An Investigation of Three-Finger Toxin—nAChR Interactions through Rosetta Protein Docking

Gulsevin, Alican, Meiler, Jens

20 April 2023

Three-finger toxins (3FTX) are a group of peptides that affect multiple receptor types. One group of proteins affected by 3FTX are nicotinic acetylcholine receptors (nAChR). Structural information on how neurotoxins interact with nAChR is limited and is confined to a small group of neurotoxins. Therefore, in silico methods are valuable in understanding the interactions between 3FTX and different nAChR subtypes, but there are no established protocols to model 3FTX–nAChR interactions. We followed a homology modeling and protein docking protocol to address this issue and tested its success on three different systems. First, neurotoxin peptides co-crystallized with acetylcholine binding protein (AChBP) were re-docked to assess whether Rosetta protein–protein docking can reproduce the native poses. Second, experimental data on peptide binding to AChBP was used to test whether the docking protocol can qualitatively distinguish AChBP-binders from non-binders. Finally, we docked eight peptides with known α7 and muscle-type nAChR binding properties to test whether the protocol can explain the differential activities of the peptides at the two receptor subtypes. Overall, the docking protocol predicted the qualitative and some specific aspects of 3FTX binding to nAChR with reasonable success and shed light on unknown aspects of 3FTX binding to different receptor subtypes.

info:eu-repo/classification/ddc/610

ddc:610

Investigation of Protein/Ligand Interactions Relating Structural Dynamics to Function: Combined Computational and Experimental Approaches

Pavlovicz, Ryan Elliott

24 June 2014

No description available.

Biophysics

computational chemistry

molecular modeling

free energy analysis

biophysics

protein receptors

docking

force field parameterization

SAM

nAChR

RAR

retinoic acid receptor

nicotinic acetylcholine receptor

S-adenosylmethionine

Impact of Nicotine on Non-targeted Radiation Effects

Katalmohseni, Hedieh

04 1900

<p>Ionizing radiation is without a doubt an invaluable tool in diagnostic imaging as well as radiation therapy. With the growing number of medical and occupational exposures, together with challenges against the LNT model, low dose exposures and non-targeted effects have been subject to intensive research. Additionally, with the advances in the field of radiation therapy and longer life expectancy after the treatment, the risks associated with second malignancies following radiation therapy for various cancers has received a tremendous amount of attention. On the other hand, nicotine, as the addictive component of tobacco has been known for its adverse health effects and its relation to various types of cancers, accounting for one in 10 adult deaths worldwide. Both nicotine and low doses of radiation are amongst the stressors that widely affect the public. Surprisingly, the interactions between low-dose effects and nicotine exposure have not received the proper scientific attention. Our group has been involved in investigation of the non-targeted effects of radiation with a variety of endpoints. Different natural compounds and signalling molecules have also been studied in our lab for their possible role or contribution to bystander signalling. This research involves the study of the impact of nicotine on radiation-induced bystander effects and also radioadaptive responses. Different concentrations of nicotine were used to study the kinetics of the drug as well as any detrimental or modifying effects when used together with radiation. It was shown that nicotine has a protective effect on survival of the cells in certain concentrations that follows a biphasic model. Similar bimodal behaviour was observed with bystander effect. No adaptation to a challenge dose of radiation occurred as a result of incubation with varying concentrations of nicotine, nor was such an effect shown with a priming dose of radiation. The results of the present study suggest that nicotine has a complicated effect on the cells which can vary significantly depending on the concentrations used and also the duration of exposure. nAChRs may have an important role in the response of the bystander cells when nicotine is involved as the results showed a shift in the response of the receptors to nicotine. This thesis is aimed to shed light on the impact of nicotine and initiate more detailed investigations on pathways through which these effects are mediated.</p> / Master of Science (MSc)

Non-targeted Radiation Effects

Radaition-induced Bystander Effect

Nicotine

Nicotinic Acetylcholine Receptors

Adaptive Response

Environmental Health

Medical Cell Biology

Nuclear

Environmental Health

Synthèse stéréosélective d'Hybrides de lobéline et de ligands naturels des récepteurs nicotiniques centraux à l’acétylcholine / Stereoselective synthesis of hybrids of lobeline and natural ligands of central nicotinic acetylcholine receptors

Venot, Pierre-Etienne

26 March 2015

Au cours de ce travail, nous avons développé des voies de synthèses convergentes et énantiosélectives en vue de préparer des analogues pyrrolidiniques des alcaloïdes de Lobelia comme nouveaux ligands des récepteurs nicotiniques à l’acétylcholine. Deux familles de ligands ont été réalisées par des méthodes d’élongation mono- ou bi-directionnelle basées respectivement sur des stratégies de désymétrisation précoce ou tardive au départ du succinaldéhyde.La première partie de ce manuscrit aborde la conception d’hybrides de lobéline, nicotine et d’agonistes naturels. Ces structures originales ont été obtenues diastéréosélectivement grâce à un intermédiaire commun issu d’une élongation monodirectionnelle du succinaldéhyde. Cette voie exploitera la chimie des iminiums masqués. La mise au point de cette synthèse s’est enrichie par la découverte et la valorisation d’une nouvelle famille de ligands chimériques.La seconde partie étudie la voie d’élongation bidirectionnelle basée sur des réactions de double aza-Michael suivies de la réduction désymétrisante tardive de pyrrolidines 2,5-phénacyl méso et pseudo-méso. Cette stratégie asymétrique s’inscrit dans une démarche d’économie d’atomes et d’étapes. La perspective majeure de ce travail est l’évaluation par électrophysiologie sur différents sous-types de récepteurs à l’acétylcholine d’une sélection de ligands hybrides.Les études de RSA menées sur ces familles de composés de haute homologie structurale permettront in fine d’améliorer les modèles prédictifs décrivant les transitions allostériques des récepteurs nicotiniques à l’acétylcholine / During this PhD work, convergent and diastereoselective routes for the preparation of pyrrolidine Lobelia alkaloid analogues have been developed as novel neuronal nicotinic receptor ligands. Two families of ligands have been synthesized by a strategy of mono- or bi-directional elongation of the succinaldehyde including early or late desymmetrization process respectively.The first part of this manuscript is dedicated to the preparation of hybrids of lobeline, nicotine and other natural agonists. These original structures have been diastereoselectively obtained thanks to a common intermediate resulting of the mono-elongation of succinaldehyde. This synthetic pathway uses the chemistry of masked iminium. The development of this strategy has been enriched by the discovery and the valorisation of a new chimeric ligand family.The second part studies the “bidirectional” elongation route, based on a ring-closing double aza-Michael reaction followed by the desymmetrizing reduction of meso and pseudo-meso 2,5-diphenacyl pyrrolidines. This asymmetric strategy constitutes a step- and atom-economical approach. The major perspective of this work is the biological evaluation of selected ligands by electrophysiology made on different nAChR subtypes.The SAR studies realized on these structurally homologue ligand families could allow the improvement of the predictive molecular models describing the allosteric conformations of the nAChRs.

Aza-Michael

Oxazolopyrrolidine

Iminium

Réduction désymétrisante

Alcaloïdes de Lobelia

Hybrides

Approche par fusion de fragments

Aza-Michael

Oxazolopyrrolidine

Iminium

Desymmetrizing reduction

Lobelia alkaloids

Hybrids

Merging

Fragment based drug design (FBDD)

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 neuroimmunomodulation

Cóndor Capcha, José Manuel

15 May 2018

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

Alpha7 nicotinic acetylcholine receptor

Cell therapy

Cordão umbilical

Geleia de Wharton

Mesenchymal stem cells transplantation

Neuroimmunomodulation

Neuroimunomodulação

Sepse

Sepsis

Terapia celular

Umbilical cord

Wharton jelly

Efeito da redução da função colinérgica na mecânica pulmonar e na histopatologia pulmonar em modelo experimental de inflamação aguda induzida por instilação de LPS em camundongos geneticamente modificados / Cholinergic function reduction effect of pulmonary mechanics and pulmonary histopathology acute inflammation model of experimental induced by LPS in mice genetically modified

Pinheiro, Nathalia Montouro

05 May 2016

A lesão pulmonar aguda (LPA) é caracterizada por inflamação pulmonar de início súbito com recrutamento de polimorfonucleares e liberação de mediadores próinflamatórios. É uma condição grave que evolui com óbito em aproximadamente 40% dos casos. Diversos estudos que elucidaram a fisiopatologia da LPA, o tratamento ainda é insatisfatório. O sistema colinérgico anti-inflamatório foi descrito no pulmão e está relacionado a um reflexo via nervo vago que inibe a liberação de citocinas inflamatórias por efeitos relacionados a ação da acetilcolina em receptores nicotínicos. Nossa hipótese é de que a redução de VAChT, que está relacionada ao déficit na liberação de ACh, module a resposta inflamatória pulmonar em modelo de LPS. Objetivo: 1. Avaliar se a deficiência de VAChT modula a resposta pulmonar em animais geneticamente modificados; 2. Avaliar se a deficiência colinérgica induzida por redução de VAChT está envolvida na resposta pulmonar ao LPS e elucidar alguns mecanismos envolvidos; 3. Avaliar o potencial terapêutico do PNU, um agonista de alfa7nAChR nas alterações funcionais e histopatológicas em modelo de LPA em animais C57Bl6. Metodologia: Foram utilizados camundongos machos geneticamente modificados mutante (VAChT KDHOM) ou selvagem (WT) e C57BL/6. Inicialmente avaliamos a função pulmonar e a histopatologia pulmonar em animais VAChT KDHOM. Após, animais WT e VAChT KDHOM receberam instilação intranasal de LPS ou salina e a resposta inflamatória foi avaliada de 1,5h até 72 horas após. Ainda, foi avaliado a resposta pulmonar em VAChT KDHOM e WT após a instilação de LPS intraperitoneal. Por fim, animais C57BL/6 instilados com LPS intranasal, receberam tratamento prévio ou após com PNU, agonista do receptor nicotínico alfa7. Resultados: Animais mutante apresentaram maior quantidade de células recuperadas no lavado bronco alveolar (LBA) e aumento de citocinas próinflamatórias, aumento de edema peribrônquico e piora da função pulmonar. Ainda, observamos aumento da expressão de NF-kB e redução de JAK2. A deficiência de VAChT induziu aumento de células inflamatórias em animais que receberam LPS somente em 1.5h após a indução, sendo os valores iguais ao dos animais WT em 24 e 72 horas. Nos animais WT, o estimulo do receptor nicotínico melhora a inflamação, enquanto o estímulo de receptores muscarínicos parece contribuir com a piora da resposta da inflamação pulmonar. Os efeitos do PNU parecem que dependem da via colinérgica intacta, uma vez que esta droga não teve o mesmo efeito em animais mutante. Entretanto, o tratamento com PNU em animais C57BL/6 reduziu a inflamação, a produção de citocinas, a deposição de colágeno no tecido pulmonar e os níveis de MMP-2, MMP-9 e TIMP-1, melhorando a função pulmonar. Estes efeitos parecem estar associados a redução de macrófagos perfil M1, e a inibição de NF-kB. Conclusão: Estes dados claramente demonstram que o sistema colinérgico anti-inflamatório está envolvido no controle da resposta inflamatória pulmonar, seja na manutenção da homeostasia ou ainda nas fases iniciais do desenvolvimento da LPA. Ainda, está claro que o estímulo de receptores nicotínicos tem grande potencial como alvo terapêutico a ser explorado na SDRA / Acute lung injury (ALI) is characterized by acute lung inflammation with recruitment of polymorphonuclear and release of proinflammatory mediators. It is a severe condition since leads to death 40% of the cases. Several studies have elucidated the pathophysiology of ALI, however the treatment is still unsatisfactory. The anti-inflammatory cholinergic system was described in the lung and is related to a vagal nerve reflex that inhibits the release of inflammatory cytokines by the action o ACh on nicotinic receptors. Our hypothesis is that the VAChT reduction, which is related to the deficit in the release of ACh, modulates the pulmonary inflammatory response in a model of LPS. Aim: 1. To assess whether VAChT deficiency modulates the pulmonary response in genetically modified animals; 2. Assess whether cholinergic deficiency induced reduction VAChT is involved in pulmonary response to LPS and elucidate some mechanisms involved; 3. To evaluate the therapeutic potential of PNU, an agonist alfa7nAChR, in functional and histological changes in C57BL6 mice with LPA. Methods: Mutant genetically modified male mice (VAChT KDHOM) or wild (WT) and C57BL/6 were used. First, we evaluated lung function and lung histopathology in VAChT KDHOM animals. After, WT animals and VAChT KDHOM received intranasal instillation of LPS or saline and the inflammatory response was assessed 1.5 hours to 72 hours. Moreover, the pulmonary response was evaluated in WT and VAChT KDHOM after instillation of LPS intraperitoneally. Finally, C57BL6 instilled with intranasal LPS received prior or post-treatment with PNU, an alfa7 nicotinic receptor agonist. Results: Mutant animals had higher number of cells recovered in brochoalveolar lavage (BAL) and increased pro-inflammatory cytokines, peribronchial edema and worsening of lung function. Still, there was an increase of NF_kB expression and reduction of JAK2. The VAChT deficiency induced increase in inflammatory cells in animals receiving LPS only 1.5h after the LPS instilation, and the values were similar to WT in 24 and 72 hours. In WT mice, the stimulation of the nicotinic receptor improves inflammation, while the stimulation of muscarinic receptors appears to contribute to the worsening of the pulmonary inflammatory response. The effects of PNU seem to depend on the intact cholinergic pathway, since this drug had no effects on mutant animals. However, treatment with PNU in C57BL6 reduced pulmonar inflammation, cytokine production, collagen deposition in lung tissue and the levels of MMP-2, MMP-9 and TIMP-1, improving pulmonary function. These effects appear to be associated with reduced profile M1 macrophages and the inhibition of NF-kB. Conclusion: These data clearly demonstrate that the anti-inflammatory cholinergic system is involved in the control of lung inflammatory response, both to maintain the lung homeostasis or in the early stages of the development of ALI. Finally, it is clear that the stimulation of nicotinic receptors has great potential as a therapeutic target to be explored in ARDS

Acetilcolina

Acute lung injury, Acetylcholine

Alpha7 nicotinic acetylcholine receptor

Camundongos

Lesão pulmonar aguda

Mice, Pneumonia

Modelos animais

Models animal

Pneumonia

Efeito da redução da função colinérgica na mecânica pulmonar e na histopatologia pulmonar em modelo experimental de inflamação aguda induzida por instilação de LPS em camundongos geneticamente modificados / Cholinergic function reduction effect of pulmonary mechanics and pulmonary histopathology acute inflammation model of experimental induced by LPS in mice genetically modified

Nathalia Montouro Pinheiro

05 May 2016

A lesão pulmonar aguda (LPA) é caracterizada por inflamação pulmonar de início súbito com recrutamento de polimorfonucleares e liberação de mediadores próinflamatórios. É uma condição grave que evolui com óbito em aproximadamente 40% dos casos. Diversos estudos que elucidaram a fisiopatologia da LPA, o tratamento ainda é insatisfatório. O sistema colinérgico anti-inflamatório foi descrito no pulmão e está relacionado a um reflexo via nervo vago que inibe a liberação de citocinas inflamatórias por efeitos relacionados a ação da acetilcolina em receptores nicotínicos. Nossa hipótese é de que a redução de VAChT, que está relacionada ao déficit na liberação de ACh, module a resposta inflamatória pulmonar em modelo de LPS. Objetivo: 1. Avaliar se a deficiência de VAChT modula a resposta pulmonar em animais geneticamente modificados; 2. Avaliar se a deficiência colinérgica induzida por redução de VAChT está envolvida na resposta pulmonar ao LPS e elucidar alguns mecanismos envolvidos; 3. Avaliar o potencial terapêutico do PNU, um agonista de alfa7nAChR nas alterações funcionais e histopatológicas em modelo de LPA em animais C57Bl6. Metodologia: Foram utilizados camundongos machos geneticamente modificados mutante (VAChT KDHOM) ou selvagem (WT) e C57BL/6. Inicialmente avaliamos a função pulmonar e a histopatologia pulmonar em animais VAChT KDHOM. Após, animais WT e VAChT KDHOM receberam instilação intranasal de LPS ou salina e a resposta inflamatória foi avaliada de 1,5h até 72 horas após. Ainda, foi avaliado a resposta pulmonar em VAChT KDHOM e WT após a instilação de LPS intraperitoneal. Por fim, animais C57BL/6 instilados com LPS intranasal, receberam tratamento prévio ou após com PNU, agonista do receptor nicotínico alfa7. Resultados: Animais mutante apresentaram maior quantidade de células recuperadas no lavado bronco alveolar (LBA) e aumento de citocinas próinflamatórias, aumento de edema peribrônquico e piora da função pulmonar. Ainda, observamos aumento da expressão de NF-kB e redução de JAK2. A deficiência de VAChT induziu aumento de células inflamatórias em animais que receberam LPS somente em 1.5h após a indução, sendo os valores iguais ao dos animais WT em 24 e 72 horas. Nos animais WT, o estimulo do receptor nicotínico melhora a inflamação, enquanto o estímulo de receptores muscarínicos parece contribuir com a piora da resposta da inflamação pulmonar. Os efeitos do PNU parecem que dependem da via colinérgica intacta, uma vez que esta droga não teve o mesmo efeito em animais mutante. Entretanto, o tratamento com PNU em animais C57BL/6 reduziu a inflamação, a produção de citocinas, a deposição de colágeno no tecido pulmonar e os níveis de MMP-2, MMP-9 e TIMP-1, melhorando a função pulmonar. Estes efeitos parecem estar associados a redução de macrófagos perfil M1, e a inibição de NF-kB. Conclusão: Estes dados claramente demonstram que o sistema colinérgico anti-inflamatório está envolvido no controle da resposta inflamatória pulmonar, seja na manutenção da homeostasia ou ainda nas fases iniciais do desenvolvimento da LPA. Ainda, está claro que o estímulo de receptores nicotínicos tem grande potencial como alvo terapêutico a ser explorado na SDRA / Acute lung injury (ALI) is characterized by acute lung inflammation with recruitment of polymorphonuclear and release of proinflammatory mediators. It is a severe condition since leads to death 40% of the cases. Several studies have elucidated the pathophysiology of ALI, however the treatment is still unsatisfactory. The anti-inflammatory cholinergic system was described in the lung and is related to a vagal nerve reflex that inhibits the release of inflammatory cytokines by the action o ACh on nicotinic receptors. Our hypothesis is that the VAChT reduction, which is related to the deficit in the release of ACh, modulates the pulmonary inflammatory response in a model of LPS. Aim: 1. To assess whether VAChT deficiency modulates the pulmonary response in genetically modified animals; 2. Assess whether cholinergic deficiency induced reduction VAChT is involved in pulmonary response to LPS and elucidate some mechanisms involved; 3. To evaluate the therapeutic potential of PNU, an agonist alfa7nAChR, in functional and histological changes in C57BL6 mice with LPA. Methods: Mutant genetically modified male mice (VAChT KDHOM) or wild (WT) and C57BL/6 were used. First, we evaluated lung function and lung histopathology in VAChT KDHOM animals. After, WT animals and VAChT KDHOM received intranasal instillation of LPS or saline and the inflammatory response was assessed 1.5 hours to 72 hours. Moreover, the pulmonary response was evaluated in WT and VAChT KDHOM after instillation of LPS intraperitoneally. Finally, C57BL6 instilled with intranasal LPS received prior or post-treatment with PNU, an alfa7 nicotinic receptor agonist. Results: Mutant animals had higher number of cells recovered in brochoalveolar lavage (BAL) and increased pro-inflammatory cytokines, peribronchial edema and worsening of lung function. Still, there was an increase of NF_kB expression and reduction of JAK2. The VAChT deficiency induced increase in inflammatory cells in animals receiving LPS only 1.5h after the LPS instilation, and the values were similar to WT in 24 and 72 hours. In WT mice, the stimulation of the nicotinic receptor improves inflammation, while the stimulation of muscarinic receptors appears to contribute to the worsening of the pulmonary inflammatory response. The effects of PNU seem to depend on the intact cholinergic pathway, since this drug had no effects on mutant animals. However, treatment with PNU in C57BL6 reduced pulmonar inflammation, cytokine production, collagen deposition in lung tissue and the levels of MMP-2, MMP-9 and TIMP-1, improving pulmonary function. These effects appear to be associated with reduced profile M1 macrophages and the inhibition of NF-kB. Conclusion: These data clearly demonstrate that the anti-inflammatory cholinergic system is involved in the control of lung inflammatory response, both to maintain the lung homeostasis or in the early stages of the development of ALI. Finally, it is clear that the stimulation of nicotinic receptors has great potential as a therapeutic target to be explored in ARDS

Acetilcolina

Camundongos

Lesão pulmonar aguda

Modelos animais

Pneumonia

Acute lung injury, Acetylcholine

Alpha7 nicotinic acetylcholine receptor

Mice, Pneumonia

Models animal

Υπολογιστική μελέτη δομής και δυναμικής βιομοριακών συμπλόκων της α1 υπομονάδας του νικοτινικού υποδοχέα της ακετυλοχολίνης (nAChR) με άλφα-νευροτοξίνες

Δημητρόπουλος, Νικόλαος

15 February 2011

Οι νικοτινικοί υποδοχείς της ακετυλοχολίνης (nAChRs) ανήκουν στην υπερ-οικογένεια των ιοντικών καναλιών που ενεργοποιούνται από τη δέσμευση ενός προσδέτη (LGICs) και αποτελούνται από πέντε ομόλογες υπομονάδες. Κάθε μονομερής υπομονάδα αποτελείται από μία Ν-τελική εξωκυττάρια περιοχή (ΕΚΠ), από τέσσερεις διαμεμβρανικές α-έλικες και από μία κυτταροπλασματική περιοχή. Στην ΕΚΠ βρίσκεται η χαρακτηριστική Cys-θηλιά της υπερ-οικογένειας, καθώς και οι θέσεις πρόσδεσης αγωνιστών και ανταγωνιστών του υποδοχέα. Οι γνώσεις μας γύρω από τη δομή των nAChRs προέρχονται κυρίως από κρυσταλλογραφικές δομές ομολόγων πρωτεϊνών δέσμευσης της ACh (AChBP) μαλακίων, από μια δομή του nAChR από ιχθείς του γένους Torpedo που προέρχεται από ηλεκτρονική μικροσκοπία, από την κρυσταλλογραφική δομή της α1-ΕΚΠ ποντικού σε σύμπλοκο με α-μπουγκαροτοξίνη (α-Btx) και από κρυσταλλογραφικές δομές δύο προκαρυωτικών LGICs. Παρά τη μεγάλη πρόοδο που πραγματοποιήθηκε με τα παραπάνω επιτεύγματα, ακόμη δεν έχει επιλυθεί πειραματικά η δομή ανθρώπινου υποδοχέα. Επίσης λίγα είναι γνωστά για την επίδραση της γλυκοζυλίωσης των ΕΚΠ στη λειτουργία του nAChR. Χρησιμοποιώντας ως εκμαγείο την κρυσταλλογραφική δομή του συμπλόκου α1-ΕΚΠ ποντικού/α-Btx δημιουργήθηκαν υπολογιστικά μοντέλα της ανθρώπινης α1-ΕΚΠ προσδεμένης στις τοξίνες α-μπουγκαροτοξίνη (α-Btx), α-κομπρατοξίνη (α-Cbtx), α-κωνοτοξίνη (α-Ctx) ImI και α-κωνοτοξίνη GI. Στα σύμπλοκα με α-Btx και α-Cbtx προστέθηκε η υδατανθρακική αλυσίδα, συνδεδεμένη με το κατάλοιπο Asn141, που συγκρυσταλλώθηκε μαζί με την α1-ΕΚΠ ποντικού. Για να μελετηθεί η δυναμική συμπεριφορά της αλληλεπίδρασης υποδοχέα-τοξίνης καθώς και η συνεισφορά των σακχάρων σε αυτήν πραγματοποιήθηκαν προσομοιώσεις Μοριακής Δυναμικής σε υδατικό περιβάλλον. Με τη χρήση υπολογιστικών εργαλείων για τη μελέτη των συμπλόκων προσδιορίστηκαν σε ατομικό επίπεδο οι αλληλεπιδράσεις που καθοδηγούν την πρόσδεση τοξινών στην α1-ΕΚΠ. Βρέθηκε ότι η υδατανθρακική αλυσίδα συμμετέχει δυναμικά στη δέσμευση της τοξίνης στον υποδοχέα. Τα σάκχαρα συγκλίνουν προς την προσδεμένη τοξίνη στηριζόμενα στα κατάλοιπα Ser187 και Trp184 της α1 υπομονάδας. Η τοξίνη επίσης μετακινείται φέρνοντας τη θηλιά Ι σε επαφή με τα σάκχαρα. Αναγνωρίστηκαν σημαντικές αλληλεπιδράσεις των σακχάρων με τα τοξινικά κατάλοιπα Thr6, Ser9, και Th15 της α-Btx και Thr6 και Pro7 της α-Cbtx. Επίσης επιβεβαιώθηκε η ύπαρξη μιας υδρόφιλης κοιλότητας στο εσωτερικό του υδρόφοβου πυρήνα της α1-ΕΚΠ, η οποία πιθανόν εμπλέκεται στο άνοιγμα του ιοντικού καναλιού του nAChR. Τα αποτελέσματα αυτά παρέχουν σημαντικά δεδομένα για την κατανόηση της επίδρασης της υδατανθρακικής αλυσίδας στη λειτουργία του υποδοχέα, η οποία μπορεί να αξιοποιηθεί στην αντιμετώπιση των πολλών παθολογικών καταστάσεων στις οποίες εμπλέκονται οι nAChRs. / Nicotinic acetylcholine receptors (nAChRs) belong to the superfamily of ligand-gated ion channels (LGICs). LGICs form homo- or hetero-pentamers of related subunits, and each of them consists of a N-terminal extracellular ligand-binding domain (ECD), four transmembrane α-helixes and an intracellular region. The characteristic Cys-loop of the superfamily is found in the ECD of each subunit. The ECD also contains binding sites for agonists and competitive antagonists. Our knowledge regarding the nAChR structure mainly derives from the X-ray crystal structures of the molluscan ACh-binding proteins (AChBPs), the electron microscopy structure of the Torpedo nAChR, the X-ray crystal structure of the mouse nAChR α1-ECD bound to α-bungarotoxin (α-Btx), and the X-ray crystal structures of two prokaryotic LGICs. Despite the progress made by these achievements, the determination of any human nAChR structure has not yet been accomplished. Furthermore, the effect of glycosylation on nAChR function has not yet been explored. Based on the crystal structure of the extracellular domain of the mouse nAChR α1 subunit bound to α-Btx we have generated in silico models of the human nAChR α1-ECD bound to the toxins α-bungarotoxin (α-Btx), α-cobratoxin (α-Cbtx), α-conotoxin (α-Ctx) ImI and α-conotoxin GI. In the case of the α1-ECD/α-Btx and α-Cbtx complexes, a Asn141-linked carbohydrate chain was modeled, its coordinates taken from the crystal structure of the mouse α1-ECD. To gain further insight into the structural role of glycosylation molecular dynamics (MD) simulations were carried out in explicit solvent so as to compare the conformational dynamics of the binding interface between nAChR α1 and the two toxins. The use of computational methods allowed the monitoring of the interactions that govern toxin binding. The MD simulations revealed the strengthening of the receptor-toxin interaction in the presence of the carbohydrate chain. A shift in the position of the sugars towards the bound toxin was observed. Residues Ser187 and Trp184 of nAChR act as critical anchor points for the stabilization of the sugar chain in a close position to the toxin. Toxin Finger I shifts closer to the mannoses, forming important toxin-sugar interactions that implicate residues Thr6, Ser9, and Thr15 of α-Btx, as well as Thr6 and Pro7 of α-Cbtx. Additionally the MD simulations of the human α1 ECD–toxin complexes confirmed the possible accommodation of two water molecules into a hydration cavity inside the hydrophobic core of the subunit, which may contribute to the gating mechanism of the receptor. These findings provide additional structural data that are intended to inspire biophysical studies on the functional role of glycosylation in the gating mechanism of nAChR and also guide the development of novel therapeutic agents for the treatment of nAChR-associated diseases.

Γλυκοζυλίωση

Α-νευροτοξίνες

612.804 2

Nicotinic acetylcholine receptor

nAChR

Ligand-gated ion channels

Glycosylation

Alpha-neurotoxins

Homology modeling

Molecular dynamics simulations

Docking simulations

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 neuroimmunomodulation

José Manuel Cóndor Capcha

15 May 2018

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

Cordão umbilical

Geleia de Wharton

Neuroimunomodulação

Sepse

Terapia celular

Alpha7 nicotinic acetylcholine receptor

Cell therapy

Mesenchymal stem cells transplantation

Neuroimmunomodulation

Sepsis

Umbilical cord

Wharton jelly

Advanced Fluorescence Microscopy to Study Plasma Membrane Protein Dynamics

Piguet, Joachim

January 2010

Membrane protein dynamics is of great importance for living organisms. The precise localization of proteins composing a synapse on the membrane facing a nerve terminus is essential for proper functioning of the nervous system. In muscle fibers, the nicotinic acetylcholine is densely packed under the motor nerve termini. A receptor associated protein, rapsyn, acts as a linker between the receptor and the other components of the synaptic suramolecular assembly. Advances in fluorescence microscopy have allowed to measure the behavior of a single receptor in the cell membrane. In this work single-molecule microscopy was used to track the motion of ionotropic acetylcholine (nAChR) and serotonin (5HT3R) receptors in the plasma membrane of cells. We present methods for measuring single-molecule diffusion and their analysis. Single molecule tracking has shown a high dependence of acetylcholine receptors diffusion on its associated protein rapsyn. Comparing muscle cells that either express rapsyn or are devoid of it, we found that rapsyn plays an important role on receptor immobilization. A three-fold increase of receptor mobility was observed in muscle cells devoid of rapsyn. However, in these cells, a certain fraction of immobilized receptors was also found immobile. Furthermore, nAChR were strongly confined in membrane domains of few tens of nanometers. This showed that membrane composition and membrane associated proteins influence on receptor localization. During muscle cell differentiation, the fraction of immobile nAChR diminished along with the decreasing nAChR and stable rapsyn expression levels. The importance of rapsyn in nAChR immobilization has been further confirmed by measurements in HEK 293 cells, where co-expression of rapsyn increased immobilization of the receptor. nAChR is a ligand-gated ion-channel of the Cys-loop family. In mammals, members of this receptor family share general structural and functional features. They are homo- or hetero-pentamers and form a membrane-spanning ion channel. Subunits have three major regions, an extracellular ligand binding domain, a transmembrane channel and a large intracellular loop. 5HT3R was used as a model to study the effect of this loop on receptor mobility. Single-molecule tracking experiments on receptors with progressively larger deletions in the intracellular loop did not show a dependence of the size of the loop on the diffusion coefficient of mobile receptors. However, two regions were identified to play a role in receptor mobility by changing the fractions of immobile and directed receptors. Interestingly, a prokaryotic homologue of cys-loop receptors, ELIC, devoid of a large cytoplasmic loop was found to be immobile or to show directed diffusion similar as the wild-type 5HT3R. The scaffolding protein rapsyn stabilizes nAChR clusters in a concentration dependent manner. We have measured the density and self-interactions of rapsyn using FRET microscopy. Point-mutations of rapsyn, known to provoke myopathies, destabilized rapsyn self-interactions. Rapsyn-N88K, and R91L were found at high concentration in the cytoplasm suggesting that this modification disturbs membrane association of rapsyn. A25V was found to accumulate in the endoplasmic reticulum. Fluorescent tools to measure intracellular concentration of calcium ions are of great value to study the function of neurons. Rapsyn is highly abundant at the neuromuscular junction and thus is a genuine synaptic marker. A fusion protein of rapsyn with a genetically encoded ratiometric calcium sensor has been made to probe synapse activity. This thesis has shown that the combined use of biologically relevant system and modern fluorescence microscopy techniques deliver important information on pLGIC behaviour in the cell membrane. / <p>QC 20151217</p>

fluorescence

microscopy

plasma membrane

membrane proteins

membrane proteins diffusion

single-molecule imaging

single-molecule tracking

pentameric ligand-gated ion channels

nicotinic acetylcholine receptor

serotonin receptor

synapse

neuromuscular junction

post-synaptic scaffold

rapsyn

myopathies

fluorescent proteins

Förster resonance energy transfer

FRET imaging

protein-protein interactions

protein trafficking

photo-activatable proteins