Global ETD Search

291	HIV-1 entry at the foreskin : crosstalk between the HIV-1 infected cells and the inner foreskin mucosa Zhou, Zhicheng 05 March 2014 (has links) Les épithéliums muqueux se présentent comme porte d’entrée majeure du virus de l’immunodéficience humaine (VIH) et jouent un rôle critique dans la transmission sexuelle du virus. Les cellules épithéliales et les cellules dendritiques dans les muqueuses pluristratifiés, sont des cibles initiales pour la transmission virale. Il a été déjà montré, sur les muqueuses génitales chez l’homme, que la circoncision réduit plus de 60% acquisition du virus chez l’homme. Les mécanismes d’entrée du VIH au niveau du tractus génital chez l’homme sont tres mal connus et pratiquement pas étudiés. Nous avons émis l’hypothèse selon laquelle le prépuce, qui est enlevé lors de la circoncision, pourrait être une porte d’entrée majeure du virus. Nous avons d’abord montré que le VIH peut pénétrer effectivement au niveau du prépuce ex vivo, la partie interne du prépuce présente plus permissive que la partie externe. De plus, le virus pénètre uniquement dans le prépuce après formation d’une synapse virologique entre la cellule infectée, présente dans les secrétions génitales et la surface muqueuse du prépuce. La formation de la synapse virologique induit le bourgeonnement massif et polarisé de virions dans la fente synaptique; ceux ci pénètrent dans l’épiderme du prépuce. À l’inverse, l’entrée du VIH sous forme de virus libre dans le prépuce est inefficace. Nous avons ensuite caractérisé la séquence des événements initiaux mis en place lors de l’entrée du VIH dans le prépuce interne. La première cellule cible immune est la cellule de Langerhans (LCs), dont le rôle physiologique est de protéger la muqueuse contre les pathogènes qui l’envahissent. Après la capture du virus les LCs migrent vers le derme pour former des conjugués cellulaires avec les cellules T CD4+ du derme. La dynamique de migration de LCs est régulée par de sécrétion de cytokines et chimiokines (RANTEs et MIP- 3alpha) induites par la pénétration du virus dans le tissu. Nous avons ensuite caractérisé les mécanismes de l’immunité mis en jeu au niveau des kératinocytes de l’épiderme lors de la formation de la synapse virologique et évalué comment ces signaux contribuent à l’entrée efficace du virus dans la muqueuse du prépuce interne chez l’homme, ex vivo. À l’aide d’un modèle cellulaire de muqueuse simplifiée basé sur des kératinocytes primaires humains ex vivo, nous avons montré que les protéines d’enveloppe du VIH , gp120 mais pas gp41, et les molécules d’adhésion (intégrines LFA-1, leurs ligands ICAM-1 and -3) contrôlent la formation de la synapse virologique. La synapse virologique induit au niveau des kératinocytes l’activation de la voie NF- B indépendentmmment de MyD88 après activation du Toll-like-receptor 4 (TLR4) exprimé par les kératinocytes. En recherchant quelle cytokine pouvait être induite par cette signalisation, nous avons montré que la synapse virologique induit la sécrétion par les kératinocytes d’une cytokine produite par les cellules non-hématopoïétiques, la thymic stromal lymphopoietin (TSLP). La TSLP est un chemoattracteur des cellules myéloïdes comme les cellules LCs et peut induire leur maturation. Nous avons ensuite montré que, sur des explants de prépuce humain ex vivo, la synapse virologique induit bien la sécrétion de TSLP, laquelle en premier lieu attire les LCs qui expriment le TSLP-récepteur vers la surface du tissus induisant leur maturation. Les LCs peuvent ensuite migrer dans l’autre sens vers le derme. La sécrétion des cytokines comme RANTEs, MIP-3alpha, qui sont impliquées lors de la pénétration effective du virus dans les tissus n’a pas de rôle dans la signalisation induite par la formation de la synapse virologique proprement dite. Les kératinocytes de l’épiderme du prépuce interne, grâce à leur réponse innée TSLP induite par la synapse virologique ont un rôle déterminant dans l’entrée du VIH dans le prépuce. Ainsi, en réponse de la synapse virologique, les kératinocytes secrètent du TSLP après activation de la voie de NF- B dépendante de MyD88. (...) / The mucosal epitheliums are presented as a major portal of HIV-1, and play a critcal role for the sexual transmission of HIV-1. Epithelial cells, and dendritic cells in the pluristratified mucosa, are the initial targets of viral transmission. It has already been shown, in the genital mucosa in men, circumcision reduces by more than 60 % of virus acqusition by men. The entry mechanisms of HIV-1 in the male urogenital tracts are poorly understood and not pratically studied. We suggested that foreskin, removal by circumcision surgery, could be a major portal of HIV-1 entry. We first showed that HIV-1 could enter efficiently ex vivo inner foreskin mucosa, the inner part of foreskin which is more permissive than the outer part. More over, virus penetrates only after the viral synapse (VS) formation between HIV-1-infected cells and foreskin epidermis, in the presence of genital secretion on the surface of foreskin mucosa. The formation of VS induces massive and polarized budding of HIV-1 particles within the synaptic cleft. The virions therefore penetrate into the foreskin epidermis. Inversely, cell-free virus entry is inefficient in the foreskin. Next, we characterized the initial events of HIV-1 VS formation in the inner foreskin. The first cell type that HIV-1 encounters is Langerhans cells (LCs), whose physiological role is to protect the mucosa against invasive pathogens. After capture of virus, LC migrates towards the dermis to form intercellular conjugates with dermal CD4+ T cells. The dynamic of LC migraiton is regulated by the secretion of cytokines in the mucosa, induced by HIV-1 entry, including RANTEs and MIP-3alpha. We then characterized the mechanisms of foreskin epidermal keratinocyte (KC), activated innate immunity during the VS formation and the signaling pathway contributed to the efficient entry of HIV-1 via inner foreskin mucosa. Using a simplified mucosal model based on human primary foreskin keratinocytes, we demonstrated that HIV-1 envelope protein, gp120, but not gp41 and the adhesion molecules (integrins LFA-1, ICAM-1/-3), contribute to the VS formation. VS induces at the KC level the activation of NF- B pathway by I B and p65 molecules, after activation of TLR4 expressed on KCs. By searching for which cytokine could be induced by this signalisation, we then showed that VS induced the secretion by KC of one cytokine, which is produced by the non-hematopoetic cells, thymic stromal lymphopoietin (TSLP). TSLP is an chemoattractant for myeloid cells like LCs, and could induce LC maturation. We then showed, using the foreskin explants that, VS induces the secretion of TSLP, which first attracts LC expressing constitutively TSLP receptors to the apical surface of foreskin, inducing its maturation. These matured LCs then migrate to another direction towards the dermis. The secretion of cytokines such as RANTEs and MIP-3alpha, involved in the HIV-1 efficient entry has no roles in the signaling induced by VS formation as mentioned above. The Inner foreskin keratinocytes, due to the innate response of TSLP induced by VS, have a determinant role in the HIV-1 entry into the foreskin. Likewise, in response to VS, KCs secrete TSLP after NF- B activation dependent on regulator MyD88. The secreted TSLP, in addition to four different proinflammatory cytokines and chemokines (IL-6, IL-8, MIG, and MMP-9) allows virus to attract LCs to the foreskin surface, to capture the virus present in the synaptic cleft in order to facilite efficient transmission at the level of foreskin mucosa. Likely to the conventional immune cells, KCs, in one hand protects the foreskin mucosa and in another, is hijacked to facilitate HIV-1 transmission. Kératinocytes Cellules de Langerhans Synapse virologique Tslp RANTEs MIP-3alpha Prépuce humain Entrée muqueuse du VIH Cytokines Human immunodeficiency virus (hiv) Keratinocytes Langerhans cells Virological synapse Tslp Rantes Mip-3alpha Foreskin mucosa Hiv-1 mucosal entry Cytokines 616.979 2
292	Ilhotas pancreáticas humanas viáveis para o transplante através do aumento da massa de células e do imunoisolamento com microcápsulas biocompatíveis / Obtention of human pancreatic islets for transplantation through an increase in cell mass and an immunoisolation with biocompatible microcapsules Ana Carolina Vale Campos-Lisbôa 06 March 2009 (has links) O transplante de ilhotas pancreáticas humanas representa uma estratégia promissora para a cura do diabetes mellitus tipo 1 (DM1), mas a aplicação a todos os pacientes diabéticos ainda é impraticável devido à limitada disponibilidade de ilhotas ou células β e à necessidade de utilização de drogas imunossupressoras pelo paciente transplantado. O tratamento com imunossupressores após o transplante de ilhotas pode ser abolido quando se realiza o microencapsulamento das ilhotas pancreáticas. Neste trabalho investigou-se um novo biomaterial, Biodritina® (alginato/sulfato de condroitina) adequado ao microencapsulamento que gelifica na presença de íons de cálcio ou bário. A biocompatibilidade das microcápsulas tem sido avaliada segundo o grau de pureza do alginato utilizado na sua confecção. Amostras de alginato comercial purificado foram analisadas, comprovando-se a presença de impurezas (polifenóis, endotoxinas, proteínas) em níveis elevados, que impedem sua aplicação clínica. Optou-se, portanto pela utilização do alginato comercial ultrapurificado nos experimentos descritos neste trabalho. Das formulações de biomateriais avaliadas, as microcápsulas de bário-Biodritina apresentaram o melhor desempenho em testes de estabilidade físico-química. Estas microcápsulas mantiveram sua morfologia e estabilidade estrutural após permanecerem 30 dias na cavidade peritoneal de camundongos, conforme demonstrado por microscopia eletrônica de varredura (MEV). Análises histológicas mostraram que microcápsulas de bário-Biodritina explantadas, não possuíam adesão celular em sua superfície. Estudos de permeabilidade demonstraram que o tamanho médio dos poros das microcápsulas de bário-Biodritina permite passagem de proteínas de até 70 kDa, enquanto os poros daquelas de cálcio-Biodritina comportam proteínas de até 100 kDa. Experimentos de coResumo \| x cultivo de macrófagos peritoneais com ilhotas de rato microencapsuladas demonstraram uma capacidade imunoprotetora maior das microcápsulas de bário-Biodritina em relação às de cálcio- Biodritina, sendo que as primeiras não ativaram os macrófagos. A manutenção da viabilidade e função de ilhotas humanas microencapsuladas com bário-Biodritina foi confirmada através de ensaio funcional in vitro, no qual ilhotas microencapsuladas apresentaram níveis de secreção de insulina idênticos aos de ilhotas nuas. A prova de conceito do biomaterial foi realizada através do implante de ilhotas humanas microencapsuladas em bário-Biodritina em camundongos com DM1 induzido por estreptozotocina. A hiperglicemia desses animais foi corrigida pelo implante por um período superior a 60 dias, durante os quais o teste oral de tolerância à glicose mostrou-se normal, demonstrando completa funcionalidade e eficiência das ilhotas microencapsuladas com bário-Biodritina. Partindo de observações de que animais inoculados com a peçonha do escorpião Tityus serrulatus apresentam nesidioblastose, foi realizado o fracionamento do veneno por HPLC de fase reversa e 24 frações obtidas foram submetidas a ensaios de proliferação celular através da incorporação de 3H-timidina em células de insulinoma de rato RINm5F. Uma dessas frações foi capaz de induzir a proliferação das células RINm5F e quando aplicada a ilhotas humanas isoladas, elevou o índice de secreção de insulina e induziu um aumento da expressão dos mRNAs de insulina e PCNA. Portanto, demonstrou-se que o biomaterial bário-Biodritina possui as características necessárias para microencapsular células/ilhotas com eficiência e que a \"fração ativa\" do veneno do escorpião T. serrulatus induz proliferação de células RINm5F e melhora a secreção de insulina de ilhotas humanas. / Islet transplantation has been proposed as a promising therapeutic strategy for the cure of type 1 diabetes mellitus (DM), however, its application to all diabetic patients is still not possible due to the limited source of islets or β cells and to the need of an immunosuppressive treatment of the recipient to avoid graft rejection. The use of immunosupressors may be abolished when pancreatic islets are microencapsulated prior to transplantation. Here, we investigated the use of a new biomaterial suitable for cell microencapsulation, namely, Biodritin®, composed of alginate and chondroitin sulphate, which is capable of gelation in the presence of barium or calcium ions. Microcapsules biocompatibility has been evaluated according to the purity of the alginate used in its production. Samples of purified commercial alginate were analyzed, but the high levels of contaminants (proteins, endotoxins and polyphenols) detected prevented its use in clinical applications. On the other hand, also commercially available ultrapure alginate fulfills the requirements for this application, therefore, this biomaterial was chosen for our experiments. Among the different biomaterial formulations evaluated, barium-Biodritin microcapsules displayed the best performance in the physico-chemical tests. Scanning electronic microscopy revealed that barium-Biodritin microcapsules maintained their morphology and structural stability after being implanted for 30 days in the peritoneal cavity of mice. No cellular adhesion was detected on the surface of explanted barium-Biodritin microcapsules by histological analysis. Permeability studies determined the medium pore size of barium-Biodritin microcapsules, which allows proteins of up to 70 kDa to pass through the biomaterial, while calcium-Biodritin pores accomodate proteins of up to 100 kDa. Co-culture of peritoneal macrophages with microencapsulated rat islets, revealed a superior immunoprotective capacity of barium-Biodritin microcapsules, which were capable of protecting the islets with no macrophage activation. Microencapsulated and naked human islets presented identical insulin secretion levels upon stimulation with glucose in vitro, confirming that barium-Biodritin microencapsulation maintains the function and viability of human islets. Proof-of-concept experiments in which barium-Biodritin microencapsulated human islets were implanted into chemically-induced diabetic mice, showed that these animals maintained normal blood glucose levels for more than 60 days, during which oral glucose tolerance tests were normal, demonstrating the complete functionality and efficiency of barium-Biodritin microencapsulated human islets. From the observation that animals inoculated with the venom of the scorpion Tityus serrulatus presented nesidioblastosis, we decided to fractionate the venom to isolate the active principle. The venom was fractionated by reversed phase HPLC and 24 fractions were obtained and submitted to cellular proliferation assays, in which rat insulinoma RINm5F cells evaluated for 3H-timidina incorporation. One of these fractions was capable of inducing cell proliferation and was also applied to isolated human islets. Treated islets presented a higher insulin secretion index and an increase in insulin and PCNA mRNA expression. In conclusion, we demonstrated that the barium-Biodritin biomaterial possesses all characteristics required for efficient cell/islet microencapsulation and that the active fraction of Tityus serrulatus venom induces the proliferation of RINm5F cells and improves insulin secretion in human islets. Biologia celular Diabetes mellitus tipo 1 Ilhotas pancreáticas de Langerhans Microencapsulamento de ilhotas Proliferação de células beta Transplante de ilhotas Transplante de pâncreas Veneno de escorpião Beta cell proliferation Celular biology Islet microencapsulation Islet transplantation Pancreatic islets of Langerhans Scorpion venom Type 1 Diabetes mellitus
293	O efeito pró-apoptótico de oligômeros da amilina humana não é potencializado pela lipotoxicidade em ilhotas pancreáticas de rato em cultura / The pro-apoptotic effect of human amylin oligomers is not potentiated by lipotoxicity in rat pancreatic islets in culture Oliveira, Érika Rodrigues de 25 July 2012 (has links) O depósito de amilina é um achado histopatológico frequente em pacientes portadores de diabetes mellitus tipo 2 (DM 2) e parece estar relacionado à disfunção da célula beta pancreática característica desta doença. Um estudo previamente desenvolvido em nosso laboratório verificou que oligômeros de amilina humana provocam diminuição na expressão do mRNA do gene que codifica o receptor do hormônio incretínico peptídeo insulinotrópico dependente de glicose (Gipr) e aumento do índice de apoptose em ilhotas pancreáticas de rato mantidas em cultura. Considerando o importante papel do depósito amilóide e das incretinas na fisiopatologia do DM 2, os objetivos deste trabalho foram investigar (1) o efeito da amilina humana sobre a expressão dos receptores de incretinas e (2) a modulação de seu efeito tóxico por outras condições concomitantes presentes no DM, como a lipotoxicidade e os produtos finais de glicação avançada (AGEs). Para isto, foi realizada a avaliação da expressão do mRNA dos genes Gipr e Glp1r (receptor do peptídeo semelhante ao glucagon) por PCR em tempo real em ilhotas expostas apenas aos oligômeros de amilina humana (10 M) por 4 e 8 h e em ilhotas expostas aos oligômeros e ao palmitato (0,5 mM) por 24 e 48 h; avaliação da expressão das proteínas GIPR e GLP1R por Western blot em ilhotas tratadas com oligômeros de amilina por 12 h; e avaliação do índice de apoptose pela quantificação da atividade de caspase 3 em ilhotas tratadas com oligômeros de amilina isoladamente, ou na presença de palmitato (0,5mM) por 48 h ou 5 mg/ml de albumina glicada (AlbGAD) por 72 h. A amilina não provocou alteração na expressão dos genes Gipr e Glp1r após 4 h de exposição. Após 8 e 24 h de tratamento, os oligômeros modularam negativamente a expressão destes genes. Entretanto, o tratamento das ilhotas com amilina por 48 h resultou no aumento da expressão do mRNA dos receptores de incretinas. O tratamento simultâneo com palmitato não alterou o efeito modulatório da amilina sobre a expressão dos genes Gipr e Glp1r após 24 e 48 h. A exposição das ilhotas aos oligômeros de amilina por 12 h não causou alteração na expressão das proteínas GIPR e GLP1R. A lipotoxicidade e a albumina glicada não aumentaram o efeito pró-apoptótico da amilina sobre as ilhotas pancreáticas. Em conclusão, a redução na expressão gênica dos receptores de incretinas em ilhotas pancreáticas de rato expostas aos oligômeros de amilina, que poderia indicar um mecanismo adicional pelo qual a amilina exerceria seu efeito deletério sobre células beta, diminuindo o efeito insulinotrópico induzido pelas incretinas em pacientes com DM 2, não foi constatada em relação à expressão protéica de GIPR e GLP1R no período de tempo estudado. O aumento na expressão do mRNA destes receptores provocado pela amilina após 48 horas de incubação poderia ser um mecanismo de compensação das células frente aos efeitos tóxicos dos oligômeros de amilina. O efeito próapoptótico da amilina humana sobre as células beta não parece ser potencializado pela lipotoxicidade ou por AGEs / The amyloid deposit is a common histopathological feature in patients with type 2 diabetes mellitus (T2DM) and it seems to be related to the pancreatic beta cell dysfunction characteristic of this disease. A study previously developed in our laboratory found that human amylin oligomers decrease mRNA expression of the glucose-dependent insulinotropic polypeptide receptor (Gipr) and increase apoptosis rate in rat pancreatic islets maintained in culture. Considering the important role of the amyloid deposition and of incretins in the pathophysiology of T2DM, the aims of the present study were to investigate (1) the effect of human amylin on the expression of incretin receptors and (2) the modulation of amylin toxicity by other concomitant conditions present in T2DM, as lipotoxicity and advanced glycation end products (AGEs). The evaluation of mRNA expression of Gipr and Glp1r (glucagonlike peptide -1 receptor) was performed by real time PCR in islets exposed only to human amylin oligomers (10 M) for 4 and 8 h, and in islets exposed to human amylin and palmitate (0,5 mM) for 24 and 48 h; GIPR and GLP1R protein expression was assessed by Western blot in islets treated with amylin oligomers by 12 h; apoptosis rate was evaluated by measuring caspase 3 activity in islets treated with amylin alone or combined to palmitate (0,5 mM) for 48 h or 5 mg/mL of glycated albumin (AlbGAD) for 72 h. Amylin did not affect the expression of Gipr and Glp1r mRNA following 4 h of exposure. Eight and 24 h after treatment, amylin negatively modulated the expression of these genes. However, treatment of the islets for 48 h with amylin elicited an increase in mRNA expression of both incretin receptors. The simultaneous treatment with palmitate did not change the effects of amylin on the expression of Gipr and Glp1r mRNA after 24 and 48 h. Exposure of islets to amylin for 12 h caused no change in GIPR and GLP1R protein expression. Lipotoxocity and glycated albumin did not increase the pro-apoptotic effect of amylin on pancreatic islets. In conclusion, the reduction in mRNA expression of the incretin receptors on rat pancreatic islets exposed to amylin, which could indicate an additional mechanism whereby amylin exert its deleterious effect on beta cells, reducing the insulinotropic effects of incretins in patients with T2DM was not confirm regarding GIPR and GLP1R protein expression at the time period studied. The increased mRNA expression of these receptors caused by amylin after 48 h of incubation could be a compensation mechanism against the toxic effects of amylin oligomers. The pro-apoptotic effect of amylin on human beta cells does not appear to be potentiated by lipotoxicity or by advanced glycation end products Amilina Amylin Apoptose Apoptosis Diabetes mellitus tipo 2 Glycosylation end products advanced Ilhotas pancreáticas Incretin receptors Islets of langerhans Lipídeos/toxicidade Lipids/toxicity Produtos finais de glicação avançada Receptores de incretinas Type 2 diabetes mellitus
294	Glucolipotoxicité dans les cellules bêta pancréatiques / Glucotoxicity in pancreatic beta cells Cassel, Roméo 21 November 2014 (has links) Le diabète de type 2 est une pathologie chronique complexe associant une altération de sécrétion de l'insuline par le pancréas et une résistance à l'insuline au niveau des tissus périphériques, notamment au niveau du foie et du muscle squelettique. Son origine est multifactorielle, alliant des anomalies génétiques et environnementales, en particulier nutritionnelles. Un des mécanismes par lesquels les facteurs nutritionnels (comme les glucides et les lipides en excès) contribuent au développement du diabète et à son aggravation est la glucolipotoxicité. En effet, l'élévation de la glycémie et des lipides plasmatiques, ainsi que l'accumulation ectopique de lipides dans les tissus, participent au développement de l'insulinorésistance hépatique et musculaire et aux dysfonctions des cellules bêta, en partie via l'induction d'un stress métabolique, impliquant notamment le stress oxydant, le stress du réticulum endoplasmique (RE) et la perturbation de l'homéostasie calcique. Nous avons étudié les effets de la glucotoxicité et de la lipotoxicité dans les cellules bêta pancréatiques et les mécanismes impliqués. Nous nous sommes aussi intéressés à des traitements potentiellement protecteurs de la fonction bêta-pancréatique. Nous avons fait l'hypothèse que les effets bénéfiques de l'inhibition du système rénine-angiotensine sur l'incidence du diabète de type 2 chez l'homme étaient médiés par une action directe sur les cellules bêta. Nos résultats montrent que le glucose chronique à une dose élevée entraine une réduction de la sécrétion d'insuline des cellules bêta des îlots de Langerhans humains par une action conjointe sur le stress du RE, le stress oxydant et l'homéostasie calcique. L'inhibition du SRA a permis de restaurer cette fonction grâce notamment à une action inhibitrice sur la voie Phospholipase C-IP3-Calcium / This study addressed the hypothesis that inhibiting the soluble epoxide hydrolase (sEH)-mediated degradation of epoxy-fatty acids, notably epoxyeicosatrienoic acids, has an additional impact against cardiovascular damage in type 2 diabetes, beyond its previously demonstrated beneficial effect on glucose homeostasis. The cardiovascular and metabolic effects of the sEH inhibitor t- AUCB (10 mg/l in drinking water) were compared to those of the sulfonylurea glibenclamide (80 mg/l), both administered for 8 weeks in FVB mice subjected to a high-fat diet (HFD, 60% fat) for 16 weeks. Mice on control chow diet (10% fat) and non-treated HFD mice served as controls. Glibenclamide and t-AUCB similarly prevented the increased fasting glycemia in HFD mice but only t-AUCB improved glucose tolerance and decreased gluconeogenesis, without modifying weight gain. Moreover, t-AUCB reduced adipose tissue inflammation, plasma free fatty acids and LDL cholesterol, and prevented hepatic steatosis. Furthermore, only the sEH inhibitor improved endothelium-dependent relaxations to acetylcholine, assessed by myography in isolated coronary arteries. This improvement was related to a restoration of epoxyeicosatrienoic acid and nitric oxide pathways, as shown by the increased inhibitory effects of the NO-synthase and cytochrome P450 epoxygenase inhibitors, L-NA and MSPPOH, on these relaxations. Moreover, t-AUCB decreased cardiac hypertrophy, fibrosis and inflammation, and improved diastolic function, as demonstrated by the increased E/A ratio (echocardiography) and decreased slope of the enddiastolic pressure-volume relation (invasive hemodynamics). These results demonstrate that she inhibition improves coronary endothelial function and prevents cardiac remodeling and diastolic dysfunction in obese type 2 diabetic mice Diabète de type 2 Cellules bêta pancréatiques Îlots de Langerhans humains Cellules MIN6B1 Glucotoxicité Lipotoxicité Translocon Système rénine-angiotensine Type 2 diabetes Pancreatic beta cells Human pancreatic islets MIN6B1 cells Glucotoxicity Lipotoxicity Translocon Renin-angiotensin system 616
295	Análise morfológica das células de Langerhans purificadas da epiderme de camundongo Balb/c, após interação in vitro com Leishania (Viannia) brasiliensis e Leishamania (Leishmania) amazonensis QUARESMA, Mariana do Socorro Maciel January 2003 (has links) Submitted by Edisangela Bastos (edisangela@ufpa.br) on 2013-04-05T21:17:48Z No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_AnaliseMorfologicaCelulas.pdf: 27299566 bytes, checksum: f3964c75f7cb49edab86b785985ab8ef (MD5) / Approved for entry into archive by Ana Rosa Silva(arosa@ufpa.br) on 2013-04-16T15:01:18Z (GMT) No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_AnaliseMorfologicaCelulas.pdf: 27299566 bytes, checksum: f3964c75f7cb49edab86b785985ab8ef (MD5) / Made available in DSpace on 2013-04-16T15:01:18Z (GMT). No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_AnaliseMorfologicaCelulas.pdf: 27299566 bytes, checksum: f3964c75f7cb49edab86b785985ab8ef (MD5) Previous issue date: 2003 / Células de Langerhans (CL) são células apresentadoras de antígenos, MHC classe II positivas, que constituem 2 a 3% de todas as células da epiderme, e que têm demonstrado serem estimuladoras de uma resposta vigorosa de linfócitos T contra Leishmania major. A leishmanionse cutânea do Novo Mundo é causada por diferentes espécies, apresentando formas clínicas diversas variando de leishmaniose cutânea difusa anérgica. Utilizando a técnica de "panning", CL da epiderme de comundongos BALB/c foram purificadas para em torno de 95% de pureza (pCL) em relação à outras células da epiderme. As CL recentemente isoladas apresentaram dentritos pequenos e delicados e os clássicos grânulos de Birbeck. Tem sido sugerido que os parasitos do subgênero Viannia e Leishmania, que são geneticamente bastante distintos, podem ter respostas espécie-específicas na resposta imune celular. Neste estudo, pCL e L. (V.) brasilienses ou L. (L.) amazonensis foram cultivadas e a morfologia das CL foi analizada após 12 ou 36 h de cultura. Utilizando a coloração de Giemsa e a microscopia eletrônica de varredura, alterações morfológicas diferentes foram detectadas nas CL após 12 h de cultivo nas duas culturas, CL e L. (V.) brasiliensis ou CL e L. (L.) amazonensis. Depois da interação com L. (V.) brasiliensis as CL tornaram-se mais dentríticas, que eram mais curtos quando comparados às CL cultivadas isoladamente. Em contraste, após a interação com L. (L.) amazonensis, as CL tornaram-se arredondadas com algumas células mostrando alguns dendritos. Além disto, verificou-se um contato íntimo entre o flagelo das prostigota com as CL, mas sem observar a fagocitose das leishmanias após 12 ou 36 h de cultivo, o que é diferente dos relatos da literatura com CL e L. major. Estes resultados sugerem que a resposta imune primária das CL contra as diferentes espécies de leishamania podem ser distintas de acordo com a espécie envolvida no processo de interação. / Langerhans Cells (LC) are MHC class II positive antigen-presenting cells that constitute 2-3% of all epidermal cells, which have been demonstrated to stimulate a vigorous T-cell response to Leishmania major. New World cutaneous leishmaniasis is caused by different species, presenting diverse clinical pictures, varying from cutaneous localized to mucous or anergic disease. Using a "panning" technique, murine (Balb/c) epidermal LC were purified to around 95% purity (pLC). The freshly prepared LC (fLC) presented small, delicate dendrites and the classic Birbeck granules. Parasites of the subgenera Viannia and Leishmania, which are genetically very distinct, have been suggested to have a possible species-specific response in cell mediated immunity. In this study, pLC and L. (V.) braziliensis or L. (L.) amazonensis were cultured and their morfology were analyzed after 12h or 36h culture. Using Giemsa stain and scanning electron microscopy, different morphologic changes were detected on LC afier 12h culture on both cultures, LC and L. (V.) braziliensis or LC and L. (L.) amazonensis. After interaction with L. (V.) braziliensis, LC became more dendritic, that were smaller in lenght when compared to LC cultivated alone. In contrast, after interaction with L. (L.) amazonensis, LC became round shaped with a few cells showing some dendrites. Moreover, there was a dose contact between the promastigotes flagelli and LC, but without phagocytosis in 12h or 36h culture, what is different of the observations found in the literature on the interaction between LC and L. major. These results suggest that LC primary response against different species of Leishmania could be distinct upon the species involved in the interaction process. Leishmaniose tegumentar americana Células de Langerhans Doenças transmissíveis Alterações morfológicas Diagnóstico laboratorial Pará - Estado Amazônia Brasileira
296	Benfotiamina e Mito Q protegem ilhotas pancreáticas de rato em cultura dos efeitos pró-apoptóticos dos produtos finais de glicação avançada (AGEs) / Benfotiamine and Mito Q protect rat pancreatic islets in culture from pro-apoptotic effects of advanced glycation end products Costal, Flavia Soares Louro 13 March 2012 (has links) A perda da função das células beta acelera a deterioração do controle metabólico em pessoas com diabetes tipo 2. Além da lipo- e da glicotoxicidade, os AGEs parecem contribuir para esse processo, promovendo a apoptose das ilhotas pancreáticas. Em outros tecidos, os AGEs interagem com seu receptor específico (RAGE), produzindo espécies reativas de oxigênio (ROS) e ativando o NF-kB. Para investigar o efeito temporal dos AGEs sobre a apoptose de ilhotas, bem como o potencial de compostos antioxidantes para diminuir danos causados pelos AGEs, ilhotas pancreáticas de ratos foram tratadas durante 24, 48, 72, 96 e 120 h com AGEs gerados a partir de co-incubação de albumina de soro bovino (BSA) com Dgliceraldeído (GAD, 5 mg/mL) ou tampão fostato (controle). A apoptose foi avaliada pela quantificação do DNA fragmentado (ELISA), atividade de caspase 3 e detecção da permeabilidade da membrana mitocondrial (MitoProbe JC-1). O estresse oxidativo foi avaliado pela detecção de espécies de oxigênio (Image-iT LIVE Green) e a atividade da NADPH oxidase foi mensurada pelo método de quimioluminescência da lucigenina. A expressão dos genes Bax, Bcl2 e Nfkb1 foi avaliada por reação em cadeia da polimerase quantitativa após transcrição reversa (RT-qPCR). Em um dos tempos em que foi detectado o aumento da apoptose, o efeito de dois compostos antioxidantes foi avaliado: benfotiamina (350 M), uma vitamina B1 lipossolúvel, e Mito Q (1 M), um derivado da ubiquinona com alvo seletivo para a mitocôndria. Em 24 e 48 h, os AGES promoveram um aumento do índice de apoptose em relação ao controle, concomitantemente com o aumento na expresssão do gene Bcl2 (gene anti-apoptótico) e uma redução na expressão do gene Nfkb1. Em contraste, após 72, 96 h e 120 h, os AGEs promoveram um aumento do índice de apoptose em comparação com a condição de controle, concomitantemente com uma diminuição na expressão do gene Bcl2 e um aumento na expressão do gene Nfkb1. Em 24 h, os AGEs promoveram uma diminuição do conteúdo de ROS nas ilhotas, enquanto que nos tempos de 48 e 72 h, os AGEs promoveram um efeito oposto. A benfotiamina e o Mito Q foram capazes de diminuir o índice de apoptose e o estresse oxidativo de ilhotas expostas aos AGEs por 72 h. Em conclusão, os AGEs exerceram um duplo efeito em cultura de ilhotas pancreáticas, sendo de proteção contra a apoptose após exposição curta, mas pró-apoptótica após exposição prolongada. O Mito Q e e a benfotiamina merecem ser adicionalmente estudados como drogas com o potencial de oferecer proteção às ilhotas pancreáticas em condições de hiperglicemia crônica / Loss of beta cell function hastens the deterioration of metabolic control in people with type 2 diabetes. Besides lipo- and glucotoxicity, AGEs seem to contribute to this process by promoting islet apoptosis. In other tissues, AGEs interact with their specific receptors (RAGE) and elicit reactive oxygen species (ROS) generation and NF-kB activation. In order to investigate the temporal effect of AGEs on islet apoptosis as well as the potential of antioxidant compounds to decrease islet damage caused by AGEs, rat pancreatic islets were treated for 24, 48, 72, 96 and 120 h with either AGEs generated from co-incubation of bovine serum albumin (BSA) with D-glyceraldehyde (GAD, 5 mg/mL) or phosphate-buffered saline (PBS, control). Apoptosis was evaluated by quantification of DNA fragmentation (ELISA), caspase-3 enzyme activity and detection of mitochondrial permeability transition (MitoProbe JC-1). Oxidative stress was evaluated by oxygen species detection (Image-iT LIVE Green) and the activity of NADPH oxidase was measured by the lucigenin-enhanced chemiluminescence method. The expression of the genes Bax, Bcl2 and Nfkb1 was evaluated by reverse transcription real-time quantitative polymerase chain reaction (RT-qPCR). In one of the time points at which increased apoptosis was detected, the effect of two antioxidant compounds was evaluated: benfotiamine (350 M), a liposoluble vitamin B1, and Mito Q (1 M), a derivative of ubiquinone targeted to mitochondria. In 24 and 48 h, AGEs elicited a significant decrease in the apoptosis rate in comparison to the control condition concomitantly with a significant increase in the RNA expression of the antiapoptotic gene Bcl2 and a significant decrease in the Nfkb1 RNA expression. In contrast, after 72 and 96 h, AGEs promoted a significant increase in the apoptosis rate in comparison to the control condition concomitantly with a significant decrease in Bcl2 RNA expression and a significant increase in Nfkb1 RNA expression. In 24 h, AGEs elicited a significant decrease in the islet content of ROS while after 48 and 72 h, AGEs promoted an opposite effect. Benfotiamine and Mito Q were able to decrease the apoptosis rate and the ROS content in islets exposed to AGEs for 72 h. In conclusion, AGEs exerted a dual effect in cultured pancreatic islets, being protective against apoptosis after short exposition but proapoptotic after prolonged exposition. Mito Q and benfotiamine deserve further evaluation as drugs that could offer islet protection in conditions of chronic hyperglycemia Apoptose Apoptosis Estresse oxidativo Glycosylation en products advanced Ilhotas Pancreáticas Islets of langerhans Oxidative stress Produtos finais de glicação avançada Ratos Wistar Rats Wistar Thiamine/analogs & derivatives Tiamina/análogos & derivados Ubiquinona/análogos & derivados Ubiquinone/analogs & derivatives
297	Oscillatory Ca<sup>2+</sup> signaling in glucose-stimulated murine pancreatic β-cells : Modulation by amino acids, glucagon, caffeine and ryanodine Ahmed, Meftun January 2001 (has links) <p>Oscillations in cytoplasmic Ca<sup>2+</sup> concentration ([Ca<sup>2+</sup>]<sub>i</sub>) is the key signal in glucose-stimulated β-cells governing pulsatile insulin release. The glucose response of mouse β-cells is often manifested as slow oscillations and rapid transients of [Ca<sup>2+</sup>]<sub> i</sub>. In the present study, microfluorometric technique was used to evaluate the role of amino acids, glucagon, ryanodine and caffeine on the generation and maintenance of [Ca<sup>2+</sup>]<sub> i</sub> oscillations and transients in individual murine β-cells and isolated mouse pancreatic islets. The amino acids glycine, alanine and arginine, at around their physiological concentrations, transformed the glucose-induced slow oscillations of [Ca<sup>2+</sup>]<sub> i</sub> in isolated mouse β-cells into sustained elevation. Increased Ca<sup>2+</sup> entry promoted the reappearance of the slow [Ca<sup>2+</sup>]<sub> i</sub> oscillations. The [Ca<sup>2+</sup>]<sub> i</sub> oscillations were more resistant to amino acid transformation in intact islets, supporting the idea that cellular interactions are important for maintaining the oscillatory activity. Individual rat β-cells responded to glucose stimulation with slow [Ca<sup>2+</sup>]<sub> i</sub> oscillations due to periodic entry of Ca<sup>2+</sup> as well as with transients evoked by mobilization of intracellular stores. The [Ca<sup>2+</sup>]<sub> i</sub> oscillations in rat β-cells had a slightly lower frequency than those in mouse β-cells and were more easily transformed into sustained elevation in the presence of glucagon or caffeine. The transients of [Ca<sup>2+</sup>]<sub> i</sub> were more common in rat than in mouse β-cells and often appeared in synchrony also in cells lacking physical contact. Depolarization enhanced the generation of [Ca<sup>2+</sup>]<sub> i</sub> transients. In accordance with the idea that β-cells have functionally active ryanodine receptors, it was found that ryanodine sometimes restored oscillatory activity abolished by caffeine. However, the IP3 receptors are the major Ca<sup>2+</sup> release channels both in β-cells from rats and mice. Single β-cells from ob/ob mice did not differ from those of lean controls with regard to frequency, amplitudes and half-widths of the slow [Ca<sup>2+</sup>]<sub> i</sub> oscillations. Nevertheless, there was an excessive firing of [Ca<sup>2+</sup>]<sub> i</sub> transients in the β-cells from the ob/ob mice, which was suppressed by leptin at close to physiological concentrations. The enhanced firing of [Ca<sup>2+</sup>]<sub> i</sub> transients in ob/ob mouse β-cells may be due to the absence of leptin and mediated by activation of the phospholipase C signaling pathway.</p> Cell biology pancreatic β-cells islets of Langerhans glucose Ca2+ oscillations Ca2+ transients potassium ryanodine caffeine glucagon cAMP inositol 1 4 5-trisphosphate fura-2 glycine alanine arginine Ca2+ channels rats lean mice ob/ob mice leptin Cellbiologi Cell biology Cellbiologi
298	Oscillatory Ca2+ signaling in glucose-stimulated murine pancreatic β-cells : Modulation by amino acids, glucagon, caffeine and ryanodine Ahmed, Meftun January 2001 (has links) Oscillations in cytoplasmic Ca2+ concentration ([Ca2+]i) is the key signal in glucose-stimulated β-cells governing pulsatile insulin release. The glucose response of mouse β-cells is often manifested as slow oscillations and rapid transients of [Ca2+] i. In the present study, microfluorometric technique was used to evaluate the role of amino acids, glucagon, ryanodine and caffeine on the generation and maintenance of [Ca2+] i oscillations and transients in individual murine β-cells and isolated mouse pancreatic islets. The amino acids glycine, alanine and arginine, at around their physiological concentrations, transformed the glucose-induced slow oscillations of [Ca2+] i in isolated mouse β-cells into sustained elevation. Increased Ca2+ entry promoted the reappearance of the slow [Ca2+] i oscillations. The [Ca2+] i oscillations were more resistant to amino acid transformation in intact islets, supporting the idea that cellular interactions are important for maintaining the oscillatory activity. Individual rat β-cells responded to glucose stimulation with slow [Ca2+] i oscillations due to periodic entry of Ca2+ as well as with transients evoked by mobilization of intracellular stores. The [Ca2+] i oscillations in rat β-cells had a slightly lower frequency than those in mouse β-cells and were more easily transformed into sustained elevation in the presence of glucagon or caffeine. The transients of [Ca2+] i were more common in rat than in mouse β-cells and often appeared in synchrony also in cells lacking physical contact. Depolarization enhanced the generation of [Ca2+] i transients. In accordance with the idea that β-cells have functionally active ryanodine receptors, it was found that ryanodine sometimes restored oscillatory activity abolished by caffeine. However, the IP3 receptors are the major Ca2+ release channels both in β-cells from rats and mice. Single β-cells from ob/ob mice did not differ from those of lean controls with regard to frequency, amplitudes and half-widths of the slow [Ca2+] i oscillations. Nevertheless, there was an excessive firing of [Ca2+] i transients in the β-cells from the ob/ob mice, which was suppressed by leptin at close to physiological concentrations. The enhanced firing of [Ca2+] i transients in ob/ob mouse β-cells may be due to the absence of leptin and mediated by activation of the phospholipase C signaling pathway. Cell biology pancreatic β-cells islets of Langerhans glucose Ca2+ oscillations Ca2+ transients potassium ryanodine caffeine glucagon cAMP inositol 1 4 5-trisphosphate fura-2 glycine alanine arginine Ca2+ channels rats lean mice ob/ob mice leptin Cellbiologi Cell biology Cellbiologi
299	Optical projection tomography based 3D-spatial and quantitative assessments of the diabetic pancreas / Alanentalo, Tomas, January 2008 (has links) Diss. (sammanfattning) Umeå : Umeå universitet, 2008. / Härtill 4 uppsatser.
300	Gene Expression and Profiling of Human Islet Cell Subtypes: A Master’s Thesis Blodgett, David M. 25 July 2012 (has links) Background: The endocrine pancreas contains multiple cell types co-localized into clusters called the Islets of Langerhans. The predominant cell types include alpha and beta cells, which produce glucagon and insulin, respectively. The regulated release of these hormones maintains whole body glucose homeostasis, essential for normal metabolism and to prevent diabetes and complications from the disease. Given the heterogeneous nature of islet composition and absence of unique surface markers, many previous studies have focused on the whole islet. Sorting islet cells by intracellular hormone expression overcomes this limitation and provides pure populations of individual islet cell subsets, specifically alpha and beta cells. This technique provides the framework for characterizing human islet composition and will work towards identifying the genetic changes alpha and beta cells undergo during development, growth, and proliferation. Methods: Human islets obtained from cadaveric donors are dissociated into a single cell suspension, fixed, permeabilized, and labeled with antibodies specific to glucagon, insulin, and somatostatin. Individual alpha, beta, and delta cell populations are simultaneously isolated using fluorescence activated cell sorting. Candidate gene expression and microRNA profiles have been obtained for alpha and beta cell populations using a quantitative nuclease protection assay. Thus far, RNA has been extracted from whole islets and beta cells and subjected to next generation sequencing analysis. Results: The ratio of beta to alpha cells significantly increases with donor age and trends higher in female donors; BMI does not appear to significantly alter the ratio. Further, we have begun to investigate the unique gene expression profiles of alpha and beta cells versus whole islets, and have characterized the microRNA profiles of the two cell subsets. Conclusions: By establishing methods to profile multiple characteristics of alpha and beta cells, we hope to determine how gene, miRNA, and protein expression patterns change under environmental conditions that lead to beta cell failure or promote beta cell development, growth, and proliferation. Islets of Langerhans Gene Expression Profiling Amino Acids, Peptides, and Proteins Cell and Developmental Biology Digestive System Endocrine System Genetic Phenomena Genetics and Genomics

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