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Showing 31 to 40 of 41 (0.041 seconds)Spelling suggestions: "subject:"neurotoxic"" "subject:"neurotoxicity""
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Development of a MALDI-TOF-MS Method for the Analysis of Cyanobacterial Neurotoxin β-N-Methylamino-L-alanine (BMAA) in Search of BMAA Incorporation in Biological SamplesConklin, Laura M 10 November 2015 (has links)
Beta-N-methylamino-L-alanine (BMAA) is a non-protein amino acid produced by many cyanobacteria, and thought to induce neurotoxic effects through excitotoxicity, contributing to neurodegenerative diseases such as Amyotrophic Lateral Sclerosis/Parkinsonism-dementia complex (ALS-PDC) and Alzheimer’s. The ubiquitous nature of cyanobacteria, and evidence of biomagnification through our food web, creates a dire need for the development of an analytical platform that will provide accurate identification and quantification of BMAA amounts in our ecosystem and potential food supply. The present study evaluated the ability of a MALDI-ToF-MS method to detect and quantify BMAA in a variety of biological matrices. Through validation procedures, it was demonstrated that this MALDI-ToF-MS method provided comparable data to currently accepted analytical methods, specifically LC-MS/MS. Further, the development of said method reduced sample preparation and data acquisition time (1-2 seconds per sample), while providing high throughput analysis and eliminating the need for derivatization, chromatographic separation, and modification of amino acids.
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NeurotoxinsKostrzewa, R. M. 01 January 2009 (has links)
A selective neurotoxin takes many forms: as an antibody to a neurotrophin, as an alkylator, as an excitotoxin, as a blocker of requisite neuronal excitation during ontogenetic development, as a generator of oxidative stress, as an inhibitor of vital intraneuronal processes, and as an agent adversely affecting a host of multiple sites in neurons. Neurotoxins have been invaluable for elucidating cellular mechanisms attending or preventing neuronal necrosis and apoptosis, and for modeling and thereby discerning mechanisms invoked in neurological and psychiatric disorders. Neuroprotectants, endogenous and exogenous, are being explored as potentially useful agents to ward off diseases. Finally, hypothesized as posing a risk to humans as environmental constituents, neurotoxins are now being remodeled as adjuncts for therapeutic intervention in a variety of human medical disorders.
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NeurotoxinsKostrzewa, Richard M. 01 January 2016 (has links)
The era of selective neurotoxins arose predominately in the 1960s with the discovery of the norepinephrine (NE) isomer 6-hydroxydopamine (6-OHDA), which selectively destroyed noradrenergic sympathetic nerves in rats. A series of similarly selective neurotoxins were later discovered, having high affinity for the transporter site on nerves and thus being accumulated and able to disrupt vital intraneuronal processes, to lead to cell death. The Trojan Horse botulinum neurotoxins (BoNT) and tetanus toxin bind to glycoproteins on the neuronal plasma membrane, then these stealth neurotoxins are taken inside respective cholinergic or glycinergic nerves, producing months-long functional inactivation but without overtly destroying those nerves. The mitochondrial complex I inhibitor rotenone, while lacking total specificity, still destroys dopaminergic nerves with some selectivity; and importantly, results in the neural accumulation of synuclein-to model Parkinson’s disease (PD) in animals. Other neurotoxins target specific subtypes of glutamate receptors and produce excitotoxicity in nerves with that receptor population. The dopamine D2 receptor agonist quinpirole, termed a selective neurotoxin, produces a behavioral state replicating some of the notable features of schizophrenia, but without overtly destroying nerves. These processes, mechanisms or treatment-outcomes account for the means by which neurotoxins are classified as such, and represent some of the means by which neurotoxins as a group are able to destroy or functionally inactivate nerves; or replicate an altered neurological state. Selective neurotoxins have proven to be important in gaining insight into biochemical processes and mechanisms responsible for survival or demise of a nerve. Selective neurotoxins are useful also for animal modeling of human neural disorders such as PD, Alzheimer disease, attention-deficit hyperactivity disorder (ADHD), Lesch-Nyhan disease, tardive dyskinesia, schizophrenia and others. The importance of neurotoxins in neuroscience will continue to be ever more important as even newer neurotoxins are discovered.
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Contribution à l'étude du lien entre Annonaceae et parkinsonisme : identification et quantification d'acétogénines par déréplication; métabolisation de phase I et approche de la distribution de l'annonacine / Contribution to the study of the relationship between Annonaceae and parkinsonisms : identification and quantification of acetogenins by dereplication; phase I metabolism and approach of the distribution of annonacin.Le Ven, Jessica 03 February 2012 (has links)
Dans les Antilles françaises, une proportion anormalement élevée de parkinsonismes atypiques sporadiques – des tauopathies – est observée. Un lien avec la consommation de plantes de la famille des Annonaceae, en particulier Annona muricata L. (corossol) a été démontré. Les acétogénines d’Annonaceae, des inhibiteurs puissants du complexe I de la chaine respiratoire mitochondriale, sont considérées comme des toxines candidates. L’annonacine, une acétogénine représentative, majoritaire dans A. muricata, est neurotoxique in vitro et in vivo. L’Agence Française de Sécurité Sanitaire des Aliments a exprimé ses doutes quant à ce problème de santé publique. Elle insiste sur l’importance d’évaluer l’exposition des consommateurs d’Annonaceae aux acétogénines, et de déterminer les paramètres pharmacocinétiques de ces molécules. Au cours de cette thèse, nous avons cherché à répondre à ces interrogations, avec l’annonacine pour modèle. Après l’analyse structurale d’acétogénines étalons, une méthode de déréplication puissante et innovante a été mise au point par CLHP-ESI-LTQ-Orbitrap® avec infusion post-colonne de lithium. Les profils complets des acétogénines d’extraits bruts issus d’un nectar d’A. muricata et d’un alcool d’Annona cherimolia Mill. (annone, chérimole) ont été élucidés, mettant en évidence une composition plus complexe et plus variée que celle envisagée dans la littérature. A. cherimolia n’avait pas été identifiée comme une source d’exposition jusqu’à maintenant. Des données quantitatives ont été obtenues par CLHP-DAD-MS, à partir d’une quinzaine d’échantillons de produits commerciaux, confirmant une exposition humaine importante à ces molécules par voie alimentaire, via des produits d’origines géographiques, de statuts et de modes d’obtention variés. Des travaux préliminaires d’étude du passage de l’annonacine à travers des membranes biologiques ont été amorcés (modèles de barrières intestinale – Caco-2 – et hémato-encéphalique – hCMEC/D3). Une étude de métabolisation de phase I de l’annonacine sur microsomes de foie de Rat a permis d'identifier 25 métabolites mono-hydroxylés par CLHP-ESI-LTQ-Orbitrap®. Seuls trois d’entre eux sont observés avec des microsomes humains. Ces métabolites ont été obtenus par hémisynthèse (bioconversion, catalyse par porphyrines) et leur structure a été déterminée. Les résultats montrent que cette étape de métabolisation n’est pas cruciale dans le devenir de l’annonacine, et ne peut expliquer de susceptibilité différentielle aux acétogénines. Après la présentation de rappels concernant les Annonaceae, les parkinsonismes et leurs formes atypiques guadeloupéennes et tropicales, puis d’aspects méthodologiques en spectrométrie de masse, nos travaux de phytochimie analytique, d’analyse métabolique, d’hémisynthèse et de détermination structurale sont présentés, et discutés en regard d’un problème de santé publique potentiellement large et préoccupant. / In the French West Indies, an unusually high proportion of atypical sporadic parkinsonisms - tauopathies - is observed. A link between these atypical parkinsonisms and the consumption of plants of the Annonacea family, Annona muricata L. (soursop) was demonstrated. The Annonaceous acetogenins are potent inhibitors of complex I of mitochondrial respiratory chain and are considered to be in vitro toxins candidate. The major acetogenin in Annona muricata, annonacin, is neurotoxic in in vitro and in vivo models. Afssa (Agence Française de Sécurité Sanitaire des Aliments) expressed its concern regarding this public health problem. The Agency reports the importance of assessing consumers ‘exposure to Annonaceous acetogenins, and of determining the pharmacokinetic of these molecules. In this thesis, we sintended to answer these questions, with annonacine as a model. After the structural analysis of acetogenins standards, a powerful and innovative method of dereplication was developed by HPLC-ESI-LTQ-Orbitrap ® with post-column infusion of lithium. Complete acetogenins profile in crude extracts from nectar of A. muricata and from an alcohol of Annona cherimolia Mill. (Annona, cherimoya) were elucidated, revealing a more complex and more varied composition than that proposed in the literature. A. cherimolia had not been identified as a source of exposure to date. Quantitative data were obtained by HPLC-DAD-MS, from fifteen samples of commercial products, confirming an important human exposure to these molecules through food products of varied geographical origins, status and methods. Preliminary works to study ability of annonacin to cross biological membranes have been initiated (intestinal barrier models - Caco-2 - and blood-brain barrier - hCMEC/D3). A study of phase I metabolism of annonacin in rat liver microsomes allowed the identification of 25 mono-hydroxylated metabolites by HPLC-ESI-LTQ-Orbitrap®. Only three of them were observed with human microsomes. These metabolites were obtained by semisynthesis (bioconversion, porphyrin mediated catalysis) and their structure was determined. The results show that phase metabolism is not critical in the becoming of annonacin, and cannot explain a differential susceptibility of acetogenins. After a presentation of the Annonaceae family, of parkinsonism – including atypical and guadeloupean forms then of and methodological aspects of mass spectrometry, analytical phytochemistry of our work, metabolic analysis, semisynthesis and structure determination are proposed, and discussed in the context of a public health problem and potentially broad concern.
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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)
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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
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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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The Spatial and Temporal Distribution and Environmental Drivers of Saxitoxin in Northwest OhioNauman, Callie A. 12 August 2020 (has links)
No description available.
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Theoretical Studies of Molecular Recognition in Protein-Ligand and Protein-Protein ComplexesYang, Hui January 2010 (has links)
No description available.
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Mercury Methylation in Oxic Sub-Polar Marine Regions Linked with NitrificationDespins, Marissa Collins 05 August 2022 (has links)
No description available.
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Incidence of Clostridium botulinum Spores in Honey and Infant Food Samples Collected from Vietnam and Germany / Vorkommen von Clostridium-botulinum-Sporen in Honig- und Säuglingsnahrungsproben aus Vietnam und DeutschlandVu, Thi Lam An 02 November 2006 (has links)
No description available.
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探討空間記憶之神經行為機制 / Investigation of the Neurobehavioral Mechanisms Underlying Spatial Memory林建佑 Unknown Date (has links)
本研究以神經毒素ibotenic acid破壞不同尾核區域以及鋰鹽去價值程序為操弄變項,觀測此兩種實驗操弄對於大鼠之迷津行為之影響,進而探討標誌系統之行為內涵及神經機制。實驗所採用的作業為線索學習作業以及自我中心作業,分別代表標誌系統下的線索導引策略及體位導向策略。實驗一及實驗二在於檢驗尾核功能缺損對於大鼠迷津行為之影響,從探測嘗試發現大鼠在線索學習的行為表現需依賴砂紙線索的導引,而在自我中心作業之行為則不以環境刺激為依據(實驗一A、二A),顯示大鼠在各迷津作業的行為符合標誌系統的運作原則。神經機制之操弄結果顯示在記憶習得階段,尾核破壞之受試在線索學習作業上的表現並沒有顯著變差,尾核功能缺損並未導致學習的延宕或阻斷,其進步的速度仍與控制組相同(實驗一B)。相較於線索學習作業,尾核破壞之受試在自我中心作業上的表現則明顯變差,幾乎沒有進步的趨勢(實驗二B)。而在記憶保持階段,不管是線索學習作業或自我中心作業之表現皆會因尾核破壞而顯著變差(實驗一C、二C)。實驗三及實驗四則利用鋰鹽去價值程序降低食餌之誘因價值,觀測大鼠行為有無相對應改變。結果發現去價值程序的操弄只會影響到大鼠在自我中心作業的行為表現(實驗四),而不影響其在線索學習作業之行為(實驗三)。由此可知,兩種迷津作業所形成的記憶表徵是不同的,自我中心學習歷程會將增強物表徵在聯結單位中,而線索學習之習得歷程則不會。綜合上述實驗結果,標誌系統下確實有兩個不同空間行為機制,一個為線索導引策略,另一個為體位導向策略,雖皆受到尾核的調節,但調節的程度是不同的。不管是記憶習得或保持階段,尾核在體位導向策略的運作中皆扮演重要的角色,而在線索導引策略只參與了記憶保持歷程的運作。另外,兩個空間行為機制在學習內涵上也不盡相同,以線索導引策略為依據之空間行為會形成刺激反應(S-R)的聯結型態,而以體位導向策略為依據之空間行為則會形成反應及增強物(R-S*)聯結。 / This study investigated the neurobehavioral mechanisms of taxon system of spatial memory through manipulating lesions of subareas in the caudate nucleus by ibotenic acid and lithium chloride (LiCl)-induced reward devaluation. With respect to behavioral measurement in an eight-arm radial maze, a cue learning task and an egocentric task were used for testing the guidance and orientation hypotheses of taxon system, respectively. Data from probing procedures showed that the performance of rats in the cue learning task was impaired when the cue was removed, but the performance in the egocentric task was not affected by changing the context (Experiments 1A and 2A). These results indicate that behavior reactions in two tasks are corresponding to those two operational principles of taxon system. In terms of the acquisition, deficits were significantly produced by the lesion of the dorsomedial caudate on egocentric task, while the ibotenate lesions did not affect cue learning task (Experiments 1B and 2B). For retention test, the performances in both cue learning and egocentric tasks were impaired by dorsomedial caudate lesion, no such impairment was observed from dorsolateral and posterolateral caudate lesions (Experiments 1C and 2C). In the third and fourth experiments, LiCl devaluation procedure was employed to lower the reward value of the bait in the maze. This manipulation significantly impaired the performance of egocentric task but not that of the cue learning task. These results indicate that the memory representations in the two tasks used in the present study are different. The memory representation in the egocentric task contains the reinforcer, whereas that in the cue learning task is not necessarily relevant to the reinforcer. In conclusion, the guidance and orientation hypotheses can be differentiated as behavioral mechanisms existing in the taxon system of spatial memory. Although the caudate nucleus is critically important for the operation of both hypotheses, the degrees of this brain site to get involved are different. The caudate nucleus participates in the acquisition and retention of orientation hypothesis, but only in the retention of guidance hypothesis. In addition, behavioral performance of the spatial memory using guidance hypothesis is based on forming the association of stimulus and response (S-R), while that using orientation hypothesis is based on forming the association of response and reinforcer (R-S*).
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