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Efeito do tratamento com PNU-282987, agonista do receptor colinérgico nicotínico alfa7, na resposta inflamatória e de remodelamento brônquico em modelo experimental de asma / Effects of PNU-282987 treatment, an agonist of ?7 nicotinic receptor, in inflammatory response and airway remodeling in an experimental model of asthmaMiranda, Claúdia Jeane Claudino de Pontes 17 November 2016 (has links)
Introdução: A inflamação constitui um dos fatores mais importantes da fisiopatologia da asma brônquica, caracterizada por uma resposta eosinofílica com produção de citocinas de perfil Th2. A persistência desta inflamação induz no pulmão um processo de reparo associado à redução progressiva da função pulmonar, que nem sempre é revertida pelos tratamentos disponíveis. O sistema colinérgico anti-inflamatório é descrito como um mecanismo neural que suprime a resposta imune e controla a inflamação principalmente pelo efeito da acetilcolina em receptores nicotínicos do tipo alfa7 (alfa7nAChR) encontrados em células do sistema imune. A acetilcolina (ACh) exerce um importante efeito na asma e recentemente demonstramos que a redução parcial da liberação da acetilcolina induz per se a inflamação pulmonar. Embora se saiba que os receptores muscarínicos (mAChRs) exercem um efeito pró-inflamatório e broncoconstritor na asma, a ativação de receptores nicotínicos (nAChRs) poderia ter um efeito benéfico reduzindo a inflamação pulmonar, fato demonstrado em modelos de inflamação sistêmica e aguda. O efeito da ativação do alfa7nAChR na fisiopatologia da asma ainda não está claramente elucidado. Objetivo: Investigar o efeito do tratamento com PNU-282987 (PNU), um agonista específico do alfa7nAChR, em um modelo murino de inflamação alérgica crônica das vias aéreas. Metodologia: Camundongos BALB/c foram submetidos ao protocolo de indução alérgica crônica das vias aéreas com ovoalbumina (OVA) ou salina intraperitoneal (i.p.) e posterior desafios inalatórios. A partir do 22° dia, os animais receberam diariamente tratamento com PNU ou veículo (Ve) até o 28° dia. Foram testadas três doses de PNU (0,5, 1,0 e 2,0 mg/Kg). A fim de evidenciar se o efeito obtido no tratamento com PNU era dependente do receptor alfa7nAChR, um grupo de animais foi tratado com MLA (antagonista do alfa7nAChR), previamente ao tratamento com PNU. No 29° dia do protocolo, os animais foram eutanasiados e foram avaliados o número de células inflamatórias no lavado broncoalveolar (LBA) e no sangue, os níveis de citocinas no LBA, a expressão do alfa7nAChR e mAchRs do tipo 3 (M3) e a ativação do fator de transcrição nuclear kB (NF-kB) no pulmão. O remodelamento brônquico foi avaliado por morfometria. As análises estatísticas foram realizadas por meio do programa SigmaStat (Jandel Scientific, San Rafael, CA), onde um P < 0,05 foi considerado estatisticamente significativo. Resultados: Houve expressão do alfa7nAChR e M3 no homogenato de pulmão de animais controle e sensibilizados. Determinamos por meio da redução de eosinófilos que a dose de 0,5 mg/Kg do tratamento com PNU foi a mais efetiva. Assim, observamos que o tratamento com PNU0,5 nos animais sensibilizados reduziu o número de células totais, eosinófilos, neutrófilos, macrófagos e linfócitos no LBA, assim como número de eosinófilos no sangue periférico e ao redor das vias aéreas. O tratamento com PNU reduziu os níveis de IgE no sangue e as citocinas IL-4, IL-13 e IL-17 no LBA. Todos estes efeitos foram revertido com o pré-tratamento com MLA, exceto para a citocina IL-17. Alem disso, o tratamento com PNU reduziu o remodelamento brônquico (área de edema, de epitélio e de músculo liso e deposição de fibras colágenas) assim como o número de células positivas para MMP-9 e TIMP-1 ao redor das vias aéreas. No pulmão a expressão do p-65-NF-kB, STAT3 fosforilado e o SOCS3 foram inibidas pelo PNU. Conclusão: Estes dados claramente demonstram que o alfa7nAChR está envolvido no controle da resposta inflamatória pulmonar alérgica e de remodelamento brônquico em modelo experimental de asma alérgica e portanto é um novo alvo com potencial terapêutico a ser explorado na fisiopatologia da asma brônquica / Background: Inflammation is one of the most important features in asthma pathophysiology, characterized by eosinophilic response with production of Th2 cytokine profile. The persistence of this inflammation can induce a lung repair process associated with a progressive reduction in lung function, which is not always reversed by available treatments. The anti-inflammatory cholinergic system was described as a neural mechanism that suppresses the immune response and controls inflammation mainly by the activaction of acetylcholine alfa7 nicotinic receptors (alfa7nAChR) found on immune cells. Acetylcholine (ACh) is an important mediator in asthma and we recently demonstrated that partial reduction on ACh release induced lung inflammation per se. Although it is known that muscarinic receptors (mAChRs) has a pro-inflammatory action and causes bronchoconstriction in asthma, the activation of nicotinic receptors (nAChRs) could have a beneficial effect reducing pulmonary inflammation as demonstrated in models of acute and systemic inflammation. The effects of alfa7nAChR activation in the pathophysiology of asthma have not been clearly elucidated. Aim: To investigate the effects of PNU- 282987 (PNU) treatment, a specific alfa7nAChR agonist, in a murine model of chronic allergic airway inflammation. Methods: BALB/c mice were subjected to a protocol of chronic allergic inflammation induced by intraperitoneal ovalbumin (OVA) or saline and subsequent challenges with inhalation. From the 22th day, the animals daily received PNU or vehicle (Ve) until the 28th day. PNU were tested in three differents doses (0.5, 1.0 and 2.0 mg/kg). In order to demonstrate that the effects obtained by PNU treatment was dependent on alfa7nAChR, a group of animals was treated with MLA (antagonist of alfa7nAChR) prior to the PNU treatment. On the 29th day of the protocol, the animals were euthanised and the number of inflammatory cells in the bronchoalveolar lavage fluid(BALF) fluid and blood, cytokine levels in BALF, the expression of alfa7nAChR and mAChRs type 3 (M3), and activation of nuclear transcription factor kB (NF-kB) in the lung were evaluated. Bronchial remodeling was assessed by morfometric methods. Statistical analyses were performed using the SigmaStat (Jandel Scientific, San Rafael, CA) and P < 0.05 is considered statistically significant. Results: ?7nAChR and M3 expression was detected in control and sensitized lung homogenate. The most effective dose of PNU treatment was 0.5 mg/kg evaluated by the effects on eosinophil reduction. Thus, we observed that treatment with PNU0,5 reduced the number of total cells, eosinophils, neutrophils, macrophages and lymphocytes in BALF, as well as number of eosinophils in peripheral blood and around the airways of sensitized animals. The treatment with PNU also reduced IgE levels in the blood, and cytokines IL-4, IL-13 and IL-17 in BALF. All these effects were reversed by pretreatment with MLA, except for IL-17 cytokine. Furthermore, treatment with PNU reduced bronchial remodeling (edema, epithelium and smooth muscle area and airway collagen deposition) as well as the number of positive cells for MMP-9 and TIMP-1 around the airways. The lung p-65-NF-kB, phosphorylated STAT3 and the SOCS3 expression were inhibited by PNU-282987. Conclusion: These data clearly demonstrate that the alfa7nAChR is involved in the control of allergic pulmonary inflammatory response and in bronchial remodeling in an experimental model of allergic asthma and it can be a new target with therapeutic potential to be explored in the pathophysiology of asthma
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Efeito do tratamento com PNU-282987, agonista do receptor colinérgico nicotínico alfa7, na resposta inflamatória e de remodelamento brônquico em modelo experimental de asma / Effects of PNU-282987 treatment, an agonist of ?7 nicotinic receptor, in inflammatory response and airway remodeling in an experimental model of asthmaClaúdia Jeane Claudino de Pontes Miranda 17 November 2016 (has links)
Introdução: A inflamação constitui um dos fatores mais importantes da fisiopatologia da asma brônquica, caracterizada por uma resposta eosinofílica com produção de citocinas de perfil Th2. A persistência desta inflamação induz no pulmão um processo de reparo associado à redução progressiva da função pulmonar, que nem sempre é revertida pelos tratamentos disponíveis. O sistema colinérgico anti-inflamatório é descrito como um mecanismo neural que suprime a resposta imune e controla a inflamação principalmente pelo efeito da acetilcolina em receptores nicotínicos do tipo alfa7 (alfa7nAChR) encontrados em células do sistema imune. A acetilcolina (ACh) exerce um importante efeito na asma e recentemente demonstramos que a redução parcial da liberação da acetilcolina induz per se a inflamação pulmonar. Embora se saiba que os receptores muscarínicos (mAChRs) exercem um efeito pró-inflamatório e broncoconstritor na asma, a ativação de receptores nicotínicos (nAChRs) poderia ter um efeito benéfico reduzindo a inflamação pulmonar, fato demonstrado em modelos de inflamação sistêmica e aguda. O efeito da ativação do alfa7nAChR na fisiopatologia da asma ainda não está claramente elucidado. Objetivo: Investigar o efeito do tratamento com PNU-282987 (PNU), um agonista específico do alfa7nAChR, em um modelo murino de inflamação alérgica crônica das vias aéreas. Metodologia: Camundongos BALB/c foram submetidos ao protocolo de indução alérgica crônica das vias aéreas com ovoalbumina (OVA) ou salina intraperitoneal (i.p.) e posterior desafios inalatórios. A partir do 22° dia, os animais receberam diariamente tratamento com PNU ou veículo (Ve) até o 28° dia. Foram testadas três doses de PNU (0,5, 1,0 e 2,0 mg/Kg). A fim de evidenciar se o efeito obtido no tratamento com PNU era dependente do receptor alfa7nAChR, um grupo de animais foi tratado com MLA (antagonista do alfa7nAChR), previamente ao tratamento com PNU. No 29° dia do protocolo, os animais foram eutanasiados e foram avaliados o número de células inflamatórias no lavado broncoalveolar (LBA) e no sangue, os níveis de citocinas no LBA, a expressão do alfa7nAChR e mAchRs do tipo 3 (M3) e a ativação do fator de transcrição nuclear kB (NF-kB) no pulmão. O remodelamento brônquico foi avaliado por morfometria. As análises estatísticas foram realizadas por meio do programa SigmaStat (Jandel Scientific, San Rafael, CA), onde um P < 0,05 foi considerado estatisticamente significativo. Resultados: Houve expressão do alfa7nAChR e M3 no homogenato de pulmão de animais controle e sensibilizados. Determinamos por meio da redução de eosinófilos que a dose de 0,5 mg/Kg do tratamento com PNU foi a mais efetiva. Assim, observamos que o tratamento com PNU0,5 nos animais sensibilizados reduziu o número de células totais, eosinófilos, neutrófilos, macrófagos e linfócitos no LBA, assim como número de eosinófilos no sangue periférico e ao redor das vias aéreas. O tratamento com PNU reduziu os níveis de IgE no sangue e as citocinas IL-4, IL-13 e IL-17 no LBA. Todos estes efeitos foram revertido com o pré-tratamento com MLA, exceto para a citocina IL-17. Alem disso, o tratamento com PNU reduziu o remodelamento brônquico (área de edema, de epitélio e de músculo liso e deposição de fibras colágenas) assim como o número de células positivas para MMP-9 e TIMP-1 ao redor das vias aéreas. No pulmão a expressão do p-65-NF-kB, STAT3 fosforilado e o SOCS3 foram inibidas pelo PNU. Conclusão: Estes dados claramente demonstram que o alfa7nAChR está envolvido no controle da resposta inflamatória pulmonar alérgica e de remodelamento brônquico em modelo experimental de asma alérgica e portanto é um novo alvo com potencial terapêutico a ser explorado na fisiopatologia da asma brônquica / Background: Inflammation is one of the most important features in asthma pathophysiology, characterized by eosinophilic response with production of Th2 cytokine profile. The persistence of this inflammation can induce a lung repair process associated with a progressive reduction in lung function, which is not always reversed by available treatments. The anti-inflammatory cholinergic system was described as a neural mechanism that suppresses the immune response and controls inflammation mainly by the activaction of acetylcholine alfa7 nicotinic receptors (alfa7nAChR) found on immune cells. Acetylcholine (ACh) is an important mediator in asthma and we recently demonstrated that partial reduction on ACh release induced lung inflammation per se. Although it is known that muscarinic receptors (mAChRs) has a pro-inflammatory action and causes bronchoconstriction in asthma, the activation of nicotinic receptors (nAChRs) could have a beneficial effect reducing pulmonary inflammation as demonstrated in models of acute and systemic inflammation. The effects of alfa7nAChR activation in the pathophysiology of asthma have not been clearly elucidated. Aim: To investigate the effects of PNU- 282987 (PNU) treatment, a specific alfa7nAChR agonist, in a murine model of chronic allergic airway inflammation. Methods: BALB/c mice were subjected to a protocol of chronic allergic inflammation induced by intraperitoneal ovalbumin (OVA) or saline and subsequent challenges with inhalation. From the 22th day, the animals daily received PNU or vehicle (Ve) until the 28th day. PNU were tested in three differents doses (0.5, 1.0 and 2.0 mg/kg). In order to demonstrate that the effects obtained by PNU treatment was dependent on alfa7nAChR, a group of animals was treated with MLA (antagonist of alfa7nAChR) prior to the PNU treatment. On the 29th day of the protocol, the animals were euthanised and the number of inflammatory cells in the bronchoalveolar lavage fluid(BALF) fluid and blood, cytokine levels in BALF, the expression of alfa7nAChR and mAChRs type 3 (M3), and activation of nuclear transcription factor kB (NF-kB) in the lung were evaluated. Bronchial remodeling was assessed by morfometric methods. Statistical analyses were performed using the SigmaStat (Jandel Scientific, San Rafael, CA) and P < 0.05 is considered statistically significant. Results: ?7nAChR and M3 expression was detected in control and sensitized lung homogenate. The most effective dose of PNU treatment was 0.5 mg/kg evaluated by the effects on eosinophil reduction. Thus, we observed that treatment with PNU0,5 reduced the number of total cells, eosinophils, neutrophils, macrophages and lymphocytes in BALF, as well as number of eosinophils in peripheral blood and around the airways of sensitized animals. The treatment with PNU also reduced IgE levels in the blood, and cytokines IL-4, IL-13 and IL-17 in BALF. All these effects were reversed by pretreatment with MLA, except for IL-17 cytokine. Furthermore, treatment with PNU reduced bronchial remodeling (edema, epithelium and smooth muscle area and airway collagen deposition) as well as the number of positive cells for MMP-9 and TIMP-1 around the airways. The lung p-65-NF-kB, phosphorylated STAT3 and the SOCS3 expression were inhibited by PNU-282987. Conclusion: These data clearly demonstrate that the alfa7nAChR is involved in the control of allergic pulmonary inflammatory response and in bronchial remodeling in an experimental model of allergic asthma and it can be a new target with therapeutic potential to be explored in the pathophysiology of asthma
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Vers un traitement de la maladie d'Alzheimer : synthèse de nouveaux ligands multi-cibles / Toward an innovative treatment of Alzheimer's disease : Design of novel multi-target directed ligandsPons, Mégane 06 December 2019 (has links)
La maladie d’Alzheimer (MA) est une maladie neurodégénérative complexe caractérisée par une perte progressive de la mémoire et de la cognition. C’est la première cause de démence chez le sujet âgé et affecte environs 4.6 millions de personnes par an, selon un rapport de l’association « Alzheimer’s disease International », le nombre de patients pourrait s’élever à 135.5 millions en 2050. Du fait de sa complexité, la MA reste incurable et seuls 4 médicaments aux vertus palliatives dont 3 visant à inhiber l’acétylcholinestérase (AChE) ont reçu une autorisation de mise sur le marché à ce jour. L’approche multi-cible parait particulièrement adaptée du fait du grand nombre de cibles potentielles de la pathologie, et du caractère multifactoriel de la maladie. Cette approche consiste à associer sur une seule molécule, plusieurs pharmacophores afin qu’ils puissent agir simultanément sur différentes cibles impliquées dans le processus neurodégénératif. Dans ce contexte, en parallèle de la resynthèse d’un ligand multi-cible conjugué alliant un inhibiteur d’AChE (IAChE) et un antioxydant, deux nouvelles familles de ligands multi-cibles conjuguées, combinant un IAChE et un agoniste des récepteurs nicotiniques α7 (α7 nAChR) ont été conçues et leur synthèse abordée. Dans le cas de la première famille, le fragment ivastigmine a été choisi pour sa capacité à inhiber de manière pseudo-irréversible l’AChE et a été conjugué à un motif quinuclidine, un puissant agoniste des α7 nAChRs impliqués dans la MA. En combinant ces deux fragments, il a été observé que les propriétés biologiques in vitro de chaque pharmacophore étaient améliorées. La structure de la seconde famille est basée sur le Donepezil, un IAChE réversible de plus forte affinité, combiné au même motif quinuclidine que dans la série précédente. Si des intermédiaires avancés ont été obtenus, un ou deux étapes restent à finaliser pour finaliser la synthèse de cette troisième famille de MTDL. / Alzheimer’s disease (AD) is a complex neurodegenerative disease characterised by a progressive loss of memory and cognition. Nowadays, 4.6 million new patients are identified every year and according to the “Alzheimer’s diseases International” association, the number of patients could reach 135.5 million in 2050. Due to its complexity, AD remains uncurable and only 4 palliative drugs, of which 3 are acetylcholinesterase (AChE) inhibitors (AChEI), have been approved by FDA to date. AD being a multifactorial illness, with many potential targets involved in the pathology, the MTDL approach seems promising. This strategy associates in one single molecule, different pharmacophores (at least) acting on different targets involved in this CNS-related disorder. In this context, in parallel with the upscaled synthesis of a conjugated MTDL combining an AChEI inhibitor and an antioxidant, two new families of conjugated MTDLs associating an AChEI and a α7 nicotinic receptor (α7 nAChR) agonist have been investigated. The structure of the first family was based on a Rivastigmine scaffold, known to be a pseudo-irreversible AChE inhibitor, and a quinuclidine fragment, a potent α7 nAChR agonist. By combining these two fragments, it was brought to light that the in vitro biological properties were improved on both targets. The second family was based on a donepezil fragment, a more potent AChEI, and the same quinuclidine fragment than in the first family. Advanced intermediates have been obtained, and two last steps remain to be achieved for the completion of this third MTDL series.
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Small Molecules as Negative Allosteric Modulators of Alpha7 nAChRsAlwassil, Osama 17 July 2012 (has links)
Alpha7 Neuronal nicotinic acetylcholine receptors (nAChRs) are involved in essential physiological functions and play a role in disorders such as Alzheimer’s disease. MD-354 (3-chlorophenylguanidine; 21), the first small–molecule negative allosteric modulator (NAM) at alpha7 nAChRs, served as a lead in developing structure–activity relationships for NAMs at a7 nAChRs. MD-354 (21) also binds at 5-HT3 receptors. Analogs of MD-354 with structural features detrimental to 5-HT3 receptor affinity were evaluated in patch-clamp recordings and an aniline N-methyl analog resulted in a more potent and selective NAM than MD-354. A new N-methyl series of compounds was synthesized in which the 3-position was replaced with different substituents considering their electronic, lipophilic, and steric nature. Comparative studies were initiated to investigate whether or not the MD-354 series and the N-methyl series bind in the same manner; 3D models of the extracellular domain of human alpha7 nAChRs were developed, allosteric sites identified, and docking studies conducted.
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Regulation of nAChRs and Stemness by Nicotine and E-cigarettes in NSCLCSchaal, Courtney 21 August 2016 (has links)
Lung cancer is the leading cause of cancer-related death in both men and women, nationally and internationally and kills more people each year than breast, prostate, and colon cancers combined. Non-small cell lung carcinoma (NSCLC) is the most common histological subtype of lung cancer, and accounts for 85% of all cases. Cigarette smoking is the single greatest risk factor for lung cancer, and is correlated with 80-90% of all lung cancer deaths. Nicotine, the addictive component of tobacco smoke, is not a carcinogen and cannot initiate tumors itself; however, it is known to act as a tumor promoter, by enhancing the proliferation, migration, and invasion of cells in vitro, thus accelerating tumor growth and metastasis in vivo. Nicotine exerts is tumor promoting effects primarily by binding to, and activation of, nicotinic acetylcholine receptors (nAChRs), specifically the α7 subunit of nAChRs. While α7 nAChR is expressed in a wide array of cells, how its expression is regulated is not fully understood. Here we sought to elucidate the transcriptional regulation of α7 nAChR in NSCLC cells. We report that α7 nAChR expression is induced by nicotine in an autoregulatory feedforward loop, and that the α7 gene promoter is differentially regulated by E2F1 and STAT1 transcription factors at an overlapping binding site suggesting a competitive interplay. Depletion of E2F1 resulted in a reduced ability of nicotine to induce α7 nAChR, while depletion of STAT1 resulted in enhanced induction, suggesting that nicotine might use these two transcription factors to modulate the expression of α7 nAChR in a very precise fashion. More recently, nicotine has been implicated in promoting self-renewal of stem-like side-population cells from lung cancers. Cancer stem-like cells have been implicated in tumor initiation as well as the maintenance, drug resistance, dormancy, recurrence, and metastasis of various tumor types. We had previously shown that the embryonic stem cell transcription factor, Sox2, is indispensable for self-renewal of stem-like cells from lung adenocarcinoma cell lines; hence we sought to determine whether nicotine enhances stemness of lung cancer stem-like cells through Sox2. We find that nicotine can induce the expression of Sox2 at the transcriptional level and this occurs through a nAChR-Src-Yap1-E2F1 signaling axis. Over recent years, electronic cigarettes (e-cigarettes) have emerged as healthy alternatives to traditional cigarette smoking as they do not contain tobacco; however, they do still contain nicotine. Our studies show that e-cigarette components can enhance tumor promoting properties of NSCLC cells similar to that observed with nicotine alone, and find that they can induce expression of Sox2 and mesenchymal markers as well as enhance migration and stemness of NSCLC cells. Taken together, these studies reveal novel molecular mechanisms by which exposure to nicotine, via cigarette smoke or e-cigarettes, could alter the oncogenic potential of NSCLC cells.
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Positive Allosteric Modulators of the Alpha7 Nicotinic Acetylcholine Receptor Potentiate Glutamate in Prefrontal Cortex: In Vivo Evidence for a Novel Class of Schizophrenia TreatmentsBortz, David Michael 22 May 2015 (has links)
No description available.
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Aspects of Non-Neuronal Signalling Functions of Acetylcholine in Colorectal Cancer : Roles for the α7nAChRNovotny, Ann January 2009 (has links)
No description available.
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Flavonoids with Novel Nicotinic Activity as Potential Pharmacotherapies to Treat Ethanol-Induced NeurotoxicityLutz, Joseph A 01 January 2014 (has links)
Ethanol causes neurotoxicity via several mechanisms at different points in the cycle of dependence, including neuroinflammation and oxidative stress during ethanol exposure as well as excitotoxicity during ethanol withdrawal. The primary therapeutic implication is that ethanol-induced neurotoxicity requires multifunctional pharmacotherapies which reduce all mechanisms. Using an innovative pharmacological high throughput screening method on a large plant extract library we discovered flavonoids with alpha7 nicotinic acetylcholine receptor (nAChR) activity. In addition to their well-known anti-inflammatory and antioxidant properties, this novel activity means they can potentially reduce excitotoxicity and therefore makes them ideal for inhibition of ethanol-induced neurotoxicity. Rhamnetin, the candidate compound, was first found to inhibit lipopolysaccharide induced inflammation in immortalized BV2 microglia, in part, via alpha7 nAChRs. We then established an in vitro model of ethanol induced-neurotoxicity using organotypic hippocampal slice cultures which incorporated both neuroinflammatory and excitotoxic components. Neuroinflammation enhanced excitotoxicity under control conditions but the reverse was observed during ethanol withdrawal. Both mechanisms are important but their interaction is not simple. Finally, rhamnetin was evaluated in this model and found to reduce neuroinflammation and excitotoxicity associated with ethanol withdrawal. In conclusion, the studies herein provide strong evidence for alpha7 nAChRs selective flavonoids as potential pharmacotherapies for the treatment of ethanol-induced neurotoxicity and further implicate neuroinflammation, excitotoxicity, and their interaction as critical mechanisms in this pathology.
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Elucidating the Role of the α7 Nicotinic Receptor in the Etiology of Schizophrenia.Chandley, Michelle Johnson 13 December 2008 (has links) (PDF)
The α7 subunit of the nicotinic receptor, a ligand gated ion channel with an affinity for nicotine, has long been implicated in the pathophysiology of schizophrenia due to the extremely high rate of smoking within the patient population. However, the exact role of the receptor has never fully been determined. In the following studies, various functions the receptor may assume in disease state are evaluated. There is a strong relationship between the immune system and schizophrenia, with the α7 subunit possibly serving as the link between the two. One of the following studies looks at the possibility of the receptor functioning as antigen in an autoimmune response. Blood sera of schizophrenic patients, as well as controls, were analyzed for the presence of antibodies to the α7 subunit of the nicotinic receptor. A sensitive ligand-based assay revealed schizophrenic patients could possess a pathogenic level of antibody that may exacerbate the degenerative nature of the disease, allowing for the possibility that receptor antibodies may serve as a contributing factor in the etiology of the disorder in at least a subset of patients. In other studies, the expression of the α7 receptor was investigated. Recombinant α7 receptor production has eluded researchers in non-mammalian species and this was the focus of our initial studies. In general, the lack of sufficient molecular recombinant techniques utilizing the receptor makes characterization of the α7 receptor and it's specific protein interactions difficult to evaluate. The regulatory mechanisms of the nicotinic receptor α7 subunit production and receptor formation have yet to be completely elucidated. Results in this investigation found a relationship between a functional CRE-element in the promoter region.
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Células-tronco mesenquimais derivados da geleia de Wharton na injúria cardiopulmonar e neuroimunomodulação sistêmica na sepse / Wharton\'s Jelly derived mesenchymal stem cells in sepsis-induced cardiopulmonar injury and systemic neuroimmunomodulationCóndor Capcha, José Manuel 15 May 2018 (has links)
A sepse causa uma alta taxa de mortalidade no mundo. A fisiopatologia da doença envolve uma rede complexa de mediadores inflamatórios que promovem a lesão de diversos tecidos, além de diversas alterações hemodinâmicas e disfunção do sistema nervoso autonômico (SNA). Assim sabe-se que o sistema nervoso cumpre um papel importante no controle da inflamação sistêmica mediante a via colinérgica anti-inflamatória (VCA) através do receptor nicotínico de acetilcolina alfa7 (alfa7nAChR). O uso das células-tronco mesenquimais (CTM) tem mostrado efeitos benéficos em diversos ensaios clínicos de doenças inflamatórias. Neste contexto, as células-tronco mesenquimais derivadas da geleia de Wharton do cordão umbilical (CTM-GW) tornam-se promissórias, uma vez que essas células são reconhecidas pela regulação da resposta imunológica, reparação neural, efeito anti-apoptose, assim como a melhora da sobrevida na sepse, em modelos experimentais. Nossa hipótese foi de que as CTM-GW poderiam cumprir um papel neuroimunomodulador através da VCA e atenuar a disfunção de múltiplos órgãos em um modelo animal de sepse de ligadura e punção do ceco (LPC). Inicialmente células da matriz do cordão umbilical foram isoladas e caracterizadas de acordo com o consenso internacional vigente. Ratos Wistar machos adultos foram subdivididos em grupos: 1) sham (operação simulada); 2) LPC; 3) LPC+CTM-GW (injetado 106 CTM-GW via intraperitoneal, i.p. 6 h após LPC) e 4) LPC+MLA+CTM-GW (MLA: Metillicaconitine, antagonista do alfa7nAChR, i.p., 5:30 h após LPC e 106 CTM-GW 6h após). Às 24 horas após LPC, foram avaliadas a função cardiovascular, hemodinâmica assim como os outros parâmetros. Interessantemente, o tratamento com CTM-GW na sepse atenuou a disfunção diastólica e protegeu a sensibilidade baroreflexa. Além disso, as CTM-GW estimularam a atividade autonômica, simpática e parassimpática no coração. Observamos que o tratamento celular induziu uma regulação da expressão do receptor alfa7nAChR e TLR4 no baço e no coração, assim como a redução da relação p-STAT3TYR705 e STAT3 total no baço. Outros efeitos importantes e adicionais foram a diminuição da infiltração de leucócitos e a regulação das citocinas pró-inflamatórias pelas células. O bloqueio da VCA usando MLA confirmou que o receptor alfa7nAChR pode ser um provável alvo, chave da ação das CTM entre vários outros mecanismos envolvidos na resposta imune. Finalmente, as CTM-GW conseguiram reduzir a apoptose no pulmão e no baço independentemente da VAC reforçando o conceito de que as células-tronco tem efeitos diversos além da imuno-regulação. Em conclusão, as CTM-GW na sepse foram capazes de atenuar a lesão cardiopulmonar assim como modular a atividade autonômica, reduzindo a inflamação sistêmica, pelo menos em parte, através da via colinérgica anti-inflamatória. Indubitavelmente todos estes efeitos anteriormente descritos e em associação se demonstraram fundamentais no mecanismo de reparo e proteção tecidual em resposta a sepse. Mais estudos pré-clínicos e futuros testes clínicos precisam ser realizados para maior compreensão destes mecanismos bem como uma possível validação terapêutica / Sepsis induces organ dysfunction due to overexpression of the inflammatory host response, involving cardiorespiratory and autonomic dysregulation, thus increasing the associated morbidity and mortality. The cholinergic anti-inflammatory pathway (CAP) is mediated by nervous system through alpha7 nicotinic acetylcholine receptor (alpha7nAChR). This receptor has an important role in systemic inflammation control. Wharton\'s jelly-derived mesenchymal stem cells (WJ-MSCs) are known to express genes and secreted factors related to neurological and immunological protection, as well as to improve survival in experimental sepsis. We hypothesized that WJ-MSCs play a modulatory role through the CAP and attenuate sepsis-induced organ injury in a cecal ligation and puncture (CLP) model. Rats were randomly divided into 4 groups: 1) Control (sham-operated); 2) submitted to CLP without treatment; 3) submitted to CLP and treated with 106 WJ-MSCs 6 h later and 4) CLP+MLA+WJ-MSC group (MLA: Methyllycaconitine, alpha7nAChR antagonist). All experiments were performed 24 h post-surgery. Echocardiographic parameters and heart rate variability were assessed. Importantly, treatment with WJ-MSCs attenuated diastolic heart failure and recovered barorreflex sensitivity. Moreover, WJ-MSCs injection increased cardiac sympathetic and cardiovagal activity. In cardiac and splenic tissue, WJ-MSC treatment downregulated TLR4 and alpha7nAChR expression, as well as it reduced p-STAT3/Total STAT3 ratio in the spleen. In addition, WJ-MSC reduced leukocyte infiltration and pro-inflammatory cytokines, which only were abolished by MLA treatment. Finally, WJ-MSC treatment diminished apoptosis in lung and spleen tissue. Together these findings suggest that treatment with WJ-MSCs appears to protect against sepsis-induced organ injury reducing systemic inflammation, at least in part, through cholinergic anti-inflammatory pathway
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