The Role of Gabergic Inhibition in Modulating Receptive Field Size of Cuneate Neurons

Tennison, Cullen F.

08 1900

A blockade of GABAergic inhibition increases the receptive field(RF) size of most somatosensory cortex (SI) and some ventrobasal thalamus (VB) neurons. The results suggest RF size of cuneate neurons may be modulated through GABAa and GABAb receptors, independent of firing frequency.

GABAergic inhibition

Cuneate neurons

GABA -- Receptors.

Sensorimotor cortex.

Topographical organisation of non-cholinergic neurons in the pedunculopontine nucleus

Martínez González, Cristina

January 2012

The pedunculopontine nucleus (PPN) is a brainstem structure involved in motor control, sleep and arousal. The boundaries of the PPN are defined by its cholinergic neurons, but it also contains GABAergic, glutamatergic and calcium-binding protein- positive neurons. To further understand the physiological roles of the PPN it is necessary to understand which neuronal subtypes are present in the PPN and how they are connected with other regions of the brain in normal and pathological conditions. In order to address these issues, the total numbers, distributions and neurochemical phenotypes of neurons, positive for the calcium-binding proteins calbindin and calretinin, were studied in the rat PPN. Sagittal, perfuse-fixed rat brain sections were double or triple-immunolabelled to reveal the cholinergic marker choline acetyltransferase (ChAT) with calbindin and/or calretinin. A stereological approach revealed that calbindin- and calretinin-positive neurons account for a large proportion of PPN neurons, but they rarely eo-express ChAT. A combination of immunolabelling for calbindin or calretinin with in situ hybridisation for GAD65/67 or VGluT2 mRNAs revealed that about one third of the calbindin- and calretinin-expressing neurons are GABAergic and preferentially located in the rostral PPN, whereas approximately two thirds are glutamatergic and principally located in the caudal PPN. Additionally, retrograde tracer injections in the subthalamic nucleus (STN) and the gigantocellular nucleus (GiN) showed that the majority of PPN neurons, projecting to one or both of these nuclei, were not cholinergic (70-90%). Less than 10% of STN-projecting neurons expressed calbindin or calretinin and 5% of the GiN-projecting neurons contained calretinin but none contained calbindin. Finally, the expression of the immediate early gene, Egrl, a marker of neuronal activation, was evaluated in STN- and GiN-projecting neurons of the PPN in control and 6-0HDA lesioned animals. No statistically significant differences, in the number of Egr l-positive neurons, were observed between control and 6- OHDA lesioned animals. These findings show that calbindin- and calretinin-positive neurons are abundant in the PPN, heterogeneously distributed and display a GABAergic or glutamatergic phenotype. Additionally, calbindin- and calretinin-positive neurons represent only a minority of the PPN neurons projecting to either the STN, GiN or both nuclei. Results also suggest that the hyperactivity seen in the PPN in the 6-0HDA model of Parkinson's disease may not necessarily be due to the neurons projecting to the STN and/or GiN. Overall, this thesis supports the notion that the PPN is composed of a rich diversity of neuronal cell-types, which are heterogeneously distributed along its rostro-caudal axis. The heterogeneous neurochemistry, connectivity and physiology of these neurons allow the PPN to influence a wide range of brain regions through a variety of pathways presumably underlying its various functional roles.

611.81

Simulating the Affects of Glutamatergic Afferents on the Firing Pattern of Midbrain Dopamine Neurons

Landry, Richard Spencer, Jr.

20 January 2006

A computational model of a midbrain dopamine neuron was extended in this study to include a response to random excitatory afferent input by incorporating the receptor components AMPA and NMDA. In a diagonal band where average glutamatergic and tonic gabaergic input is roughly balanced, both single spike firing and bursting can be observed. Simulated SK channel block strengthens the correlation between pattern and rate and increases the number of spikes fired in bursts by increasing the spikes per burst. A simulated doubling of the AMPA/NMDA ratio leads to a frequency increase that becomes more prominent at high firing rates, and an increase in the percent spikes fired in bursts. Changes in pattern and rate are poorly correlated in the model. Manipulations of the neuron greatly depend on the background level of synaptic inputs, suggesting that interpretation of population data from dopamine neurons requires taking variability into account rather than averages.

DA neurons

Single spike firing and burst firing

Apamin

Bursting rate

Alterações hemodinâmicas encefálicas no sistema de neurônios-espelho associados à imitação: um estudo envolvendo imageamento funcional por ressonância magnética / Imitation-related encephalic hemodynamic changes in the mirror neurons system: a study involving functional magnetic ressonance imaging

Lima, Renata Pereira

27 September 2011

Neurônios espelho são ativados tanto durante a execução de uma ação como durante a observação desta mesma ação desempenhada por outra pessoa. Como parecem integrar observação e ação, os neurônios espelho têm sido foco de estudos sobre como o ser humano entende o próximo e em que extensão é capaz de compartilhar experiências. Esta integração inclui uma \"representação interna\" que envolve as mesmas estruturas nervosas envolvidas na execução da ação observada e tem sido sugerida como parte fundamental da facilitação do aprendizado por imitação. Este trabalho teve como objetivo, além de investigar o papel do sistema de neurônios-espelho no comportamento imitativo, investigar como ações motoras desconhecidas passam a ser reconhecidas e incorporadas ao repertório motor no contexto atual de neurônios espelho. Para isso, 20 voluntários foram treinados a executar acordes musicais em tarefas envolvendo imitação. Nossos resultados mostram que o sistema de neurônios-espelho possui um crítico papel durante a observação de uma ação com o intuito de imitá-la. Além disso, a ativação do sistema de neurônios-espelho pode ser alterada dependendo do contexto em que a ação está inserida / Mirror neurons are activated both during action execution and during observation of this same action performed by another person. As they seem to integrate observation and action, mirror neurons have been the focus of studies on how humans understand the other and to what extent is able to share experiences. This integration includes an \"internal representation\" that involves the same neural structures involved in the execution of an observed action and has been suggested as a fundamental part of the facilitation of learning by imitation. This study aimed, besides investigating the role of the mirror neuron system in imitative behavior, investigating how unknown motor actions are recognized and incorporated into the repertoire after practice in the current context of motor mirror neurons. For this, 20 volunteers were trained to perform tasks involving musical chords in imitation context. Our results show that the mirror neuron system has a critical role during the observation of an action in order to imitate it. Moreover, activation of mirror neuron system may be altered depending on the context in which the action is inserted

fMRI

fMRI

Imitação

Imitation

Mirror neurons

Neurônios espelho

Danos oxidativos promovidos por espécies de Mn(III) sobre biomoléculas e células em situação de estresse / Oxidative damage induced by Mn(III) species over biomolecules and stressed cells

Pereira, Tatiana Araujo

08 March 2012

O manganês é um elemento traço essencial, porém existe uma preocupação com seus potenciais efeitos neurotóxicos associados à exposição a níveis excessivos, podendo provocar uma síndrome conhecida como manganismo, cujos sintomas são semelhantes aos da doença de Parkinson. A maioria dos trabalhos envolvendo manganês usa espécies de Mn(II), mas sabe-se que Mn(III) é acumulado em maior quantidade no cérebro. Nesse sentido, foi feito um estudo dos danos oxidativos e de toxicidade provocados por três complexos de Mn(III): citrato, pirofosfato e salicilenodiamina (respectivamente MnCit, MnPPi e EUK8). Para tanto, as três espécies foram sintetizadas e caracterizadas por métodos espectroscópicos. Em seguida foram determinadas suas capacidades pró-oxidantes sobre os seguintes marcadores: dihidrorodamina (DHR), tirosina (Tyr), albumina (BSA) e dopamina (DA). Finalmente, seu efeito sobre células cerebelares e da cepa HeLa estressada por meio de irradiação UV também foi avaliado, e foi usado ascorbato na tentativa de tratar o dano sobre células HeLa. O teste com a DHR também foi feito em presença de H2O2 e ascorbato. A capacidade pró-oxidante testada por fluorescência da DHR sugere que o ascorbato atua como anti-oxidante. Além disso, MnCit e MnPPi (mas não EUK8), quando na presença de H2O2, são menos oxidantes. O mesmo comportamento foi percebido nas medidas de fluorescência de Tyr. A carbonilação da BSA, verificada pela absorbância do seu marcador (DNPH), seria indício de capacidade oxidante dos complexos, mas não percebeu-se variação significativa de grupos C=O na proteína após tratamento com espécies de Mn(III), mesmo em amostras com H2O2, embora notem-se as mesmas tendências apresentadas pelos complexos com DHR e Tyr. Estudos de oxidação de DA por luminescência tiveram resultados inconclusivos, mas dados mais concretos em testes com medidas de absorbância de soluções de DA e fluorescência de misturas de DA com DHR indicaram que DA é preferencialmente oxidada por todos os compostos. A viabilidade celular de culturas de células neuronais granulares (CGC) mostrou pouca diferença entre as toxicidades dos compostos, mas verifica-se uma relação inversamente proporcional entre as toxicidades e lipofilicidades dos complexos. O mesmo não ocorre nos experimentos com HeLa, cuja viabilidade foi avaliada por contagem de colônias após fixação e coloração das células, pois nesse caso o EUK8 se mostrou o mais tóxico dos três. Além disso, ao contrário do observado com a DHR, o ascorbato teve ação pró-oxidante, e, aparentemente, houve um efeito sinérgico negativo entre os complexos e a radiação UV. Tratamento com o quelante p-aminossalicilato só foi eficaz na recuperação das culturas para amostras não irradiadas. / Manganese is an essential trace element, however there is considerable concern regarding its neurological effects when in excess, giving rise to a condition termed manganism which is characterized by Parkinson disease-like symptoms. Most evaluations of manganese toxicity use poorly defined Mn(II) species, although Mn(III) is known to accumulate preferentially in the brain. Therefore, in this work we proposed a study of oxidative damage and citotoxicity of Mn(III) derivatives of citrate, pyrophosphate and salycilenediamine (respectively, MnCit, MnPPi and EUK8). The species were synthesized and characterized by spectroscopic methods. Their pro-oxidant abilities were assessed over markers of oxidant activity dihydrorhodamine (DHR), tyrosine (Tyr), albumin (BSA) and dopamine (DA). In addition, their effect over granular cerebral cells (CGC) and HeLa cells stressed by ultraviolet irradiation was studied, and treated with ascorbate. Tests with DHR were repeated treating the samples with H2O2 and ascorbate. Pro-oxidant ability tested by both DHR and Tyr fluorescence suggest that ascorbate is antioxidant towards Mn(III)-induced oxidative damage. MnCit and MnPPi (but not EUK8), when in presence of peroxide, are less oxidants. An analogous trend was observed for BSA, although without statistical significance. Evaluation of DA formation by luminescence was inconclusive, but competition studies of DA+DHR mixtures indicated that DA is preferentially oxidized by all the complexes. To CGC, little difference was observed for the toxicities of the complexes. An inverse relationship of toxicity and lipophilicity has been observed. However this was not observed for HeLa cells, to which EUK8 was more toxic. In addition, and in opposition to the DHR solution study, ascorbate was found to be pro-oxidant. A negative synergic effect was observed between complex doses and irradiation. Treatment of the cells with paraaminosalicylate was beneficial only for non-irradiated cells.

Biomoléculas

Biomolecules

Manganês

Manganese

Neurônio

Neurons

Redox

Redox

Toxicidade

Toxicity

The Enchantment of Ethics: Empathy, Character, and the Art of Moral Living

Parzuchowski, Kimberley

23 February 2016

My dissertation explores the role of narrative in the cultivation of empathy for ethical attitudes and behaviors. I begin by exploring an uncommon view of human nature, concluding that we are not autonomously individualistic rational deciders but ultrasocial moral intuitionists. Our intuitions are developed through our social engagements and the moral imagination. Intersubjective relations run deep in our psychology and provide the basis by which we shape the meaning of our lives as individuals in communities. It is because of this that we need to reconsider and redesign our moral cultivation programs both for the child-rearing years and throughout adult life. I look at empathy, the means of our mutual understanding, care, and help, as a key site for moral cultivation. I explicate the neurophysiological bases of empathy, both conscious and unconscious. Empathy is on the continuum with very primitive, automatic mirroring systems, which through varying levels of mimicry facilitate social cognition and moral insight and action. It is thus the ideal means of cultivating a skillful morality. Empathy enables us to enter the worlds and feelings of others in rich and full-bodied ways and so can reveal others in their full subjectivity. Such experiences can incite empathic regard and compassionate action, but empathy, like all of our psycho-social capacities, requires cultivation to develop its skillfulness in practice. Narrative is an obvious means of cultivating empathy because it is humanity’s primary meaning-making structure, utilizing the empathic imagination to seduce us into the inner worlds of others. Through narrative dramatizations of experience, we learn to see and feel from another’s point of view, sensitizing us to their inner states and outward behavior. Such sensitivity can facilitate improving our moral attitudes and action by dislodging preoccupation with self-concern and instigating higher regard for others. In narratives we can imaginatively practice various moral actions, witnessing possible results. Reflective engagement can then bring the moral insights of these imaginative experiences to life in our practical worlds by attuning us to what is morally salient. Narrative engagement is thus a natural and vital part of shaping empathic moral perception for compassionate action. By reading and feeling with others reflectively, we can expand empathy for the pluralistic communities in which we live, make meaning, and grow.

Empathy

Intersubjectivity

Mirror neurons

Moral imagination

Moral perception

Narrative

Le rôle émergeant des microtubules dans la physiopathologie des podocytopathies héréditaires / The emerging role of microtubules in the pathophysiology of herediterian podocytopathies

Huynh Cong, Evelyne

30 June 2015

L’étude des formes familiales de syndrome néphrotique (SN) ou de protéinurie glomérulaire avec lésions histologiques de hyalinose segmentaire et focale (HSF) a permis d’incriminer plus d’une vingtaine de gènes, majoritairement exprimés par le podocyte, cellule principale de la barrière de filtration glomérulaire (BFG). Parmi ces gènes, près d’une dizaine code des régulateurs du cytosquelette d’actine démontrant ainsi le rôle central de la plasticité et de l’architecture du podocyte dans le fonctionnement du filtre glomérulaire. L’ensemble de ces travaux a permis de définir une nouvelle catégorie de maladies nommées podocytopathies héréditaires. Mon projet de thèse a porté sur la caractérisation de plusieurs gènes (TTC21B, WDR73, TRIM3), dont nous avons identifié des mutations dans des cas de podocytopathies héréditaires isolées ou syndromiques. Les résultats du premier volet de ma thèse ont montré que la mutation faux sens p.P209L dans le gène TTC21B induit à l’état homozygote une nouvelle entité clinique associant à la fois une atteinte glomérulaire et une atteinte tubulaire. TTC21B code l’IFT139 (intraflagellar transport protein 139), une protéine impliquée dans le transport protéique antérograde dans le cil primaire, un organite présent à la surface de la plupart des cellules épithéliales. Ces résultats étaient inattendus car l’identification de mutations dans un gène codant une protéine ciliaire n’avait jamais été démontrée auparavant dans des cas de podocytopathies héréditaires, et surtout, il ne semblait pas exister de cil primaire à la surface des podocytes matures. Effectivement, nous avons montré que le cil primaire est présent dans les podocytes humains indifférenciés, mais disparait au cours de la différenciation. Nos résultats ont permis de comprendre l’apparente contradiction entre la survenue d’une pathologie glomérulaire relativement tardive (protéinurie et SN à l’adolescence) et l’absence de cil dans le podocyte mature. En effet, nous avons montré que la mutation p.P209L est une mutation hypomorphe qui induit des défauts mineurs dans la fonction ciliaire, alors qu’elle provoque, dans le podocyte différencié, une déstructuration importante du réseau d’actine et de microtubules du podocyte. Cette étude montre que la protéine ciliaire IFT139, par sa fonction extra-ciliaire, permet de réguler la dynamique des microtubules. Dans le deuxième volet de mon projet, en collaboration avec l’équipe de D Bonneau (Angers), nous avons identifié des mutations tronquantes dans le gène WDR73, dans deux familles non apparentées présentant un syndrome de Galloway-Mowat (SGM), pathologie de transmission autosomique récessive, très hétérogène cliniquement, associant SN et microcéphalie. Ces travaux ont permis d’identifier le premier gène impliqué dans le SGM, dans un sous-groupe de patients présentant un phénotype neurologique très homogène (microcéphalie post-natale, atrophie corticale avec atrophie cérébelleuse majeure, déficience intellectuelle très sévère), alors que l’atteinte glomérulaire est très variable. Ce gène code WDR73, une protéine à motifs WD40. Nos travaux ont montré que la protéine est exprimée dans les neurones du système nerveux central, en particulier dans les cellules de Purkinje du cervelet et dans les podocytes. Des études fonctionnelles nous ont permis de montrer que WDR73 est impliquée dans la survie cellulaire, puisqu’en son absence, une apoptose accrue est observée dans les fibroblastes de patients. De plus, elle est également nécessaire au maintien de la dynamique des microtubules dans les fibroblastes et dans les podocytes différenciés, alors qu’elle ne semble pas avoir de rôle dans la régulation de l’actine. (...) / The genetic study of familial forms of nephrotic syndrome or proteinuria with focal segmental glomerulosclerosis has permitted the identification of 30 causal genes, mainly expressed in the podocyte, which is the principal actor of the glomerular filtration barrier (GFB). Among those genes, approximately ten encode actin cytoskeleton regulators and components, thus highlighting the dramatic role of the podocyte architecture and plasticity in the function of the GFB. During the last decade, all the accumulating results, has made a new category of disease called hereditary podocytopathies. The aim of my thesis project was to characterize the effect of mutations in three candidate genes (TTC21B, WDR73, WDR73), identified by whole exome sequencing in isolated or syndromic podocytopathies. In the first part of my project, we found a homozygous missense mutation (p.P209L) in TTC21B, which encodes a ciliary gene named Intraflagellar transport protein IFT139. This protein ensures the trafficking of components from the tip to the base of the primary cilium, which is an organelle present on most mammalian epithelial cells. These results were unexpected because until now, the existence of the primary cilium was unknown. Our work demonstrates the presence of the primary cilium in the human immature podocyte that disappears once podocytes have differentiated. We also showed that IFT139 localized at the basal body and then relocalized along the complex microtubule network of differenciated cells. We showed that the hypomorphic mutation p.P209L causes minor ciliary defects in undifferentiated cells that are not responsible for the glomerular phenotype. Indeed, the glomerular lesions are rather due to drastic damage in actin and, microtubular dysregulation, found in differentiated podocytes. The second part of my thesis aimed to characterize the effects of truncating mutations identified in the WDR73 gene, found in two families. WDR73 is the first gene identified in Galloway Mowat syndrome by whole exome sequencing combined with homozygous mapping. This rare disease is defined by the association of microcephaly with nephrotic syndrome. In this study, the phenotypes of patients with WDR73 mutations are homogenous concerning neurological features, and are heterogeneous with regards to the renal defects. Thus, WDR73 mutations are responsible for a subset of particular patients affected with Galloway-Mowat syndrome. The WDR73 gene encodes WDR73, a WD-40 containing protein of unknown function. Our studies demonstrated that this protein is expressed in both neurons and podocytes in human tissues. We demonstrated that in undifferentiated cells, WDR73 is weakly expressed in the cytosol, while strong expression and relocalization to the spindle pole, microtubule asters and in the cleavage furrow occur during mitosis. Patient fibroblasts and WDR73-depleted podocytes displayed defects in nuclear morphology, which was associated with a decrease in cell survival in patient fibroblasts. Furthermore, we showed that patient fibroblasts and differentiated WDR73-depleted podocytes harbored an atypical morphology associated with a disorganized microtubule network, suggesting microtubule polymerization defects. Our functional studies demonstrated that WDR73 is crucial in both cell survival and microtubule polymerization in neurons and podocytes. The final part of my PhD work focused on the characterization of a missense mutation in the TRIM3 gene R28W identified by whole exome sequencing in a non consanguineous family with autosomal dominant focal segmental glomerulosclerosis. TRIM3 encodes TRIM3, an E3 ubiquitin-ligase that plays a role in transferrin endosomal recycling, and in microtubule trafficking via KIF21B, one of its known partners. Interestingly, the polymorphism V801M in ACTN4 co-segrates with the disease. Furthermore, mutations in this gene were already incriminated in autosomal dominant cases of HSF. (...)

Podocytopathies héréditaires

Podocytes

Neurones

Hereditary podocytopathies

Neurons

Podocytes

599.935

The role of BDNF in the survival and morphological development of adult-born olfactory neurons

Unknown Date

Olfactory Granule cells (GCs) are a population of inhibitory interneurons responsible for maintaining normal olfactory bulb (OB) function and circuitry. Through dendrodendritic synapses with the OBs projection neurons, the GCs regulate information sent to the olfactory cortices. Throughout adulthood, GCs continue to integrate into the OB and contribute to olfactory circuitry. However, only ~50% will integrate and survive longterm. Factors aiding in the survival and morphological development of these neurons are still being explored. The neurotrophin brain-derived neurotrophic factor (BDNF) aids in the survival and dendritic spine maturation/maintenance in several populations of CNS neurons. Investigators show that increasing BDNF in the adult-rodent SVZ stimulates proliferation and increases numbers of new OB GCs. However, attempts to replicate these experiments failed to find that BDNF affects proliferation or survival of adult-born granule cells (abGCs). BDNFs regulation of dendritic spines in the CNS is well characterized. In the OB, absence of BDNF’s receptor on abGCs hinders normal spine development and demonstrates a role for BDNF /TrkB signaling in abGCs development. In this study, we use transgenic mice over-expressing endogenous BDNF in the OB (TgBDNF) to determine how sustained increased in BDNF affect the morphology of olfactory GCs and the survival and development of abGCs. Using protein assays, we discovered that TgBDNF mice have higher BDNF protein levels in their OB. We employed a Golgi-cox staining technique to show that increased BDNF expression leads to an increase in dendritic spines, mainly the mature, headed-type spine on OB GCs. With cell birth-dating using 5-bromo-2’- deoxyuridine (BrdU), immunofluorescent cell markers, TUNEL staining and confocal microscopy, we demonstrate that over-expression of BDNF in the OB does not increase survival of abGCs or reduce cell death in the GC population. Using virally labeled abGCs, we concluded that abGCs in TgBDNF mice had similar integration patterns compared to wild-type (WT) mice, but maintained increases in apical headed-type spine density from 12 to 60 days PI. The evidence combined demonstrates that although increased BDNF does not promote cell survival, BDNF modifies GC morphology and abGC development through its regulation of dendritic spine development, maturation and maintenance in vivo. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection

Brain-Derived Neurotrophic Factor

Olfactory Bulb

Olfactory Pathways

Neurons

Estudo morfométrico e estereológico do gânglio celíaco em cães sadios e acometidos pelo Diabetes mellitus / Morphometric and estereologic study of the celiac ganglion on health dogs and on Diabetes mellitus

Guidi, Wanderley Lima

22 December 2003

Nesta pesquisa, os aspectos macroestruturais, microestruturas e histoquímicos do complexo ganglionar celíaco foram investigados em 6 cães domésticos saudáveis e 6 cães domésticos acometidos pela diabetes mellitus, com o objetivo de identificar possíveis diferenças estruturais, morfométricas e quantitativas nos neurônios ganglionares celíacos. desta forma, observamos o gânglio celíaco esquerdo originou-se junto à origem da artéria celíaca esquerda e apresentava um formato irregular, seu aspecto era nodular, caracterizando um complexo ganglionar. Em relação a histoquímica, foram encontrados neurônios NADPH-diaphorase positivos, apresentando reação visível. A positividade da reação permitiu-nos concluir que há neurônios potencialmente nitrérgicos no gânglio celíaco de animais sadios e diabéticos. No entanto, não podemos afirmar se estes neurônios são efetivamente nitrérgicos, porque exige a combinação de outras reações imunohistoquímicas. O tamanho do corpo celular do neurônio do gânglio celíaco, representado pela sua área seccional, aumentou significativamente nos animais do grupo diabético quando comparado aos do grupo controle, tendo um fator de aumento de 1,3x. O aumento na área seccional do núcleo no grupo diabético foi de 1,39x maior que no grupo controle, sendo este aumento significativo. Em termos práticos isto significa que nos animais diabéticos, o núcleo e o corpo celular neuronal aumentam em proporções muito próximas. / In this research, the macrostructural, microstructural and histochemical aspects were investigated in 6 clinacally health dogs and 6 diabetic dogs aiming to identify the possible alterations on the strucutre, morphometric and qualitative parameteres of neurons of the celiac ganglionar complex. Our observations revealed that the celiac ganglion was originated close to the origin of the celiac artery and showed a irregular aspect, being caractherized as a complex. Histochemically, neurons NADPH-diaphorase reactives were identified. This positive reaction, on both health and diabetic animals, led us to conclude this neurons were potentially nitrergic, besides, to confirm the nitrergic aspect for this neurons it is necessary to combine immunohistochemical method. Neurons celular body size of the celiac ganglion, represented by its sectional area, increased significantly, at 1.3x rate, on the diabetic animals when compared to the health animals. The increase on the nuclear sectional area of the diabetic animals were significant, at 1.39x rate larger than the other group. These results mean that on the diabetic animals, nuclear and neuronal body celular raise rate increases proportionally.

Cães

Diabetes

Diabetes

Dogs

Ganglion

Gânglios

Morfometria

Morphometry

Neurônios

Neurons

Danos oxidativos promovidos por espécies de Mn(III) sobre biomoléculas e células em situação de estresse / Oxidative damage induced by Mn(III) species over biomolecules and stressed cells

Tatiana Araujo Pereira

08 March 2012

O manganês é um elemento traço essencial, porém existe uma preocupação com seus potenciais efeitos neurotóxicos associados à exposição a níveis excessivos, podendo provocar uma síndrome conhecida como manganismo, cujos sintomas são semelhantes aos da doença de Parkinson. A maioria dos trabalhos envolvendo manganês usa espécies de Mn(II), mas sabe-se que Mn(III) é acumulado em maior quantidade no cérebro. Nesse sentido, foi feito um estudo dos danos oxidativos e de toxicidade provocados por três complexos de Mn(III): citrato, pirofosfato e salicilenodiamina (respectivamente MnCit, MnPPi e EUK8). Para tanto, as três espécies foram sintetizadas e caracterizadas por métodos espectroscópicos. Em seguida foram determinadas suas capacidades pró-oxidantes sobre os seguintes marcadores: dihidrorodamina (DHR), tirosina (Tyr), albumina (BSA) e dopamina (DA). Finalmente, seu efeito sobre células cerebelares e da cepa HeLa estressada por meio de irradiação UV também foi avaliado, e foi usado ascorbato na tentativa de tratar o dano sobre células HeLa. O teste com a DHR também foi feito em presença de H2O2 e ascorbato. A capacidade pró-oxidante testada por fluorescência da DHR sugere que o ascorbato atua como anti-oxidante. Além disso, MnCit e MnPPi (mas não EUK8), quando na presença de H2O2, são menos oxidantes. O mesmo comportamento foi percebido nas medidas de fluorescência de Tyr. A carbonilação da BSA, verificada pela absorbância do seu marcador (DNPH), seria indício de capacidade oxidante dos complexos, mas não percebeu-se variação significativa de grupos C=O na proteína após tratamento com espécies de Mn(III), mesmo em amostras com H2O2, embora notem-se as mesmas tendências apresentadas pelos complexos com DHR e Tyr. Estudos de oxidação de DA por luminescência tiveram resultados inconclusivos, mas dados mais concretos em testes com medidas de absorbância de soluções de DA e fluorescência de misturas de DA com DHR indicaram que DA é preferencialmente oxidada por todos os compostos. A viabilidade celular de culturas de células neuronais granulares (CGC) mostrou pouca diferença entre as toxicidades dos compostos, mas verifica-se uma relação inversamente proporcional entre as toxicidades e lipofilicidades dos complexos. O mesmo não ocorre nos experimentos com HeLa, cuja viabilidade foi avaliada por contagem de colônias após fixação e coloração das células, pois nesse caso o EUK8 se mostrou o mais tóxico dos três. Além disso, ao contrário do observado com a DHR, o ascorbato teve ação pró-oxidante, e, aparentemente, houve um efeito sinérgico negativo entre os complexos e a radiação UV. Tratamento com o quelante p-aminossalicilato só foi eficaz na recuperação das culturas para amostras não irradiadas. / Manganese is an essential trace element, however there is considerable concern regarding its neurological effects when in excess, giving rise to a condition termed manganism which is characterized by Parkinson disease-like symptoms. Most evaluations of manganese toxicity use poorly defined Mn(II) species, although Mn(III) is known to accumulate preferentially in the brain. Therefore, in this work we proposed a study of oxidative damage and citotoxicity of Mn(III) derivatives of citrate, pyrophosphate and salycilenediamine (respectively, MnCit, MnPPi and EUK8). The species were synthesized and characterized by spectroscopic methods. Their pro-oxidant abilities were assessed over markers of oxidant activity dihydrorhodamine (DHR), tyrosine (Tyr), albumin (BSA) and dopamine (DA). In addition, their effect over granular cerebral cells (CGC) and HeLa cells stressed by ultraviolet irradiation was studied, and treated with ascorbate. Tests with DHR were repeated treating the samples with H2O2 and ascorbate. Pro-oxidant ability tested by both DHR and Tyr fluorescence suggest that ascorbate is antioxidant towards Mn(III)-induced oxidative damage. MnCit and MnPPi (but not EUK8), when in presence of peroxide, are less oxidants. An analogous trend was observed for BSA, although without statistical significance. Evaluation of DA formation by luminescence was inconclusive, but competition studies of DA+DHR mixtures indicated that DA is preferentially oxidized by all the complexes. To CGC, little difference was observed for the toxicities of the complexes. An inverse relationship of toxicity and lipophilicity has been observed. However this was not observed for HeLa cells, to which EUK8 was more toxic. In addition, and in opposition to the DHR solution study, ascorbate was found to be pro-oxidant. A negative synergic effect was observed between complex doses and irradiation. Treatment of the cells with paraaminosalicylate was beneficial only for non-irradiated cells.

Biomoléculas

Manganês

Neurônio

Redox

Toxicidade

Biomolecules

Manganese

Neurons

Redox

Toxicity