonist RC-3095 modulates the response of proinflammatory cytokines in activated macrophages by lipopolysaccharide and improved the survival in an animal model of sepsis induced by cecal ligation and puncture (CLP). Within this context, in this work we evaluate the GRP modulatory effect in animal models of acute inflammatory illnesses: lung injury associated with carrageenan-induced pleurisy, and in CLP-induced sepsis and additionally in septic patients through the correlations of its levels with the clinical outcome. For this purpose, in Chapter 1 we evaluated in carrageenan-induced pleurisy the following parameters: cell migration, lactate dehydrogenase activity, total protein content, nitrite/nitrate concentration, TNF-α and interleukin-1β (IL-1β) levels in pleural exudates; myeloperoxidase activity and lipid and protein oxidative damage markers in lung tissue. Thus, RC-3095 exhibited pronounced anti-inflammatory actions by inhibition of leukocyte influx and blockade of myeloperoxidase, nitrite/nitrate content and cytokine levels. Moreover, the results showed that RC-3095 elicits action against oxidative damage in lipids and proteins, as well as increases cell viability. These suggest that RC-3095 has anti-inflammatory properties that can be related with the reduction of oxidative damage. In Chapter 2, however, we follow the animal model of sepsis where we search the agreement of the protective role that RC-3095 exerts. Increasing evidences suggest the evolvement of TLR-4 as an important element of host defense during an infection, a growing body of evidence indicates that these receptors also may play a role in the pathophysiology of sepsis where TLR-4 defective mice did not present failure of neutrophil migration to the peritoneal cavity during polymicrobial sepsis induced by lethal CLP, and as consequence, they were more resistant to sepsis than controls Our results further indicate that this protective effect can be attributed to an attenuation of TLR-4 signaling in RAW 264.7 cell culture stimulated by LPS and lung tissue in CLP rats, leading to a decrease of release of proinflammatory cytokines which the pathway of activation of GRPR shows selectivity as verified in Chapter 3, and can additionally explain the lower levels of the proinflammatory cytokine in RC-3095-treated septic patients. This attenuation favors neutrophil infiltration, resulting in decreased bacteremia preserving the control of infection in situ improving sepsis outcome. Our finding still show that plasma GRP levels could predict outcome in sepsis but not SIRS patients suggesting that GRP plays different roles in the two conditions and suggest that GRPR antagonism modulates uncontrolled inflammation by targeting TLR-4-mediated responses and immunoregulatory functionality. Taken together, the present results indicate that a GRPR antagonist plays a role in acute inflammation and could be developed as a new alternative therapy for Gram-negative bacterial sepsis. Peptídeo liberador de gastrina Receptores Toll-Like Sepse Doenças inflamatórias agudas
275	Expressão de receptores toll-like 2 e função quimiotáxica de neutrófilos na doença de Behçet / Expression of toll-like receptor 2 and neutrophil chemotaxis in Behçet´s disease Fabrício de Souza Neves 11 May 2009 (has links) A doença de Behçet tem sua fisiopatologia caracterizada por hiperatividade neutrofílica, particularmente em relação à quimiotaxia, e períodos de atividade da doença podem ser desencadeados por exposição a estreptococos. Uma vez que células do sistema imune inato são ativadas pelo ácido lipoteicoico (LTA) de bactérias gram-positivas via receptor toll-like (TLR) 2 e CD14, cujas expressões são reguladas pelos fatores estimulantes de colônias de granulócitos (G-CSF) e granulócitos-macrófagos (GM-CSF), o objetivo principal deste estudo foi determinar se há hiperexpressão de TLR2 em neutrófilos de DB ativa e se a quimiotaxia de polimorfonucleares (PMN) neutrófilos na DB poderia ser hiperestimulada pelo LTA. Além do TLR2, foram medidas as expressões de TLR4, CD14, CD114 (receptor de G-CSF) e CD116 (receptor de GM-CSF) nos neutrófilos e nos monócitos de pacientes com doença de Behçet (DB), as concentrações séricas de CD14 solúvel (CD14s) e as respostas quimiotáxicas dos PMNs de DB sob diferentes estímulos. A expressão dos receptores foi medida pela citometria de fluxo, as concentrações séricas por ELISA e as respostas quimiotáxicas foram avaliadas em câmara de Boyden. Nos PMNs, os receptores foram igualmente expressos nos dois grupos e, estimulados com LTA, suas respostas quimiotáxicas também foram similares. Somente à incubação com plasma os PMNs de DB desenvolveram hiperquimiotaxia em relação aos PMNs controles. A expressão do TLR2 foi maior em monócitos de DB em relação aos controles, e a concentração de CD14s sérica, de origem monocitária, foi maior nos pacientes com DB ativa. Em conjunto, os resultados demonstram que PMNs de DB, isoladamente, não reagem exacerbadamente ao LTA, e suas respostas migratórias são estritamente dependentes de fatores estimulantes solúveis. / Expressions of toll-like receptor (TLR) 2, TLR4, CD14, CD114 and CD116 were assessed on polymorphonuclear (PMN) neutrophils and monocytes of patients with Behçets disease (BD). PMN chemotactic responses under different stimulations were also measured. The objective was to determine if BD PMN chemotaxis may be overstimulated by lipoteichoic acid (LTA) from gram-positive bacteria. Receptor expressions were measured by flow cytometry and PMN chemotaxis was assessed in a Boyden chamber. Only TLR2 expression was higher on monocytes of the BD group than in control group. On PMNs, however, TLR2 expression was similar in both groups and, when stimulated with LTA, BD PMN cells showed chemotactic responses similar to the controls. These cells only exhibited increased chemotaxis when incubated with plasma. In conclusion, isolated BD PMN did not overreact to LTA, and its hyperchemotaxis is strictly dependent on soluble stimulating factors Antígenos CD14 Monócitos Neutrófilos Quimiotaxia Receptor 2 toll-like Receptor 4 toll-like Síndrome de Behçet/fisiopatologia Antigens CD14 Behçet syndrome/physiopathology Chemotaxis Monocytes Neutrophils Toll-like receptor 2 Toll-like receptor 4
276	Modelos experimentais para a análise da proteína AKT/PKB em tecidos de hiperplasia prostática benigna tratados e não tratados com insulina e IGF-I Martiny, Patrícia Borba January 2012 (has links) Introdução. A Hiperplasia Prostática Benigna (HPB) é uma condição prevalente na senescência masculina, caracterizada pelo aumento não maligno das células do tecido epitelial e principalmente estromal da próstata. Já foi demonstrado que a ligação dos androgênios ao seu receptor (AR) tem papel vital para o desenvolvimento prostático, mantendo não só a função tecidual, mas também sua possível contribuição para a patogênese de doenças prostáticas. Alguns estudos têm sugerido que o aumento dos hormônios IGF e Insulina circulantes podem afetar direta ou indiretamente a sinalização molecular promovendo o crescimento prostático. Uma proteína importante, componente da via de sinalização dos receptores de Insulina e IGF, é a Akt/PKB. Esta proteína está relacionada com a regulação do metabolismo, apoptose e a proliferação celular. Entretanto, os eventos moleculares que levam a interação dos receptores Insulina e IGF com o Receptor de Androgênios (AR) ainda foram bem estabelecidos. Objetivos. O objetivo deste trabalho foi estabelecer uma técnica de estimulação pela insulina e IGF-I em tecido prostático e em células provenientes de pacientes com HPB, avaliar a fosforilação da Akt/PKB, e a fosforilação do AR. Materiais e Métodos. Participaram deste estudo 15 pacientes com HPB oriundos do Hospital de Clínicas de Porto Alegre para análise das proteínas Akt/PKB e AR. A análise proteica foi realizada a partir da técnica de western blot. Os protocolos de estudo e os termos de consentimentos foram aprovados pelo comitê de ética local e nacional. Resultados. Foram realizadas duas técnicas de estimulação, uma com insulina em fatias de tecido de HPB e outra com insulina e IGF-I em suspensão celular de HPB. Ocorreu um aumento na fosforilação da proteína Akt/PKB nas células de HPB estimuladas com insulina (P=0,0113) quando comparadas com a condição controle pelo tempo de 10 minutos. Foi visto um aumento na porcentagem da fosforilação do AR quando as células foram estimuladas com insulina. Conclusão. É possível avaliar a via de ativação da Akt/PKB em um modelo de células prostáticas derivadas de Hiperplasia Prostática Benigna sob estímulo da Insulina por 10 minutos. Neste modelo, também é possível avaliar a fosforilação do Receptor de Androgênios. A padronização da técnica de estimulação in vitro poderá ser útil para novas pesquisas. Estes achados podem vir a elucidar um possível mecanismo intracelular de interação entre a transdução do sinal de Insulina e IGF-I e a fosforilação do Receptor de Androgênios, e assim, possivelmente contribuir para o entendimento da proliferação celular na HPB. / Benign prostatic hyperplasia (BPH) is a prevalent disease characterized by high levels of prostate cell proliferation. The interaction of androgen hormone with its receptor (AR) has a central role in the development of prostate growth, maintaining the tissue function as the pathogenesis of the prostate disease. Increased levels of circulating insulin and IGF can directly and/or indirectly affect different signaling pathways and promote prostatic growth. The protein AKT/PKB, member of the insulin/IGF pathway, participates in metabolism, apoptosis and cell proliferation regulation. The molecular events related to the interaction of IGF-I and insulin receptor in BPH have not been defined yet. The aim of this study were to establish an in vitro protocol with insulin or IGF-I stimulation in prostatic tissue from BPH and to evaluate both Akt and AR phosphorylation. Samples were obtained from 15 BPH patients and the Akt and AR proteins were analyzed by western blot. Slices of prostatic tissues from BPH patients were stimulated with insulin. Fragmented and dissociated prostatic tissues were stimulated with insulin or IGF-I.BPH cells stimulated with insulin for 10 minutes showed higher percentage of AR and Akt phosphorylation in relation to control (P= 0.0113). These findings may suggest that insulin and IGF-I signaling pathways may contribute to distinct signals to common downstream components in response to both insulin and IGF-I for BPH development. Our study has established insulin or IGF-I stimulation of BPH cells and can contribute to elucidate a possible intracellular interaction mechanism of AR phosphorylation. Hiperplasia prostática Fator de crescimento insulin-like-I Insulina Transdução de sinal
277	Studying the synaptome : insights into ketamine action Lemprière, Sarah Alice January 2018 (has links) Major depressive disorder (MDD) is a growing health problem. Current treatment options are not always effective and take several weeks of regular administration before an improvement can be seen in symptoms. Sub-anaesthetic doses of ketamine have been found to have antidepressant effects in previously treatment-resistant MDD after just one dose. However, ketamine also produces short term psychosis-like side effects which are undesirable for MDD patients. Ketamine is known to be an NMDA receptor antagonist, binding within the channel pore to block ion flow, however the molecular mechanism(s) underlying its antidepressant and psychosis-like effects are still unclear. In this thesis several genetically modified mouse lines were used to probe the molecular events involved in ketamine's actions. Firstly, a mouse line in which the c-terminal domain (CTD) of the NMDAR subtype GluN2B had been replaced with that of GluN2A, and a second line in which the opposite replacement had taken place, were used to investigate the role of the CTD in the NMDAR response to ketamine. It was found that the GluN2B CTD is required for the short-term psychosis-like response to a sub-anaesthetic dose of ketamine. This is interesting as the channel pore region, containing the binding site for ketamine, is unaltered in these mutants. Therefore, this finding implicates GluN2B CTD specific intracellular signalling molecules in this action of ketamine and raises the question of whether the CTD itself is able to respond to ketamine binding within the pore to induce signalling changes, perhaps via a conformational change. Secondly, a mouse line, in which the activity-regulated synaptic protein Arc has been tagged with a fluorescent marker, was used to investigate the response of synapses to both anaesthetic and sub-anaesthetic doses of ketamine. In this experiment tagged Arc protein was visible as punctate accumulations at synapses. A novel method termed 'synaptome mapping' was used to image these accumulations across entire coronal sections and to quantify their number, size and intensity. Using this method alterations to the Arc synaptome map were detected 1h, 6h and 24h following ketamine administration. The two doses used produced different changes to this map, with the sub-anaesthetic antidepressant dose inducing increases in Arc puncta number across many brain regions, whereas the anaesthetic dose induced short term (1h) increases followed by longer term decreases in Arc puncta number. This finding links long-term increases in Arc at the synapse with an antidepressant response to ketamine.
278	A high fructose diet alters affective-like behavior and metrics of synaptic mitochondrial function differentially in male and female rats Kloster, Alix H 01 January 2019 (has links) Fructose consumption has become a normalized part of the standard American diet over the past 40 years. While fructose consumption is a known risk factor of metabolic syndrome, there is increasing evidence that fructose consumption influences brain and behavior. Recently, more interest has been focused on mitochondrial dysfunction as a potential link between metabolic stress and modifications of the central nervous system. Mitochondria are in the unique position of both regulating and being vulnerable to alterations in energy homeostasis. Sex-differences are well categorized in the presentation of metabolic symptoms associated with excessive fructose consumption. Thus, it is important to characterize sex-specific outcomes in the arena of brain and behavior in order to develop better strategies for mitigating the effects of fructose consumption. Therefore, I determined the extent to which a high fructose diet modified physiological outcomes, serum corticosterone, and affective-like behavior in male and female rats. In addition, I examined the potential of excessive fructose consumption to modify synaptic mitochondrial respiration at baseline and following an acute stress experience. In males, serum corticosterone was increased following an acute stress event, and this increase was modified by diet. Fructose consumption resulted in decreased affective-like behavior in the open field test and synaptic mitochondrial respiration was altered by both diet and acute stress experience. In females, fructose consumption altered weight and caloric efficiency. Females demonstrated increased depressive-like behavior in a forced swim test. Corticosterone concentrations were only increased by acute stress experience, and synaptic mitochondrial function was modified by diet in groups that underwent an acute stressor. fructose rats affective-like behavior mitochondria diet brain Neurosciences
279	Insulin-like Growth Factor-1 Protects Skeletal Muscle Integrity From The Adverse Effects Of Angiotensin Ii In An Injury-induced Regeneration Model January 2015 (has links) 1 / Sarah Elizabeth Galvez
280	Mechanisms of TLR signaling and cooperation in B lymphocytes Buchta, Claire Marie 01 May 2014 (has links) B lymphocytes play important roles in antibody production, cytokine production, and antigen presentation to T cells. Ligation of Toll-like receptors (TLRs) on B cells stimulates cellular activation and B cell effector functions. Synergistic activation of other receptors such as CD40 or the B cell receptor (BCR) with TLR ligation further enhances B cell activation and effector functions. The tumor necrosis factor receptor associated factor (TRAF) family of proteins act as cytoplasmic signaling adaptor molecules and moderate downstream signaling from both the tumor necrosis factor receptor (TNFR) superfamily of proteins, including CD40, and the IL-1R/TLR superfamily of proteins. To date, only TRAFs 3 and 6 have been shown to be involved in TLR signaling, with TRAF6 providing positive regulation and TRAF3 providing negative regulation of TLR signaling in B cells. Deficiency in another TRAF family member, TRAF5, has been implicated in the development of atherosclerosis, a disease developed in part due to TLR dysregulation. Here, we addressed the hypothesis that TRAF5 is a negative regulator of TLR signaling. We found that TRAF5 negatively regulated TLR-mediated cytokine and antibody production in B lymphocytes. The enhanced cytokine production seen in TLR-stimulated TRAF5 KO B cells was not attributable to altered cellular survival or proliferation, but instead more cytokine was produced on a per-cell basis, likely due to enhanced MAPK pathways after TLR ligation. Additionally, TRAF5 deficiency did not dramatically affect cytokine production in TLR-stimulated bone marrow-derived macrophages or dendritic cells, suggesting that TRAF5 plays a greater role in TLR signaling in lymphoid versus myeloid cells. TRAF5 associated with the TLR signaling proteins MyD88 and TAB2, and negatively regulated the association of TAB2 with its binding partner TRAF6. Furthermore, we manipulated B cell activation via ligation of various TLRs, CD40, and/or the BCR in order to activate the cells to effectively present antigen. Activated B cells pulsed with antigen served as an effective cellular vaccine and offered protection against both an infectious pathogen (Listeria monocytogenes) and a model of murine melanoma. We identified two candidate activation criteria for B cell vaccines (Bvacs): stimulation through the BCR and TLR7, and stimulation through CD40 and TLR4. Additionally, we found that high IL-6 production by the activated Bvac was essential for inducing optimal CD8+ T cell memory. These B cell activation protocols offer significant advantages over those currently being tested for clinical use. Understanding B cell activation through TLRs is a critical step in developing new therapies against cancer and infectious disease. B lymphocyte Toll-like receptor TRAF5 Immunology of Infectious Disease

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