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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Functional regulation of opioid receptor signaling

Tumati, Suneeta January 2009 (has links)
Studies have shown that long-term opioid agonist (such as morphine) treatment produces antinociceptive tolerance and increased pain sensitivity (hyperalgesia and/or allodynia), limiting the clinical efficacy of morphine. Prolonged opiate administration also upregulates spinal pain neurotransmitter (such as calcitonin gene-related peptide (CGRP)) levels and enhances evoked CGRP release in the dorsal horn of rats. It was suggested that augmented spinal pain neurotransmission may contribute to paradoxical pain sensitization and antinociceptive tolerance. The cellular signal transduction pathways involved in sustained opioid mediated augmentation of spinal pain neurotransmitter are not fully clarified.Sustained morphine treatment was shown to augment the concentrations of inflammatory mediators, such as PGE2 in the spinal cord. Studies have shown that PGE2 stimulates cAMP formation and CGRP release by activation of Gs protein-coupled prostaglandin receptor types in primary sensory neurons. Interestingly, it was found earlier that sustained opioid agonist treatment leads to a Raf-1-dependent sensitization of adenylyl cyclase(s) (AC superactivation), augmenting forskolin-stimulated cAMP formation upon opioid withdrawal (cAMP overshoot). It is well demonstrated that cAMP activates cAMP-dependent protein kinase (PKA), which plays an important role in the modulation of presynaptic neurotransmitter release. Therefore, in this study, we investigate the physiological role of Raf-1 mediated AC superactivation and subsequent PKA activation in A. sustained morphine-mediated augmentation of basal or evoked pain neurotransmitter release in vitro, in cultured primary sensory neurons, and B. in vivo, in sustained morphine mediated paradoxical pain sensitization and antinociceptive tolerance in rats.Our data demonstrates that A. sustained morphine treatment augments both basal and capsaicin-evoked CGRP release from isolated primary sensory neurons in a PKA- and Raf-1- dependent manner. B. sustained morphine treatment- augments of PGE2-evoked CGRP release from these cells. C. selective knockdown of spinal PKA or Raf-1 protein levels by intrathecal PKA- or Raf-1-specific siRNA pretreatment completely attenuates sustained morphine-mediated thermal hyperalgesia, tactile allodynia and greatly reduces antinociceptive tolerance in rats.In conclusion, we suggest that Raf-1-mediated AC superactivation may have a crucial trigger role in sustained morphine-mediated compensatory adaptations in the nervous system. Thus, we expect that pharmacological attenuation of Raf-1-mediated AC superactivation may improve the clinical treatment of chronic and neuropathic pain.
2

Le rôle du système nerveux sensoriel dans l'orchestration de la formation osseuse, le remodelage et la régénération tissulaire / The role of sensory nervous system in the regulation of bone formation, remodeling, and repair

Silva, Diana 21 December 2017 (has links)
Les progrès dans la compréhension de la biologie osseuse ont permis d’identifier le rôle du système nerveux sensoriel dans la formation osseuse, le remodelage et la régénération tissulaire. Cependant, le rôle précis du système nerveux sensoriel sur la l’ostéogénèse reste encore méconnu. La première partie de ce travail a été d’analyser le rôle des neurones du ganglion de la racine dorsale (DRG) sur la différenciation ostéoblastique des cellules souches mésenchymateuse (MSCs). Pour répondre à cette question, nous avons utilisé une plate-forme microfluidique, qui tente de mimer l’innervation sensorielle du tissu osseux. Dans la seconde partie de cette étude, nous avons cherché à mieux caractériser la sous-population de neurones DRG impliqués dans la régulation directe de la différenciation des MSCs vers le lignage ostéoblastique. En conclusion, l’ensemble des résultats permettent de montrer que: i) les neurones sensoriels ont un effet positif et direct sur la différenciation ostéoblastique des cellules ostéoprogénitrices, ii) la voie de signalisation Wnt/β-caténine est impliquée dans cette transduction du signal; iii) cet effet est principalement régulé par des neurones sensorimoteur, iv) qui peuvent induire la libération locale de facteurs neuroactifs. / Advances in the understanding of bone biology have identified the sensory nervous system as a critical regulator in the orchestration of bone formation, remodeling, and repair. However, the precise role of the sensory nervous system on bone tissue, particularly on osteoprogenitor cells, remains unknown. Firstly, we were interested in clarifying whether dorsal root ganglion (DRG) neurons would be able to induce the osteoblast differentiation by acting directly on mesenchymal stem cells (MSCs). Afterwards, we attempted to understand whether the canonical Wnt signaling pathway could be implicated in the DRG neurons-induced osteoblastogenesis. In the second part of this study, we aimed at better characterizing the subset of DRG neurons involved in the direct regulation of osteoblast differentiation from MSCs. In this work we provide several novel insights: i) we show that sensory neurons have a positive and direct effect on osteoblast differentiation of osteoprogenitor cells, ii) by activating the Wnt/β-catenin signaling pathway; and iii) we suggest that this effect is mainly regulated by sensorimotor neurons, iv) which possibly mediate the local release of neuroactive factors.
3

Análise quantitativa de culturas de neurônios em matrizes de microeletrodos por meio do processamento de imagens de microscopia confocal de fluorescência

Mari, João Fernando 09 March 2015 (has links)
Made available in DSpace on 2016-06-02T19:04:00Z (GMT). No. of bitstreams: 1 6814.pdf: 27157124 bytes, checksum: ccc98f69d1fc4cdc487ac2e9917edfc0 (MD5) Previous issue date: 2015-03-09 / Microelectrode arrays (MEA) are devices that allow chemical and electrical stimulation and recording of the extracellular electrical activity from entire neuronal cultures over long periods of time, such as several weeks. Some MEA models have transparent substrate, which enables the imaging of culture using optical microscopy. The images are taken from two channels: fluorescence light and transmitted light channels. In the first one, it is possible to visualize the neurons, while in the other one, it is possible to observe the microelectrodes. The objective of this work is to develop methods that enable performing quantitative analysis of the dissociated culture of rat dorsal root ganglion (DRG) neurons plated on MEA by means of the processing of the images, obtained from confocal fluorescence microscopy. We proposed and developed the following methods in order to achieve this objective: (A) A method to automatically identify the microelectrodes in the transmitted light channel using circular Hough Transform and error correction based on the Delaunay triangulation; (B) the registration of a number of images taken at different parts of the MEA in order to generate a unique and high-resolution representation of the whole culture; (C) the segmentation of the neuron in 2D images taken from the fluorescence channel, composed by the steps: preprocessing, thresholding, morphological filtering, neurons occlusion correction, watershed transform and object classification; (D) 2D quantitative analysis based on the identified microelectrodes and on the segmented neurons; (E) a method for generating 3D polygonal models of the neurons from the volumetric images, to be used for visualizing the culture on the MEA by different points of view and zoom levels; and (F) 3D quantitative analysis performed by the processing of the polygonal surfaces in conjunction with the information about the microelectrodes positioning. The results show that the methods are capable to identify the neurons and microelectrodes on the 2D images efficiently. In the 3D images, the preprocessing step which uses information from the 2D segmentation method, showed to be capable to generate correct polygonal models efficiently. Most of the studies involving the analysis of neuron cultures on MEAs consider only qualitative analysis or simple quantitative measures. However, the methods proposed in this thesis enables to obtain important measures related to the neuron culture, such as: the density and morphology of the neurons, and the spatial and topological distribution of the neurons and microelectrodes. The information about neuron morphology is important because they are related to the behavior of this kind of neuron. The spatial and topological distribution of neurons and microelectrodes are used for providing models of the interface between these elements, for supporting the analysis of the electrophysiological signal recorded by the microelectrodes, as well as in the computational simulations of the neuron culture behavior. / Matrizes de Microeletrodos (MEAs) são dispositivos que permitem estimular quimicamente ou eletricamente e registrar a atividade elétrica extracelular de culturas de neurônios durante um longo período de tempo, da ordem de várias semanas. Modelos de MEAs com o substrato transparente permitem imagear a cultura por meio de microscopia óptica. As imagens são obtidas em dois canais: um de luz de fluorescência e outro de luz de transmissão. O primeiro permite visualizar os neurônios, enquanto o segundo os microeletrodos. O objetivo deste trabalho é desenvolver métodos que permitam realizar análises quantitativas de culturas dissociadas de neurônios de gânglio da raiz dorsal (Dorsal Root Ganglion DRG) de ratos em MEAs por meio do processamento de imagens obtidas por microscopia confocal de fluorescência. Os seguintes métodos foram propostos e desenvolvidos para atingir este objetivo: (A) Identificação automática dos microeletrodos nas imagens do canal de luz de transmissão utilizando a transformada de Hough circular e correção de erros baseado na triangulação de Delaunay; (B) Registro de várias imagens tomadas de diferentes regiões da MEA para gerar uma única imagem em alta resolução que contemple a cultura toda; (C) Segmentação dos neurônios em imagens 2D obtidas a partir do canal de fluorescência, composto por etapas de pré-processamento, segmentação, filtragem morfológica, correção da oclusão de neurônios, transformada watershed e classificação de objetos; (D) Análise quantitativa 2D baseada nos microeletrodos identificados e nos neurônios segmentados; (E) Método para geração de modelos poligonais 3D dos neurônios a partir de imagens volumétricas, modelos os quais são utilizados para visualização da cultura na MEA por diferentes pontos de vista e níveis de zoom; e (F) Análise quantitativa 3D realizada por meio do processamento das superfícies poligonais juntamente com as informações sobre a posição dos microeletrodos. Os resultados mostram que os métodos são capazes de identificar com eficiência os neurônios e microeletrodos presentes nas imagens 2D. Nas imagens 3D, a etapa de pré-processamento utilizando informações resultantes do método de segmentação 2D se mostrou eficiente na geração dos modelos poligonais corretos. Enquanto a maioria das análises de imagens de culturas de neurônios em MEA consideram apenas análises quantitativas simples, os métodos aqui propostos permitem obter importantes medidas quantitativas relacionadas às culturas, tais como: a densidade e morfologia dos neurônios, assim como a distribuição espacial e topológica dos neurônios em relação aos microeletrodos. As informações sobre a morfologia são importantes, pois estão relacionadas com o comportamento desse tipo de neurônio. A distribuição espacial e topológica dos neurônios e microeletrodos permitem modelar a interface entre neurônios e microeletrodos e auxiliar nos estudos dos sinais eletrofisiológicos capturados pelos microeletrodos, assim como em simulações computacionais do comportamento dessas culturas.
4

Développement d’une souris modèle pour l’étude de la modulation metal/redox du canal calcique Cav3.2 dans l’excitabilité neuronale et dans les voies de la douleur / Development of a mouse model to study the metal/redox modulation of Cav3.2 calcium channels in neuronal excitability and in the pain pathways

Voisin, Tiphaine 11 December 2015 (has links)
Les canaux de type T Cav3.2 sont des canaux calciques activés pour de faibles dépolarisations membranaires. Ils ont un rôle important dans la régulation de l’excitabilité neuronale, particulièrement dans les neurones des ganglions rachidiens dorsaux (DRG) où ils sont impliqués dans la transmission de la douleur. Il est établi que les canaux Cav3.2, natifs et recombinants, sont inhibés par de faibles concentrations de métaux divalents tels que le zinc et le nickel et qu’ils sont modulés par des agents oxydo-réducteurs. In vitro, la mutation ponctuelle de l’histidine 191 en glutamine (H191Q) diminue fortement la sensibilité du canal Cav3.2 pour ces différents composés et il est proposé que cette régulation joue un rôle physiologique. L’objectif de ce travail de thèse a été d’étudier l’impact physiologique de cette modulation sur l’excitabilité neuronale et dans la perception de la douleur. Pour ce faire, nous avons généré une souris knock-in (KI) portant la mutation H191Q sur Cav3.2. L’étude électrophysiologique a été réalisée sur une population de neurones de DRG particulière : les cellules D-hair qui sont des mécanorécepteurs exprimant de grands courants Cav3.2. Nous avons validé que la sensibilité des canaux Cav3.2 neuronaux des souris KI est diminuée pour le zinc, le nickel et l’ascorbate. Nous montrons que cette régulation modifiée favorise une augmentation de l’excitabilité de ces neurones. Pour étudier l’impact de cette modulation in vivo, nous avons effectué des études comportementales. Les souris KI ne présentent pas de différence dans la perception de la douleur mécanique et thermique, ni dans l’hyperalgésie induite par l’inflammation et la neuropathie. Toutefois, dans le test à la formaline les souris KI montrent une réponse exacerbée dans la phase tardive. En résumé, nous décrivons ici un modèle animal original pour l’étude de la régulation metal/redox du canal Cav3.2 et identifions un rôle de cette modulation dans l’excitabilité des neurones D-Hair. Nos résultats obtenus in vivo indiquent cependant que cette modulation des canaux Cav3.2 aurait un impact limité dans les voies de la douleur. / Cav3.2 T-type channels are low-voltage activated calcium channels. They have an important role in the regulation of neuronal excitability, particularly in neurons of the dorsal root ganglia (DRG) where they are involved in pain transmission. It is established that Cav3.2 channels are inhibited by low concentrations of divalent metals such as zinc and nickel, and are modulated by redox agents. In vitro, the histidine191-to-glutamine mutation (H191Q) greatly reduces the Cav3.2 channel sensitivity to these compounds and it is proposed that this regulation plays a physiological role. The objective of this thesis was to study the physiological impact of this modulation on neuronal excitability and pain perception. To do this, we generated a knock-in (KI) mouse carrying the H191Q mutation on Cav3.2. Electrophysiological study was carried out on a particular population of DRG neurons, the D-hair cells, which are mechanoreceptors that express large Cav3.2 currents. We show that the sensitivity to zinc, nickel and ascorbate of the neuronal Cav3.2 channels is significantly reduced in the KI mouse. We also show that this modified regulation promotes an increase in the excitability of these neurons. To study the impact of this modulation in vivo, we performed behavioral studies. KI mice show no difference in the perception of mechanical and thermal pain, nor in hyperalgesia induced by inflammation and neuropathy. However, KI mice show an exaggerated response in the late phase in the formalin test. In summary, we describe here an original animal model to study the metal/redox regulation of Cav3.2 channel and identify a role of this modulation in the excitability of D-Hair neurons. Our results indicate, however, that this modulation of Cav3.2 channel may have a limited impact in the pain pathways.
5

La diversité des toxines de scorpions et leur intérêt dans la recherche biologique et pharmacologique : (purification et caractérisation chimique, pharmacologique et immunologique des toxines de scorpion présentant des problèmes de santé publique au Moyen Orient et leurs implications pharmacologiques) / Scorpion toxins diversity and their interest in biological an pharmacological research : purification and chemical, pharmacological and immunological characterization of toxins from scorpions involved in Public Health problems in Middle-East and their pharmacological applications

Abbas, Najwa 10 December 2010 (has links)
Les scorpions du genre Androctonus, comme Androctonus australis en Algérie et en Tunisieou Androctonus mauretanicus au Maroc, sont responsables d’environ 100.000 piqûres par ansur l’ensemble du Maghreb, suivies de 1 % de décès. Ils posent un réel problème de santépublique. Les toxines «alpha» modulant les canaux sodium voltage-activés (Nav) sontresponsables de 80 à 90% de l’activité létale des venins d’Androctonus australis etmauretanicus. Cependant, certaines petites molécules sont aussi capables de bloquer lefonctionnement d’autres types de canaux ioniques, en particulier des canaux potassiumvoltage-activés (Kv).Au cours de cette thèse, nous avons isolé et caractérisé les composants du venind’Androctonus amoreuxi, scorpion largement distribué en Afrique du Nord et au Moyen-Orient, mais qui n’avait jusqu’ici fait l’objet d’aucune etude rigoureuse. Nous avons identifiéles constituants impliqués dans la toxicité du venin et précisé leurs propriétéspharmacologiques et immunologiques, ainsi que l’effet qu’elles induisent enélectrophysiologie sur des canaux Nav et Kv clonés exprimés dans l’ovocyte de Xenope.Nous avons recherché de nouveaux membres d’une famille de toxines récemment isolées, lesBirtoxines-like, et interprété leur polymorphisme biologique par la modélisation de leursstructures 3D. Enfin, nous avons mené à bien un programme portant sur les effetsantinociceptifs des toxines de scorpion chez la souris. Cela nous a permis de proposer uneexplication qui fait intervenir le système opiacé et la « contre-irritation ». L’effet des toxinesreconnues « analgésiques » a ensuite été testé en électrophysiologie sur des neuronesnocicepteurs. / The North African scorpion Androctonus australis in Algeria and Tunisia, or Androctonusmauretanicus in Morocco, are responsible of about 100.000 stings each year in Maghreb,followed by 1% of death. Small toxins modulating voltage-gated sodium channels (Nav),named “alpha”, are responsible of 80 to 90% of the total lethal activity from the Androctonusaustralis and mauretanicus venoms. However, smaller molecules are also able to block thefunctioning of another type of ionic channels, in particular, the voltage-gated potassiumchannels (Kv).During this thesis, we have isolated and characterized the compounds of the venom fromAndroctonus amoreuxi, a scorpion widely found in North Africa and Middle East, but neverseriously studied so far. We have identified the constituents implicated in the toxicity anddefined their immunological and pharmacological properties, as well as theirelectrophysiological effects on cloned Nav and Kv channels expressed in Xenopus oocytes.We also have looked for recently characterized new molecules, the Birtoxins-like, and tried toexplain their large biological polymorphism by 3D structural models. At last, we haveevaluated the antinociceptifs effects of scorpion toxins in mice. We have proposed that theantalgic effects observed after administration of scorpion toxins are partly due to a counterirritation phenomenon, which implicates the activation of an endogenous opioid system. The“analgesic” toxins have been further tested in electrophysiology on DRG neurons.
6

Purificação, caracterização bioquímica e eletrofisiológica da toxina Mic6c7NTX da Peçonha da Serpente Micrurus ibiboboca (Merrem, 1820) / Purification, Biochemical and Electrophysiological Characterization of the Toxin Mic6c7NTX from the Micrurus ibiboboca (Merrem, 1820)

Donato, Micheline Freire 29 August 2008 (has links)
Made available in DSpace on 2015-05-14T13:00:16Z (GMT). No. of bitstreams: 1 parte1.pdf: 4104748 bytes, checksum: 578975146349baff07079d6c3f9756b6 (MD5) Previous issue date: 2008-08-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Snake venoms contain a complex arsenal of protein bio-active components, many of these being neurotoxins (NTXs). These snakes have high neurotoxic activity venom, corresponding to the Elapidae family, which includes coral snakes (Micrurus) whose venom contains circa 90-95% of low molecular mass protein components. Among these, several are postsynaptic neurotoxins or α- NTXs (MM = 6-9 kDa). The Micrurus ibiboboca (Merren, 1820) is a snake of the Elapidae family witch is quite common in the Northeast of Brazil. In spite of the great diversity of species of Micrurus, scarce works involving the nervous system with isolated and pure toxins of those serpents has been developed in level biochemical, pharmacological and electrophysiological. The aim of this study was to purify the toxin Mic6c7NTX of the Micrurus ibiboboca venom, characterize to biochemically and electrophysiologically the toxin Mic6c7NTX in the peripheral nervous system (PNS) of rats, evaluating alterations in the record of the Compound Action Potential (CAP) of the isolate nerve and the toxin activity on the voltage-dependent sodium channels (Nav) in the neurons of the dorsal root ganglion (DRG). The venom was extracted from the Micrurus ibiboboca collected in Paraiba State (Brazil). Initially, electrophysiological tests (current clamp method) using the single sucrose gap technique were accomplished with crude venom (100μg/mL). It was observed that in this concentration the crude venom caused reduction in the CAP amplitude (25%). This neurotoxity led into an intriguing question: what components of the venom would promote to reduction in the excitability of the nerve? Based upon this question, I decided to purify the venom throughout the Liquid Chromatography of the High Performance (HPLC) of the Cation Exchange Chromatography (CIEX) and the Reverse Phase Chromatography (RPC). The molecular mass (MM) of the raw toxin was determined by mass-spectrometry (MALDI-QTOF/ MS) and N-terminal sequence by means of Edman s Degradation. The search for similarity with other toxins was accomplished against proteomic data bank. The CIEX profile showed 19 fractions and the highest peak fraction was used for the second dimension. The toxin Mic6c7NTX obtained by RPC showed elution in 26.7%of the acetonitrile (ACN) and MM 7.047.56Da. The obtained partial N-terminal sequence showed 31 aminoacid residues. The search for similarity of structure and function showed great similarity (65%) with other short chain α-NTXs Australian elapids snakes. The electrophysiological studies (single sucrose gap technique) showed that the toxin Mic6c7NTX (1 μM) reduced the excitability of the isolate nerve similarly to the reduction observed in the crude venom about 21%. Other CAP parameters such as despolarization speed (DSCAP), repolarization time (τCAP) and peak of time (PTCAP) did not show alterations. This suggests that the toxin may be affecting the Nav channels. For the confirmation of that hypothesis experiments were accomplished with whole cell patch-clamp technique in DRG neurons. This results showed that the toxin Mic6c7NTX (1 WM) abolished completely the current of Nav channels sensitive the tetrodotoxin (TTX-S). Also the Nav channels TTX resistant (TTX-R) were investigated in the presence of the Mic6c7NTX toxin previously using TTX (100 nM). This results showed that the toxin Mic6c7NTX (100 nM) abolished completely the current of Nav channels TTX-R and IC50 = 30nM. However, reversion of this blocking was not observed. The present study biochemically and electrophysiologically characterized an α-NTX of the Micrurus ibiboboca elapid snake. Furthermore, it showed a potent toxin with affinity Nav channels TTX-S and TTX-R of the PNS. This is the first α-NTX isolated and identified of the venom from the Micrurus ibiboboca (Merrem, 1820) snake. / As serpentes da família Elapidae possuem uma peçonha com alta atividade neurotóxica e capacidade de letalidade. Fazem parte dessa família as serpentes corais americanas (gênero Micrurus) com suas peçonhas contendo cerca de 90-95% de componentes protéicos, sendo na sua maior parte neurotoxinas com baixa massa molecular (6-8 kDa), podendo ser destacadas as neurotoxinas com ação pós-sinápticas ou α-Neurotoxinas (α-NTX). A Micrurus ibiboboca (Merrem, 1820) é uma serpente da família Elapidae, comum na região Nordeste. Apesar da grande diversidade de espécies do gênero Micrurus sp., escassos trabalhos envolvendo atividade de toxinas isoladas e puras destas peçonhas e sistema nervoso têm sido desenvolvidos em nível bioquímico, farmacológico ou eletrofisiológico. O objetivo desse estudo foi purificar a toxina Mic6c7NTX da peçonha de M. ibiboboca, caracterizar bioquímicamente e investigar com ferramentas eletrofisiológicas a ação da toxina no Sistema Nervoso Periférico (SNP) de ratos avaliando alterações no Potencial de Ação Composto (PAC) do nervo isquiático isolado e a atividade da toxina nos canais para sódio dependentes de voltagem (Nav) em neurônios do gânglio da raiz dorsal (DRG). A peçonha da M. ibiboboca foi extraída de serpentes coletadas no Estado da Paraíba (Brasil). Inicialmente, ensaios eletrofisiológicos com o método de current clamp utilizando a técnica de single sucrose gap foram realizados com a peçonha bruta (100 Wg/mL). Os resultados mostraram que a peçonha bruta nessa concentração promoveu redução na amplitude do PAC (25%). Esse efeito da toxina na excitabilidade do nervo levantou o questionamento: Que componentes da peçonha estariam causando essa diminuição da excitabilidade? A peçonha foi purificada por meio de Cromatografia Líquida de Alta Performance (HPLC), de troca catiônica (CIEX) e fase reversa (RPC). Na sequência, os picos da CIEX foram submetidos à RPC e posteriormente analisados por espectrometria de massas (MALDI-TOF/MS) que detectou a massa molecular da toxina Mic6c7NTX de 7.047,56 Da. Em seguida, foi determinado o seu N-terminal por Degradação de Edman que apresentou 31 resíduos de aminoácidos e serviu de estudo para a bioinformática na busca por similaridade em banco de dados proteômicos com outras toxinas protéicas, demonstrando que a toxina Mic6c7NTX apresentou similaridade (65%) com α-NTXs de cadeia curta de serpentes elapídicas australianas. Posteriormente, foi investigado o efeito da toxina isolada no SNP. Os estudos eletrofisiológicos em single sucrose gap demonstraram que a toxina Mic6c7NTX (1 WM) reduziu a excitabilidade do nervo isolado de forma similar à observada pela peçonha bruta. Não foram observadas alterações significantes em outros parâmetros do PAC, como velocidade de despolarização (VDPAC), tempo de repolarização (τPAC) e tempo de pico (PTPAC), sugerindo que a toxina atuasse num sítio de ligação específico dos [Escreva uma citação do documento ou o 11 canais Nav no SNP. Para a confirmação dessa hipótese foram realizados experimentos de voltage clamp com a técnica de whole cell patch-clamp em cultura primária de neurônios DRG da medula espinhal de ratos. Os resultados mostraram que a toxina Mic6c7NTX (1 WM) aboliu completamente as correntes dos canais Nav sensíveis à tetrodotoxina (TTX-S). Também foi investigado o efeito da toxina sobre a população de canais Nav resistentes à TTX (TTX-R), utilizando previamente TTX (100 nM) para bloquear os canais Nav TTX-S. Os registros com a toxina Mic6c7NTX (100 nM) demonstraram um bloqueio total da corrente nos canais Nav TTX-R dos DRGs e uma IC50 da toxina em torno de 30 nM. Também foi observado que essa toxina se liga aos canais Nav de forma lenta e irreversível. O presente estudo caracterizou bioquímica e eletrofisiologicamente uma α-NTX da serpente elapídica Micrurus ibiboboca. Farmacologicamente, trata-se de uma potente toxina com afinidade aos canais Nav TTX-S e TTX-R do SNP. Essa é a primeira α-NTX isolada e caracterizada da peçonha da serpente Micrurus ibiboboca (Merrem, 1820).

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