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Impacto do exercício físico na hiperalgesia induzida pela administração repetida de morfina em ratos neonatosNunes, Éllen Almeida January 2016 (has links)
A morfina é um analgésico eficaz e muitas vezes opioide usado para aliviar a dor moderada a grave durante o período neonatal precoce. A exposição repetida de morfina no início da vida tem implicações duradouras para o desenvolvimento do sistema nervoso, tais como alterações neuroquímicas e comportamentais a longo prazo em ratos. O exercício físico vem sendo utilizado como uma alternativa não farmacológica para tratamento de quadros dolorosos. Deste modo nosso objetivo foi avaliar o efeito da exposição a morfina no período neonatal nas respostas nociceptiva (térmica e mecânica) e bioquímicas (citocinas e neurotrofinas) em ratos de P30 e P60 antes e após a exposição ao exercício físico. Ratos Wistar com 7 dias foram divididos em dois grupos: salina (SA) e morfina (MO) e submetidos a 5 mg / dia / 7 dias P8 para P14 a soro fisiológico ou MO respectivamente. Nas idades de P16, P30 e P60 a resposta nociceptiva térmica foi avaliada através do teste da placa quente (PQ), a resposta mecânica por Von Frey (VF) e Randal e Selitto (RS). Ainda foram medidos os níveis basais de BDNF, NGF, IL-6 e IL-10 em córtex cerebral e tronco encefálico. Após a sessão de exercício foram realizados em P30 e P60 o teste de PQ, 1h e 24h após o exercício, o teste de VF foi realizado 24h após e os níveis de BDNF, NGF, IL-6 e IL-10 também foram medidos em córtex cerebral e tronco encefálico após a exposição ao exercício. Nossos resultados demonstram que os animais que receberam morfina no período neonatal apresentam diminuição do limiar nociceptivo térmico e mecânico em P30 e P60. Os níveis de BDNF, NGF, IL-6 e IL-10 apresentaram relação direta com a idade em tronco encefálico, aumento ao longo do tempo. Em córtex cerebral os níveis de BDNF e NGF demonstraram uma interação entre os fatores grupo e idade, onde os animais do grupo MO têm diminuição desses com a idade. A IL-10 teve efeito somente da idade, enquando a IL-6 não se mostrou alterada por nenhum fator. Após a exposição ao exercício no teste da PQ no P30 e P60 os animais SAE tiveram uma diminuição do limiar nociceptivo se igualando aos grupos que receberam morfina. No teste de VF em P30 os grupos que receberam morfina são diferentes do grupos salina. Em P60 o grupo SAE mostra mais uma vez diminuiçao do limiar nociceptivo se igualando as grupos morfina. Nos níveis de BDNF e NGF em tronco encefálico ocorreu interação entre idade e grupo, onde o grupo MOE demonstra diminuição. Em tronco encefalico a IL-6 e Il-10 só tiveram efeito da idade. Em córtex cerebral os níveis de BDNF tiveram interação entre idade e grupo, o grupo MOE teve diminuição destes níveis em comparação aos demais grupos. Nos níveis de NGF se observou efeito do tempo e do grupo onde os grupos que recebem morfina têm níveis menores do que os que recebem salina em P60. O grupo MOS teve níveis menores de IL-6 em cortex cerebral do que os demais grupos, enquanto que os níveis de IL-10 só tiveram efeito da idade. Portanto a morfina no período neonatal leva a diminuição no limiar nociceptivo térmico e mecânico em ratos e que o exercício físico melhora os níveis BDNF, NGF e IL-6 em animais expostos a morfina no período neonatal. Porém o exercício físico não foi capaz de reverter a hiperalgesia e alodínia induzida pela morfina nos animais de P30 e P60. Sendo assim nossos dados mostram a necessidade de mais estudos sobre a dor em recém-nascidos e o sobre o uso de opioides neste período. Também se mostra necessário mais estudos sobre tratamentos não farmacológicos como o exercício físico. / Morphine is an effective analgesic often used to relieve moderate to severe pain during the early neonatal period. In our previous study, repeated morphine exposure in early life triggered persistent implications for the development of the nervous system, such as neurochemical and behavioral alterations in rats at long-term. The exercise has been used as a non-pharmacological alternative for treating painful conditions. Thus our aim was to evaluate the effect of repeated morphine exposure during the neonatal period upon nociceptive responses (thermal and mechanical) and biochemical markers (cytokines and neurotrophins) before and after unique physical exercise session in rats at P30 and P60. Seven-day-old male Wistar rats were divided into two groups: saline and morphine and subjected to saline and morphine (5 μg/day/7 days) from P8 to P14, respectively. At P16, P30 and P60, the thermal nociceptive response was assessed using the hot plate test (HP), while the mechanical response by Von Frey (VF) and Randal and Selitto (RS) tests. The basal levels of BDNF, NGF, IL-6 and IL-10 were measured in brainstem and cerebral cortex. One hour and 24h after exercise, the HP was conducted in P30 and P60, the VF test was only performed 24 ho after exercise, as well as the levels of BDNF, NGF, IL-6 and IL-10 were also measured in cerebral cortex and brainstem. Our results show that rats that received morphine in the neonatal period presented decreased thermal and mechanical nociceptive threshold in P30 and P60. And, BDNF, NGF, IL-6 and IL-10 levels presented a direct relationship with age in brainstem, increase their levels when the age increased. In cerebral cortex, BDNF and NGF levels showed an interaction between age and treatment group, where the morphine group showed decreased levels when the age increased. There was age effect upon IL-10 levels and no effects upon IL-6 levels in cerebral cortex. After 24h of exercise, saline group subjected to exercise presented decreased nociceptive threshold in using HP at P30 and P60, with similar threshold presented by morphine group. In VF test, both morphine groups presented decreased threshold in relation to both saline groups at P30. However, at P60, saline group subjected to exercise presented decreased nociceptive threshold, matching the morphine groups. In brainstem, we found interaction between age and group in BDNF and NGF levels, where morphine-exercise group showed decreased levels; and we observed only age effect upon IL-6 and IL-10 levels. In cerebral cortex, we observed interaction between age and group upon BDNF levels, where morphine-exercise group showed decreased levels compared to other groups. In relation to NGF levels, we observed effect of age and group, where morphine groups presented lower levels than saline groups in P60. The morphine-sedentary group presented lower IL-6 levels in the cerebral cortex than the other groups, while only age effect was observed on IL-10 levels. Our data lead us to conclude that morphine exposure in the neonatal period triggers a decrease in thermal nociceptive and mechanical thresholds in rats. And, the physical exercise improves BDNF, NGF and IL-6 levels in rats exposed to morphine in the neonatal period. However, on session of exercise was not able to revert the hyperalgesia and allodynia induced by morphine in rats at P30 and P60. Therefore, our data highlight the need of more studies about pain in newborns and neonates and the effect of the opioid use in this period. And, it is necessary more studies about non-pharmacological treatments, for example exercise.
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Potencial terepêutico de inibidores de TRK no tratamento de sarcoma de Ewing : um estudo celular e molecularHeinen, Tiago Elias January 2015 (has links)
O sarcoma de Ewing (SE) é um dos mais agressivos tipos de câncer pediátrico. Apesar dos significativos avanços no tratamento dessa doença, ainda há uma grande necessidade no aumento das taxas de cura, redução da toxicidade quimioterápica e redução da resistência ao tratamento. Tem sido proposto que SE provém de precursores neuronais, podendo ter sua fisiologia afetada, pois, por neurotrofinas (NTs). Examinamos a influência de receptores de NTs (Trks) em SE. Foram avaliadas a expressão proteica de NTs (NGF e BDNF) e seus receptores (TrkA e TrkB, respectivamente) em amostras de tumores de pacientes com SE, e a expressão de mRNA nas linhagens celulares RD-ES e SK-ES-1. O tratamento das linhagens com o pan-inibidor de Trks (K252a) modificou a morfologia celular e diminuiu a expressão de mRNA de NGF, TrkA, BDNF e TrkB. Ainda, a inibição de Trks diminuiu drasticamente a proliferação e capacidade clonogênica celular. Efeitos sinérgicos foram observados quando as células foram tratadas em conjunto com baixas doses de quimioterápicos, tanto em células selvagens de SE, quanto nas quais induzimos quimiorresistência. Esse estudo sugere, pela primeira vez, que a inibição de Trks reduz a proliferação e sobrevivência celular em SE, além de aumentar a sensibilidade ao tratamento quimioterápico. / Ewing's sarcoma (ES) is one of the most aggressive types of pediatric cancer. Despite significant advances in the treatment of this disease, there is still a great need in increasing cure rates, reducing chemotherapy toxicity and treatment resistance. It has been proposed that ES might derive from neuronal precursors and may be influenced, therefore, by neurotrophins (NTs). We have examined the influence of Trk neurotrophin receptors in ES. Protein expression of NTs (NGF and BDNF) and their receptors (TrkA, and TrkB, respectively) was detected in tumor samples from patients with ES, and mRNA expression was analyzed in the RD-ES, SK-ES-1 cell lines. Treating cells with a Trk Pan-inhibitor (K252a) altered cell morphology and decreased the mRNA expression of NGF, TrkA, BDNF, and TrkB. In addition, Trk inhibition dramatically decreased cell proliferation and clonogenic capacity. Synergistic effects were observed when cells were treated in combination with low doses of cytotoxic chemotherapeutics, both in normal ES cells and cells in which chemoresistance was induced. The results suggest for the first time that Trk inhibition can reduce the proliferation and survival of ES cells and sensitize them to cytotoxic chemotherapy.
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Impacto do exercício físico na hiperalgesia induzida pela administração repetida de morfina em ratos neonatosNunes, Éllen Almeida January 2016 (has links)
A morfina é um analgésico eficaz e muitas vezes opioide usado para aliviar a dor moderada a grave durante o período neonatal precoce. A exposição repetida de morfina no início da vida tem implicações duradouras para o desenvolvimento do sistema nervoso, tais como alterações neuroquímicas e comportamentais a longo prazo em ratos. O exercício físico vem sendo utilizado como uma alternativa não farmacológica para tratamento de quadros dolorosos. Deste modo nosso objetivo foi avaliar o efeito da exposição a morfina no período neonatal nas respostas nociceptiva (térmica e mecânica) e bioquímicas (citocinas e neurotrofinas) em ratos de P30 e P60 antes e após a exposição ao exercício físico. Ratos Wistar com 7 dias foram divididos em dois grupos: salina (SA) e morfina (MO) e submetidos a 5 mg / dia / 7 dias P8 para P14 a soro fisiológico ou MO respectivamente. Nas idades de P16, P30 e P60 a resposta nociceptiva térmica foi avaliada através do teste da placa quente (PQ), a resposta mecânica por Von Frey (VF) e Randal e Selitto (RS). Ainda foram medidos os níveis basais de BDNF, NGF, IL-6 e IL-10 em córtex cerebral e tronco encefálico. Após a sessão de exercício foram realizados em P30 e P60 o teste de PQ, 1h e 24h após o exercício, o teste de VF foi realizado 24h após e os níveis de BDNF, NGF, IL-6 e IL-10 também foram medidos em córtex cerebral e tronco encefálico após a exposição ao exercício. Nossos resultados demonstram que os animais que receberam morfina no período neonatal apresentam diminuição do limiar nociceptivo térmico e mecânico em P30 e P60. Os níveis de BDNF, NGF, IL-6 e IL-10 apresentaram relação direta com a idade em tronco encefálico, aumento ao longo do tempo. Em córtex cerebral os níveis de BDNF e NGF demonstraram uma interação entre os fatores grupo e idade, onde os animais do grupo MO têm diminuição desses com a idade. A IL-10 teve efeito somente da idade, enquando a IL-6 não se mostrou alterada por nenhum fator. Após a exposição ao exercício no teste da PQ no P30 e P60 os animais SAE tiveram uma diminuição do limiar nociceptivo se igualando aos grupos que receberam morfina. No teste de VF em P30 os grupos que receberam morfina são diferentes do grupos salina. Em P60 o grupo SAE mostra mais uma vez diminuiçao do limiar nociceptivo se igualando as grupos morfina. Nos níveis de BDNF e NGF em tronco encefálico ocorreu interação entre idade e grupo, onde o grupo MOE demonstra diminuição. Em tronco encefalico a IL-6 e Il-10 só tiveram efeito da idade. Em córtex cerebral os níveis de BDNF tiveram interação entre idade e grupo, o grupo MOE teve diminuição destes níveis em comparação aos demais grupos. Nos níveis de NGF se observou efeito do tempo e do grupo onde os grupos que recebem morfina têm níveis menores do que os que recebem salina em P60. O grupo MOS teve níveis menores de IL-6 em cortex cerebral do que os demais grupos, enquanto que os níveis de IL-10 só tiveram efeito da idade. Portanto a morfina no período neonatal leva a diminuição no limiar nociceptivo térmico e mecânico em ratos e que o exercício físico melhora os níveis BDNF, NGF e IL-6 em animais expostos a morfina no período neonatal. Porém o exercício físico não foi capaz de reverter a hiperalgesia e alodínia induzida pela morfina nos animais de P30 e P60. Sendo assim nossos dados mostram a necessidade de mais estudos sobre a dor em recém-nascidos e o sobre o uso de opioides neste período. Também se mostra necessário mais estudos sobre tratamentos não farmacológicos como o exercício físico. / Morphine is an effective analgesic often used to relieve moderate to severe pain during the early neonatal period. In our previous study, repeated morphine exposure in early life triggered persistent implications for the development of the nervous system, such as neurochemical and behavioral alterations in rats at long-term. The exercise has been used as a non-pharmacological alternative for treating painful conditions. Thus our aim was to evaluate the effect of repeated morphine exposure during the neonatal period upon nociceptive responses (thermal and mechanical) and biochemical markers (cytokines and neurotrophins) before and after unique physical exercise session in rats at P30 and P60. Seven-day-old male Wistar rats were divided into two groups: saline and morphine and subjected to saline and morphine (5 μg/day/7 days) from P8 to P14, respectively. At P16, P30 and P60, the thermal nociceptive response was assessed using the hot plate test (HP), while the mechanical response by Von Frey (VF) and Randal and Selitto (RS) tests. The basal levels of BDNF, NGF, IL-6 and IL-10 were measured in brainstem and cerebral cortex. One hour and 24h after exercise, the HP was conducted in P30 and P60, the VF test was only performed 24 ho after exercise, as well as the levels of BDNF, NGF, IL-6 and IL-10 were also measured in cerebral cortex and brainstem. Our results show that rats that received morphine in the neonatal period presented decreased thermal and mechanical nociceptive threshold in P30 and P60. And, BDNF, NGF, IL-6 and IL-10 levels presented a direct relationship with age in brainstem, increase their levels when the age increased. In cerebral cortex, BDNF and NGF levels showed an interaction between age and treatment group, where the morphine group showed decreased levels when the age increased. There was age effect upon IL-10 levels and no effects upon IL-6 levels in cerebral cortex. After 24h of exercise, saline group subjected to exercise presented decreased nociceptive threshold in using HP at P30 and P60, with similar threshold presented by morphine group. In VF test, both morphine groups presented decreased threshold in relation to both saline groups at P30. However, at P60, saline group subjected to exercise presented decreased nociceptive threshold, matching the morphine groups. In brainstem, we found interaction between age and group in BDNF and NGF levels, where morphine-exercise group showed decreased levels; and we observed only age effect upon IL-6 and IL-10 levels. In cerebral cortex, we observed interaction between age and group upon BDNF levels, where morphine-exercise group showed decreased levels compared to other groups. In relation to NGF levels, we observed effect of age and group, where morphine groups presented lower levels than saline groups in P60. The morphine-sedentary group presented lower IL-6 levels in the cerebral cortex than the other groups, while only age effect was observed on IL-10 levels. Our data lead us to conclude that morphine exposure in the neonatal period triggers a decrease in thermal nociceptive and mechanical thresholds in rats. And, the physical exercise improves BDNF, NGF and IL-6 levels in rats exposed to morphine in the neonatal period. However, on session of exercise was not able to revert the hyperalgesia and allodynia induced by morphine in rats at P30 and P60. Therefore, our data highlight the need of more studies about pain in newborns and neonates and the effect of the opioid use in this period. And, it is necessary more studies about non-pharmacological treatments, for example exercise.
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Potencial terepêutico de inibidores de TRK no tratamento de sarcoma de Ewing : um estudo celular e molecularHeinen, Tiago Elias January 2015 (has links)
O sarcoma de Ewing (SE) é um dos mais agressivos tipos de câncer pediátrico. Apesar dos significativos avanços no tratamento dessa doença, ainda há uma grande necessidade no aumento das taxas de cura, redução da toxicidade quimioterápica e redução da resistência ao tratamento. Tem sido proposto que SE provém de precursores neuronais, podendo ter sua fisiologia afetada, pois, por neurotrofinas (NTs). Examinamos a influência de receptores de NTs (Trks) em SE. Foram avaliadas a expressão proteica de NTs (NGF e BDNF) e seus receptores (TrkA e TrkB, respectivamente) em amostras de tumores de pacientes com SE, e a expressão de mRNA nas linhagens celulares RD-ES e SK-ES-1. O tratamento das linhagens com o pan-inibidor de Trks (K252a) modificou a morfologia celular e diminuiu a expressão de mRNA de NGF, TrkA, BDNF e TrkB. Ainda, a inibição de Trks diminuiu drasticamente a proliferação e capacidade clonogênica celular. Efeitos sinérgicos foram observados quando as células foram tratadas em conjunto com baixas doses de quimioterápicos, tanto em células selvagens de SE, quanto nas quais induzimos quimiorresistência. Esse estudo sugere, pela primeira vez, que a inibição de Trks reduz a proliferação e sobrevivência celular em SE, além de aumentar a sensibilidade ao tratamento quimioterápico. / Ewing's sarcoma (ES) is one of the most aggressive types of pediatric cancer. Despite significant advances in the treatment of this disease, there is still a great need in increasing cure rates, reducing chemotherapy toxicity and treatment resistance. It has been proposed that ES might derive from neuronal precursors and may be influenced, therefore, by neurotrophins (NTs). We have examined the influence of Trk neurotrophin receptors in ES. Protein expression of NTs (NGF and BDNF) and their receptors (TrkA, and TrkB, respectively) was detected in tumor samples from patients with ES, and mRNA expression was analyzed in the RD-ES, SK-ES-1 cell lines. Treating cells with a Trk Pan-inhibitor (K252a) altered cell morphology and decreased the mRNA expression of NGF, TrkA, BDNF, and TrkB. In addition, Trk inhibition dramatically decreased cell proliferation and clonogenic capacity. Synergistic effects were observed when cells were treated in combination with low doses of cytotoxic chemotherapeutics, both in normal ES cells and cells in which chemoresistance was induced. The results suggest for the first time that Trk inhibition can reduce the proliferation and survival of ES cells and sensitize them to cytotoxic chemotherapy.
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Le rôle des cellules gliales de Müller dans la mort des cellules ganglionnaires de la rétine par des mécanismes cellulaires non-autonomesLebrun-Julien, Frédéric 11 1900 (has links)
Les cellules gliales sont essentielles au fonctionnement du système nerveux. Dans la rétine, les cellules gliales de Müller assurent à la fois l’homéostasie du tissu et la protection des neurones, notamment celle des cellules ganglionnaires de la rétine (CGRs).
L’hypothèse principale de la thèse est que les cellules de Müller joueraient un rôle primordial dans la survie neuronale tant au plan de la signalisation des neurotrophines/proneurotrophines par suite d’une blessure que lors des mécanismes d’excitotoxicité.
Contrairement au brain-derived neurotrophic factor (BDNF), le nerve growth factor (NGF) n’est pas en mesure d’induire la survie des CGRs après une section du nerf optique. Le premier objectif de la thèse a donc été de localiser les récepteurs p75NTR et TrkA du NGF dans la rétine adulte et d’établir leur fonction respective en utilisant des ligands peptidomimétiques agonistes ou antagonistes spécifiques pour chacun des récepteurs. Nos résultats ont démontré que TrkA est surexprimé par les CGRs après l’axotomie, tandis que p75NTR est spécifiquement exprimé par les cellules de Müller. Alors que NGF n’est pas en mesure d’induire la survie des CGRs, l’activation spécifique de TrkA par des ligands peptidomimétique est nettement neuroprotectrice. De façon surprenante, le blocage sélectif de p75NTR ou l’absence de celui-ci protège les CGRs de la mort induite par l’axotomie. De plus, la combinaison de NGF avec l’antagoniste de p75NTR agit de façon synergique sur la survie des CGRS. Ces résultats révèlent un nouveau mécanisme par lequel le récepteur p75NTR exprimé par les cellules gliales de Müller peut grandement influencer la survie neuronale.
Ensuite, nous avons voulu déterminer l’effet des proneurotrophines dans la rétine adulte. Nous avons démontré que l’injection de proNGF induit la mort des CGRs chez le rat et la souris par un mécanisme dépendant de p75NTR. L’expression de p75NTR étant exclusive aux cellules de Müller, nous avons testé l’hypothèse que le proNGF active une signalisation cellulaire non-autonome qui aboutit à la mort des CGRs. En suivant cette idée, nous avons montré que le proNGF induit une forte expression du tumor necrosis factor α (TNFα) dans les cellules de Müller et que l’inhibition du TNF bloque la mort neuronale induite par le proNGF. L’utilisation de souris knock-out pour la protéine p75NTR, son co-récepteur sortiline, ou la protéine adaptatrice NRAGE a permis de montrer que la production de TNF par les cellules gliales était dépendante de ces protéines. Le proNGF semble activer une signalisation cellulaire non-autonome qui cause la mort des neurones de façon dépendante du TNF in vivo.
L’hypothèse centrale de l’excitotoxicité est que la stimulation excessive des récepteurs du glutamate sensibles au N-Methyl-D-Aspartate (NMDA) est dommageable pour les neurones et contribue à plusieurs maladies neurodégénératives. Les cellules gliales sont soupçonnées de contribuer à la mort neuronale par excitotoxicité, mais leur rôle précis est encore méconnu. Le dernier objectif de ma thèse était d’établir le rôle des cellules de Müller dans cette mort neuronale. Nos résultats ont démontré que l’injection de NMDA induit une activation du nuclear factor κB (NF-κB) dans les cellules de Müller, mais pas dans les CGRs, et que l’utilisation d’inhibiteurs du NF-κB empêche la mort des CGRs. De plus, nous avons montré que les cellules de Müller en réaction à l’activation du NF-κB produisent la protéine TNFα laquelle semble être directement impliquée dans la mort des CGRs par excitotoxicité. Cette mort cellulaire se produit principalement par l’augmentation à la surface des neurones des récepteurs AMPA perméables au Ca2+, un phénomène dépendant du TNFα. Ces donnés révèlent un nouveau mécanisme cellululaire non-autonome par lequel les cellules gliales peuvent exacerber la mort neuronale lors de la mise en jeu de mécanismes excitotoxiques. / Glial cells are essential for the functioning of the nervous system. In the retina, the Müller glial cells ensure the homeostasis of this tissue as well as the protection of neurons including the retinal ganglion cells (RGCs).
The main hypothesis of this thesis is that Müller cells play a predominant role in neuronal survival both at the levels of neurotrophin/proneurotrophin signaling following injury and excitotoxic mechanisms.
Unlike the brain-derived neurotrophic factor (BDNF), the nerve growth factor (NGF) is unable to induce RGCs survival following optic nerve transection. The first objective of the thesis was therefore to describe the expression of the two receptors of NGF, p75NTR and TrkA, in the adult retina and to address their functional role by using peptidomimetic agonistic or antagonistic ligands specific for each receptor. Our results showed that TrkA is overexpressed by RGCs following axotomy, whereas p75NTR is specifically expressed by Müller cells. While NGF by itself does not promote RGC survival, selective activation of TrkA receptors using peptidomimetic ligands is markedly neuroprotective. Surprisingly, selective blockers of p75NTR, or the absence of p75NTR, protect RGCs from axotomy-induced death. Moreover, combination of NGF or TrkA agonists with p75NTR antagonists functions synergistically to enhance RGC survival. These results reveal a new mechanism by which p75NTR expression by Müller glia may profoundly influence neuronal survival.
Next, we wanted to address the effect of proneurotrophins in the adult retina. We showed that injection of proNGF induces the death of RGCs in rats and mice by a p75NTR-dependent signaling mechanism. Expression of p75NTR in the adult retina being confined to Müller glial cells, we tested the hypothesis that proNGF activates a non-cell autonomous signaling pathway to induce RGC death. Consistent with this notion, we showed that proNGF induced a robust expression of tumor necrosis factor α (TNFα) in Müller cells, and that genetic or biochemical ablation of TNFα blocked proNGF-induced death of retinal neurons. Mice rendered null for p75NTR, its co-receptor sortilin, or the adaptor protein NRAGE were defective in proNGF-induced glial TNFα production and did not undergo proNGF-induced retinal ganglion cell death. We concluded that proNGF activates a non-cell autonomous signaling pathway that causes TNFα-dependent death of retinal neurons in vivo.
The central hypothesis of excitotoxicity is that excessive stimulation of neuronal N-Methyl-D-Aspartate (NMDA)-sensitive glutamate receptors is harmful to neurons and contributes to a variety of neurological disorders. Glial cells have been proposed to participate in excitotoxic neuronal loss, but their precise role is poorly defined. In this in vivo study, we showed that NMDA induces a strong NF-κB activation in Müller glia, but not in retinal neurons. Intriguingly, NMDA-induced death of retinal neurons was effectively blocked by inhibitors of NF-κB activity. We demonstrated that TNFα protein produced in Müller glial cells via an NMDA-induced NF-κB dependent pathway plays a crucial role in the excitotoxic loss of retinal neurons. This cell loss occurs mainly through a TNFα-dependent increase in Ca2+-permeable AMPA receptors on susceptible neurons. Thus, our data reveal a novel non-cell-autonomous mechanism by which glial cells can profoundly exacerbate neuronal death following excitotoxic injury.
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Dano neural em Hanseníase: estudo transversal sob uma perspectiva clínica e imunológicaBATISTA, Keila de Nazaré Madureira January 2008 (has links)
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Previous issue date: 2008 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A hanseníase constitui causa freqüente de acometimento de nervos periféricos, em nosso meio. O objetivo desse estudo foi avaliar o dano neural em pacientes hansênicos através da avaliação simplificada das funções neurais e complicações, eletroneuromiografia e correlacionar com dosagem sanguínea de anti-NGF e variáveis clínicas da doença. Neste trabalho fez-se avaliação simplificada e dosagem de títulos de anti-NGF em 46 pacientes e eletroneuromiografia de 12 pacientes, todos esses pacientes pertenciam ao serviço de dermatologia do ambulatório de epidemiologia de dermatologia do Núcleo de Medicina Tropical/UFPA. O trabalho demonstrou que ao avaliarmos o dano neural pela avaliação simplificada, eletroneuromiografia e dosagem de anti-NGF, ocorre predominância do dano neural nas variáveis: sexo masculino, a idade de 15 a 45 anos, pólo lepromatoso, tempo de tratamento superior a 2 anos e presença de reação; A presença de dano neural foi observada em 78% dos pacientes, com algum grau de incapacidade, na forma multibacilar, com neurite e reação. Na relação da avaliação por técnica simplificada com a eletroneuromiografia houve fraca concordância e ausência de discordância. Títulos de anti-NGF estava presente em todas as formas clínicas, significante nos MB, pouco maiores em pacientes com neurite e menores em pacientes com reação. Não houve significância dos títulos de anti-NGF entre pacientes com dano neural e os sem dano, alteração motora os paucibacilares apresentavam média maior que os multibacilares, e na alteração sensitiva os títulos se mostraram maiores em pacientes multibacilares em relação ao paucibacilar. / The leprosy is a frequent cause of involvement of the peripheral nerves in our environment. The purpose of this study was to evaluate the nerve damage in patients with leprosy through assessment simplified of the neural function and complications, electroneuromyography and to correlate with blood dosage of anti-NGF and clinical variables of the disease. In this work was done assessment simplified and dosage of title of anti-NGF in 46 patients and electroneuromyography in 12 patients, all these patients belonged to the department of dermatology of clinic of Dermatology's epidemiology of the Núcleo de Medicina Tropical/UFPA. The work showed in the evaluation of the nerve damage executed by assessment simplified, electroneuromyography and dosage of anti-NGF, occurs predominance of the damage in the variables: male, age between 15 to 45 years, pole lepromatosy, time of treatment over 2 years and presence of reaction; The presence of nerve damage was observed in 78% of patients, with some degree of disability, in the multibacillary form, with neuritis and reaction. In respect of the assessment by simplified technique with electroneuromyography there was little agreement and no disagreement. Titles of anti-NGF were present in all clinical forms, significant in MB, somewhat higher in patients with neuritis and minors in patients with reaction. There was no significance of the titles of anti-NGF among patients with nerve damage and without damage, in the motor amendment the paucibacillary patients had average higher than the multibacillary patients, and in the sensory changes the titles were higher in patients multibacillary compared with paucibacillary patients.
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The Tyrosine Kinase GTK : Signal Transduction and Biological FunctionAnnerén, Cecilia January 2001 (has links)
<p>Protein tyrosine kinases play an important role in the regulation of various cellular processes such as</p><p>growth, differentiation and survival. GTK, a novel SRC-like cytoplasmic tyrosine kinase, was recently cloned from a mouse insulinoma cell line and the present work was conducted in order to find a biological function of GTK in insulin producing and neuronal cells. It was observed that kinase active GTK-mutants, expressed in RINm5F cells, transferred to the cell nucleus and increased the levels of the cell cycle regulatory protein p27<sup>KIP1</sup>, reduced cell growth and stimulated glucagon mRNA expression. Furthermore, wild type GTK induces neurite outgrowth in the rat adrenal pheochromocytoma PC12 cell line, through activation of the RAP1-pathway, suggesting a role of GTK for cell differentiation. Studies using transgenic mice, expressing GTK under the control of the rat insulin 1 promoter, demonstrated a dual role of GTK for β-cell growth: Whereas GTK increases the β-cell mass and causes enhanced β-cell proliferation in response to partial pancreatectomy it also induced β-cell death in response to proinflammatory cytokines and impaired the glucose tolerance in mice treated with the β-cell toxin streptozotocin suggesting a possible role of GTK for β-cell destruction in Type 1 diabetes. We have also observed that GTK-transgenic islets and GTK-expressing RINm5F cells exhibit a reduced insulininduced activation of the insulin receptor substrate (IRS-1 and IRS-2)-pathways, partly due to an increased basal activity of these. GTK was found to associate with and phosphorylate the SH2 domain adapter protein SHB, which could explain many of the GTK-dependent effects both in vitro and in vivo. In summary, the present work suggests that the novel tyrosine kinase GTK is involved in various signal transduction pathways, regulating different cellular responses, such as proliferation, differentiation and survival.</p>
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Roles of the Shb and Cbl Proteins in Signal Transduction and Blood Vessel FormationLu, Lingge January 2003 (has links)
<p>Formation of blood vessels occurs through two processes: vasculogenesis and angiogenesis, which are regulated by various growth factors such as vascular endothelial growth factor, fibroblast growth factor and platelet-derived growth factor. The present study was carried out in order to investigate the roles of the Shb and Cbl proteins in growth factor-mediated signal transduction and blood vessel formation. Shb was found to be involved in NGF-stimulated Rap1 signaling in PC12 cells by forming a complex with CrkII and a 130-135 kDa protein. The Rap1 signaling pathway contributed to NGF-dependent neurite outgrowth. In immortomouse brain endothelial (IBE) cells, Shb increased cell spreading, migration and cytoskeletal rearrangements. Such effects may partly be due to altered Rap1 activation in Shb overexpressing IBE cells. Shb was required for tubular morphogenesis in collagen gels in the presence of FGF-2. In embryoid bodies (EBs) derived from murine embryonic stem cells, Shb up-regulated both VEGFR2 and Tal1 expression at early stages of EB development and thus promoted blood vessel formation both in the absence and in the presence of growth factors. In IBE cells, Cbl positively regulated FGF-2 signaling and increased cell proliferation. Mutation of RING finger alone did not affect blood vessel formation in EBs. However, EBs overexpressing the oncogenic form Cbl 70Z, which had a deletion of the linker region and the first cysteine of the RING finger, exhibited intense CD31 positive sheet-like staining and blood vessel. The results suggested that Cbl had dual roles in endothelial cells: it promoted FGF-2-induced proliferation whereas down-regulated proliferation of endothelial progenitor cells.</p><p>The present work suggests that Shb and Cbl play a crucial role in cell differentiation and blood vessel formation.</p>
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The Tyrosine Kinase GTK : Signal Transduction and Biological FunctionAnnerén, Cecilia January 2001 (has links)
Protein tyrosine kinases play an important role in the regulation of various cellular processes such as growth, differentiation and survival. GTK, a novel SRC-like cytoplasmic tyrosine kinase, was recently cloned from a mouse insulinoma cell line and the present work was conducted in order to find a biological function of GTK in insulin producing and neuronal cells. It was observed that kinase active GTK-mutants, expressed in RINm5F cells, transferred to the cell nucleus and increased the levels of the cell cycle regulatory protein p27KIP1, reduced cell growth and stimulated glucagon mRNA expression. Furthermore, wild type GTK induces neurite outgrowth in the rat adrenal pheochromocytoma PC12 cell line, through activation of the RAP1-pathway, suggesting a role of GTK for cell differentiation. Studies using transgenic mice, expressing GTK under the control of the rat insulin 1 promoter, demonstrated a dual role of GTK for β-cell growth: Whereas GTK increases the β-cell mass and causes enhanced β-cell proliferation in response to partial pancreatectomy it also induced β-cell death in response to proinflammatory cytokines and impaired the glucose tolerance in mice treated with the β-cell toxin streptozotocin suggesting a possible role of GTK for β-cell destruction in Type 1 diabetes. We have also observed that GTK-transgenic islets and GTK-expressing RINm5F cells exhibit a reduced insulininduced activation of the insulin receptor substrate (IRS-1 and IRS-2)-pathways, partly due to an increased basal activity of these. GTK was found to associate with and phosphorylate the SH2 domain adapter protein SHB, which could explain many of the GTK-dependent effects both in vitro and in vivo. In summary, the present work suggests that the novel tyrosine kinase GTK is involved in various signal transduction pathways, regulating different cellular responses, such as proliferation, differentiation and survival.
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Roles of the Shb and Cbl Proteins in Signal Transduction and Blood Vessel FormationLu, Lingge January 2003 (has links)
Formation of blood vessels occurs through two processes: vasculogenesis and angiogenesis, which are regulated by various growth factors such as vascular endothelial growth factor, fibroblast growth factor and platelet-derived growth factor. The present study was carried out in order to investigate the roles of the Shb and Cbl proteins in growth factor-mediated signal transduction and blood vessel formation. Shb was found to be involved in NGF-stimulated Rap1 signaling in PC12 cells by forming a complex with CrkII and a 130-135 kDa protein. The Rap1 signaling pathway contributed to NGF-dependent neurite outgrowth. In immortomouse brain endothelial (IBE) cells, Shb increased cell spreading, migration and cytoskeletal rearrangements. Such effects may partly be due to altered Rap1 activation in Shb overexpressing IBE cells. Shb was required for tubular morphogenesis in collagen gels in the presence of FGF-2. In embryoid bodies (EBs) derived from murine embryonic stem cells, Shb up-regulated both VEGFR2 and Tal1 expression at early stages of EB development and thus promoted blood vessel formation both in the absence and in the presence of growth factors. In IBE cells, Cbl positively regulated FGF-2 signaling and increased cell proliferation. Mutation of RING finger alone did not affect blood vessel formation in EBs. However, EBs overexpressing the oncogenic form Cbl 70Z, which had a deletion of the linker region and the first cysteine of the RING finger, exhibited intense CD31 positive sheet-like staining and blood vessel. The results suggested that Cbl had dual roles in endothelial cells: it promoted FGF-2-induced proliferation whereas down-regulated proliferation of endothelial progenitor cells. The present work suggests that Shb and Cbl play a crucial role in cell differentiation and blood vessel formation.
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