Tailoring the Properties of Supramolecular Gels

Buerkle, Lauren Elizabeth

30 January 2012

No description available.

Biomedical Engineering

Materials Science

Nanoscience

Organic Chemistry

Polymer Chemistry

Polymers

Supramolecular hydrogels

guanosine

gluconamides

tissue engineering scaffolds

Mapeamento global de interações proteicas nas vias de sinalização mediadas por c-di-GMP de Pseudomonas aeruginosa / Construction of a global map of protein-protein interactions in c-di-GMP signalling pathways of Pseudomonas aeruginosa

Cardoso, Andrea Rodrigues

16 March 2016

A persistência bacteriana correlacionada à formação de biofilmes bacterianos é, há algum tempo, fonte de grande preocupação médica em virtude de sua ampla associação com a dificuldade de tratamento de infecções crônicas. Por outro lado, as perspectivas de utilização de biofilmes bacterianos em novas aplicações biotecnológicas e até mesmo para fins terapêuticos são promissoras. Há, portanto, grande interesse em compreender os mecanismos que levam as células bacterianas a deixar o estado planctônico, de vida livre, e associarem-se nesses conglomerados celulares altamente complexos. Ao longo das últimas décadas, o segundo mensageiro c-di-GMP – em conjunto com as moléculas que catalisam sua síntese (diguanilato ciclases) e sua degradação (fosfodiesterases) e seus receptores – estabeleceu-se como um elemento central de regulação de uma série de respostas celulares que determinam a formação ou a dispersão de biofilmes. Curiosamente, as proteínas que participam do metabolismo deste segundo mensageiro estão, frequentemente, codificadas múltiplas vezes em um mesmo genoma bacteriano. Em vista dessa observação, estudos mais recentes apontam que, para reger paralelamente uma variedade tão ampla de fenótipos, este sistema opera em modo de alta especificidade de sinalização e que, portanto, o sinal metabolizado por determinados conjuntos de diguanilato ciclases e fosfodiesterases tem alvos celulares específicos. Evidências robustas, porém isoladas até o momento, apontaram que um dos meios pelo qual ocorre a segregação entre sinal produzido e alvo específico é a interação direta entre as proteínas componentes das vias de sinalização. Mais, demonstrou-se que, em algumas vias, a transmissão de sinal ocorre exclusivamente via interação proteica, dispensando a intermediação do sinalizador em si. Para avaliar a validade e relevância global deste mecanismo, propôs-se, neste estudo, a investigação da rede total de interações entre as proteínas tipicamente associadas às vias de sinalização por c-di-GMP em Pseudomonas aeruginosa, utilizando ensaios de duplo-hibrido bacteriano. Para tanto, foram construídas duas bibliotecas de DNA direcionadas e foram feitos testes de interação de forma estratégica para possibilitar o esgotamento e averiguação de todas as possíveis interações entre as proteínas alvo identificadas. O resultado obtido, um mapa inicial, porém abrangente, da rede de interações proteicas em P. aeruginosa, indica uma grande probabilidade de que os mecanismos previamente descritos sejam realmente recorrentes e relevantes para o intermédio da sinalização nesse organismo. Algumas das interações mais robustas encontradas são bastante interessantes e serão, em estudos futuros, mais extensivamente estudadas. / Persister bacteria are correlated to biofilm formation and have been a source of great medical concern due to its close association with the impairment of traditional treatment in combating chronic infections. On the other hand, using bacterial biofilms to create original biotechnological applications or even as a means of therapeutic treatment in medical settings constitutes a promising prospect. There is, therefore, a great interest in understanding the mechanisms that allow bacteria to leave the free-living planktonic lifestyle and associate in these highly complex cellular aggregates. Over the last decades, the second messenger c-di-GMP – and also the molecules involved in its synthesis (diguanylate ciclases) and degradation (phosphodiesterases) along with its receptors – has been established as a key element implicated in regulation of a series of cellular responses that determine biofilm formation or dispersion. Curiously, the proteins that play a part in the metabolism of this second messenger are frequently coded multiple times in single bacterial genomes. Taking this into account, recent studies indicate that, in order to control such a wide range of phenotypes, this system operates via high specificity of signaling – which means that the signal metabolized by a certain set of diguanylate ciclases and phosphodiesterases has specific cellular targets. Robust but yet isolated evidence indicate that a means by which a signal is segregated with its correlated phenotypic response is through direct protein-protein interaction involving the components of these signaling pathways. Even more, there has been strikingly evidence that, in some of these pathways, signal transduction occurs exclusively through protein-protein interaction, entirely dismissing any mediation by the signal molecule. In order to validate and evaluate the global relevance of this type of mechanism, this study proposed the investigation of the entire network of interactions between proteins typically associated with c-di-GMP signaling pathways of Pseudomonas aeruginosa by employing bacterial two-hybrid system assays. To make that possible, two DNA libraries were constructed and interaction essays were performed in a strategic way so that all possibilities of interaction between target proteins were explored. The results obtained from these experiments allowed the construction of a broad map of interactions that, although still primitive, indicates that, chances are, the mechanisms previously described are both recurrent and relevant to signaling regulation in this organism. Some of the interaction partners found are particularly interesting and will be further investigated in future studies.

Bacterial biofilms

Biofilmes bacterianos

Interação proteica

Protein-protein interactions

Ações da guanosina em ratos wistar fêmeas e machos induzidos a isquemia cerebral

Teixeira, Luciele Varaschini

January 2018

A isquemia cerebral é uma enfermidade grave, de incidência e prevalência global, considerada uma das principais causas de morte e incapacidade no mundo. Ela é decorrente da hipoperfusão ou interrupção sanguínea em uma determinada região encefálica e a falta de oxigênio e glicose leva a falha no metabolismo energético de neurônios e células gliais. A morte destas células libera grande quantidade de glutamato, o principal neurotransmissor excitatório, o que desencadeia a cascata isquêmica, formada por estresse oxidativo, excitotoxicidade e processo inflamatório. Estes insultos causam danos teciduais graves que comprometem, principalmente, o sistema sensorimotor, memória, cognição e as emoções. A guanosina, um derivado da guanina, tem mostrado papel neuroprotetor ao sistema nervoso central, agindo no sistema glutamatérgico. Esses efeitos têm sido demonstrados em ratos machos, mas não em fêmeas, por isso, o objetivo desta tese foi investigar através de testes comportamentais, imunoistoquímico e histológico, a ação da guanosina em ratos Wistar machos e fêmeas induzidos cirurgicamente a um modelo de isquemia focal permanente do córtex cerebral parietal, levando em consideração o ciclo estral das fêmeas imediatamente antes da indução isquêmica. Este trabalho foi aprovado pela Comissão de Ética no Uso de Animais da UFRGS (Nº 29396). Após a verificação do ciclo estral, fêmeas e machos foram anestesiados, posicionados em aparelho estereotáxico e a isquemia focal cortical foi induzida por termocoagulação dos vasos piais. Ao término da cirurgia, os animais foram tratados com solução salina 0,9% ou guanosina 60 mg/kg, ambos por via intraperitoneal, em 4 doses (0, 1, 3 e 6 horas após a indução isquêmica). No teste do cilindro, as fêmeas apresentaram significativamente melhor recuperação sensorimotora a longo prazo comparadas aos machos. No teste do campo aberto, memória de habituação a longo prazo e locomoção em fêmeas foram prejudicadas pela isquemia e os machos não apresentaram prejuízo. No teste do labirinto em cruz elevado não houve diferença significativa entre os grupos. No teste claro/escuro, as fêmeas isquêmicas demonstraram comportamento ansiolítico comparadas aos machos e às fêmeas naïves. A imunoistoquímica de astrócitos e a mensuração do volume de lesão não apresentaram diferença estatística entre os grupos. Com este trabalho demonstrou-se a importância da realização de pesquisas em ambos os gêneros, considerando o ciclo estral, principalmente para enfermidades complexas como a isquemia cerebral. O tratamento com a guanosina é promissor, principalmente na recuperação motora em fêmeas, entretanto, estudos futuros são necessários para melhor compreendimento dos mecanismos envolvidos. / Ischemic stroke is a serious disease of global incidence and prevalence, considered a leading cause of death and disability worldwide. It is due to hypoperfusion or blood disruption in a brain region and the lack of oxygen and glucose leads to failure in energetic metabolism of neurons and glial cells. The death of these cells releases large amount of glutamate, the main excitatory neurotransmitter, which triggers the ischemic cascade, formed by oxidative stress, excitotoxicity and inflammatory processes. These insults cause severe tissue damage that mainly compromise the sensorimotor system, memory, cognition and emotions. Guanosine, a guanine derivative, has shown a neuroprotective role in the central nervous system, acting on the glutamatergic system. These effects have been demonstrated in male rats, but not in females, so the aim of this thesis was to investigate through behavioral, immunohistochemical and histological tests, the action of guanosine in male and female Wistar rats surgically induced to a model of focal permanent cerebral ischemia in the motor cortex, considering the female estrous cycle immediately before the ischemic induction. This work was approved by the UFRGS Ethical Committee on the Use of Animals (No. 29396). After estrous cycle verification, females and males were anesthetized, positioned in a stereotaxic apparatus, and cortical focal ischemia was induced by thermocoagulation of the pial vessels. At the end of the surgery, the animals were treated with 0.9% saline or guanosine 60 mg/kg, both intraperitoneally, in 4 doses (0, 1, 3 and 6 hours after ischemic induction). In the cylinder test, females presented significant long-term sensorimotor recovery compared to males. In the open field test, long-term memory habituation and locomotion/exploratory activity in females were impaired by ischemia and males showed no impairment. In the elevated plus maze test, there was no significant difference between groups. In the light/dark test, the ischemic females showed anxiolytic-like behavior compared to naïve males and females. The immunohistochemistry of astrocytes and the measurement of lesion volume did not show any statistical difference between groups. With this work it was demonstrated the importance of conducting researches in both genders, considering the estrous cycle, mainly for complex diseases such as cerebral ischemia. The treatment with guanosine is promising, especially in motor recovery in females; however, future studies are necessary to better understand the mechanisms involved.

Isquemia encefálica

Guanosina

Ácido glutâmico

Guanina

Ciclo estral

Fatores sexuais

Estresse oxidativo

Memória

Desempenho psicomotor

Ischemic stroke

Guanosine

Motor function

Female

Estrus cycle

A cultura de astrócitos adultos como ferramenta de estudos para compreensão da funcionalidade cerebral

Souza, Débora Guerini de

January 2016

Astrócitos são células gliais com fundamental importância no sistema nervoso central (SNC), tanto em condições fisiológicas quanto patológicas. Estas células são essenciais na plasticidade neural, no metabolismo de neurotransmissores, na defesa antioxidante, na regulação do metabolismo energético, na homeostase iônica, na resposta inflamatória, na manutenção da barreira sangue-cérebro, na migração neuronal e na estabilização da comunicação entre as células. Assim, alterações em funções astrocitárias (como as que ocorrem no envelhecimento) estão relacionadas a importantes alterações na funcionalidade cerebral. Desta forma, esta tese teve por objetivo demonstrar que a cultura de astrócitos derivada de ratos Wistar adultos, desenvolvida e caracterizada pelo nosso grupo de pesquisa, pode ser um modelo de estudo fidedigno e versátil das propriedades celulares astrocitárias. Nossos resultados apontam que esta metodologia pode ser utilizada para elucidar o perfil de aminoácidos e gliotransmissores assim como da atividade enzimática glial e gerenciamento de neurotransmissores. Também demonstramos que a cultura adulta não é derivada de progenitores neurais e que parâmetros mitocondriais observados no cérebro adulto foram reproduzidos in vitro. A análise de respostas a estímulos demonstrou ser variável, dependendo da idade dos animais. Da mesma forma, o uso de culturas de diferentes idades revelou o efeito antienvelhecimento da guanosina, sugerindo sua atividade glioprotetora. Finalmente, demonstramos que culturas preparadas a partir de animais neonatos submetidas a um modelo de senescência in vitro apresentam respostas diferentes das apresentadas por culturas preparadas a partir de animais adultos e/ou envelhecidos, demonstrando que o modelo mais adequado para elucidar propriedades astrocitárias do cérebro maduro é o derivado de animais adultos. Portanto, demonstramos com este estudo a importância da disponibilidade de uma ferramenta como a cultura de astrócitos adultos e elucidamos características bioquímicas, celulares e moleculares desta ferramenta, evidenciando algumas de suas diferenças em comparação à cultura preparada a partir de ratos neonatos. Assim, ampliamos a compreensão das propriedades e funções celulares desta ferramenta, fornecendo respostas mais aproximadas às respostas fornecidas por astrócitos do cérebro maduro in vivo, especialmente no estudo do envelhecimento e das doenças neurodegenerativas. / Astrocytes are glial cells of pivotal importance in the central nervous system (CNS), both in physiological and pathological conditions. Some of their roles include neural plasticity, neurotransmitter metabolism, antioxidant defenses, control of energy metabolism, ionic homeostasis, inflammatory response, formation and maintenance of blood-brain barrier, neuronal migration and cellular communication. Thus, changes in astrocytic function (such as occurs in aging) are related to changes in brain function. The aim of this thesis was to demonstrate that astrocyte cultures from adult Wistar rats (developed and characterized by our research group) might be a reliable and versatile tool for studying astrocytic cellular properties. Our results suggest that this culture model is suitable to study the amino acids content and gliotransmitters, as well as glial enzymatic activity and neurotransmitter management. Next, we showed that the astrocyte cultures are not derived from neural progenitors and tissue mitochondrial parameters were reproduced in in vitro cultures. Responses to stimulus were variable, depending on the animals’ age. Accordingly, guanosine presented an anti-aging effect, indicating its glioprotective activity. Finally, we showed that cultures prepared from newborn rats submitted to an in vitro senescence model presented different responses when compared with mature animals, indicating that our culture model is the most suitable model to represent astrocytic properties in the mature brain. Therefore, this study demonstrates the relevance of this tool to understanding the biochemical, cellular and molecular properties of adult astrocytes, showing some differences related to the culture prepared from newborn animals. Thus, we amplify the comprehension about cellular functions of this tool, providing closer responses related to mature brain in vivo, especially regarding studies about aging and neurodegenerative diseases.

Sistema nervoso central

Astrócitos

Neuroglia

Neuroproteção

Neurotoxicidade

Guanosina

Proteína glial fibrilar ácida

Transmissão sináptica

Adult astrocytes

Glial functionality

Glioprotection

Neurotoxicity

Guanosine

The Complex Formation of Silver Ion With Ribonucleic Acid, Guanosine, Inosine and Related Compounds and Peroxidase-Like Activity of a Haemundecapeptide Prepared From Horse Heart Cytochrome C

Reinosa, José Angel

01 May 1966

The importance of nucleic acids in plant and animal cells as carriers of genetic information and as protein biosynthesis agents is well recognized. It is also known that nucleic acid is a component of all viruses. Takahashi (45) and Fraenkel-Conrat (16) demonstrated that the protein component of tobacco mosaic virus is non-infectious to the host plant, although it is identical to the original virus morphologically. The virus ribonucleic acid (RNA) alone was infectious, however. Deoxyribonucleic acid (DNA), which is present in chromosomes, displays a very specific function. The chromosome long has been accepted as the carrier of the hereditary unit, the gene, whose main component is DNA, which controls the formation of enzymes and of many proteins. Agents that bring about a mutational effect, affect DNA. Some of these agents are ultraviolet light, X-ray radiation and nitrous acid.

complex

formation

silver

ion

ribonucleic

acid

guanosine

inosine

related

compounds

peroxidase

activity

haemundecapeptide

prepared

horse

heart

cytochrome C

cytochrome

Biochemistry

Plant Sciences

Stringent Response In Mycobacteria: Molecular Dissection Of Rel

Jain, Vikas

07 1900

Adaptation to any undesirable change in the environment dictates the survivability of many microorganisms. Such changes generate a quick and suitable response, which guides the physiology of bacteria. Stringent response is one of the mechanisms that can be called a survival strategy under nutritional starvation in bacteria and was first observed in E. coli upon amino acid starvation, when bacteria demonstrated an immediate downshift in the rRNA and tRNA levels (Stent and Brenner 1961). Mutations that rendered bacteria insensitive to amino acid levels were mapped to an ‘RC gene locus’, later termed relA because of the relAxed behavior of the bacteria (Alfoldi et al. 1962). Later on, Cashel and Gallant, showed that two “magic spots” (MSI and MSII) were specifically observed in starved cells when a labeled nucleotide extract of these cells was separated by thin layer chromatography (Cashel and Gallant 1969). These molecules were found to be polyphosphate derivatives of guanosine, ppGpp and pppGpp (Cashel and Kalbacher 1970; Sy and Lipmann 1973), and were shown to be involved in regulating the gene expression in the bacterial cell, demonstrating a global response, thus fine-tuning the physiology of the bacterium. Two proteins in E. coli, RelA and SpoT, carry out the synthesis and hydrolysis of these molecules, respectively, and maintain their levels in the cell (Cashel et al. 1996; Chatterji and Ojha 2001). On the other hand, Gram-positive organisms have only one protein Rel carrying out the functions of both RelA and SpoT (Mechold et al. 1996; Martinez-Costa et al. 1998; Avarbock et al. 1999). Although Rel or RelA/SpoT has been studied from several systems in detail pertaining to the physiological adaptation, less information is available on the egulation of the protein activity under different conditions. Our studies show that the RelMsm is composed of several domains (HD, RSD, TGS and ACT) with distinct function. HD and RSD domains, present in the N-terminal half of the protein, harbor catalytic sites for the hydrolysis and the synthesis of (p)ppGpp, respectively. TGS and ACT domains, on the other hand, are present at the C-erminal half of the protein and have regulatory function. It, therefore, appears that a communication exists between these domains, to regulate protein activity. It was shown earlier, while studying Rel from S.equisimilis, that there exists an interaction between the C-terminal and the N- terminal of the protein which determines the kind of activity (synthesis/hydrolysis), the protein should demonstrate (Mechold et al. 2002). Later, the N-terminal half crystal structure of the same protein suggested an inter-domain “cross-talk” between the HD and the RSD domain that controls the synthesis/hydrolysis switch depending on cellular conditions (Hogg et al. 2004). In the present work, studies have been carried out to understand a Gram- positive Rel in greater detail and to find out how the opposing activities of Rel are regulated so that a futile cycle of synthesis and hydrolysis of (p)ppGpp, at the expense of ATP, can be avoided. The work has been divided into several chapters describing studies on various aspects of the protein. Chapter 1 outlines the history of the stringent response and summarizes the information available about the stringent response in various systems including plants. Several roles that (p)ppGpp plays in different bacteria have been examined. A special mention on the crystal structure of RelSeq has been made with respect to the regulation of activity. Also, the information available regarding the effects of (p)ppGpp on RNA polymerase has been documented. Role of ppGpp in plants has been discussed in great detail with special emphasis on abiotic stresses. Since different functional domains have been identified in RelMsm, the protein has been divided into two halves and they have been discussed separately in the form of two chapters. Chapter 2 describes the N-terminal half of the Rel protein of M. smegmatis in greater detail. Out of the several domains identified, the role of the two domains present in the N-terminal half of the protein has been studied. The N-terminal half shows both synthesis and hydrolysis activities. Importantly, we find that the protein is active even in the absence of accessory factors such as ribosome and uncharged tRNA, unlike RelA of E. coli. Moreover, deletion of the C-terminal half of the protein leads to a much higher synthetic activity, clearly indicating that the C-terminus is involved in regulating the activity of the protein. Both TGS and ACT domains (the two domains found in the C-terminal half of the protein) have been found to play a regulatory role. The results also indicate that all the deleted constructs are active both in vitro and in vivo. Chapter 3 discusses the C-terminal half of the protein and its role in the multimerization observed in RelMsm. We show that multimerization of Rel protein is due to the inter-molecular disulfide cross-linking. Furthermore, we find that the monomer is the active species in vivo. One of the fascinating points about the C- terminal half is that it is largely unstructured. Additionally, the C-terminal half cannot complement the N-terminal part of the protein when provided in trans, demonstrating further, the requirement of an intact protein for bringing about regulation of Rel activity. This requirement in cis suggests the presence of an intra-molecular communication between the N- and the C-termini, as a mediator of protein regulation. Further, presence of uncharged tRNA increases pppGpp synthesis and down-regulates its hydrolysis in the wildtype protein. However, the uncharged tRNA-mediated regulation is absent in the deleted construct with only the N-terminus half, indicating that uncharged tRNA binds to the C-terminal half of the protein. Several cysteine mutants have been constructed to understand their role in the regulation of Rel activity. The results suggest that one cysteine, present at the C-terminus, is required for intra-molecular cross-talk and the uncharged tRNA-mediated regulation. A detailed characterization of the communication between the two halves of the protein has been attempted in Chapter 4. Surface plasmon resonance experiments carried out on the different cysteine mutants discussed in Chapter 3, for uncharged tRNA binding indicate that all the mutants bind to uncharged tRNA with near-equal affinities as the wildtype protein. This study suggests that the non-responsiveness for tRNA seen in one of the cysteine mutants is due to the loss of inter-domain interaction, while the binding of protein to accessory factors is unaffected. Fluorescence resonance energy transfer has been carried out to observe domain movement in the presence of accessory factors. Distances between the different domains scattered in this ~90 kDa protein, measured by FRET technique, are suggestive of an inter-domain cross-talk, specifically between C338 and C692, thereby regulating the activity of this enzyme. We show, for the first time, that the product of this protein, (p)ppGpp can bind to the C-terminal half making it unstructured, and can, therefore, regulate the protein activity. Chapter 5 is an effort to characterize the promoter of rel from M. tuberculosis. This study was undertaken in order to develop an expression system in mycobacteria. The +1 transcription and the translation start sites have been identified. The –10 hexamer for the RNA polymerase binding has also been mapped using site-directed mutagenesis and is found to be TATCCT. This promoter is also unusually close to the +1 transcription start site. The promoter is specific for mycobacteria and does not function in E. coli. Additionally, the promoter is found to be constitutive in M. smegmatis; however, the possibility of it being regulated in M. tuberculosis cannot be ruled out. Appendix section discusses, in short, the phylogenetic analysis of the mycobacterial Rel sequences. Diagrams of the plasmids used in this study have been provided. Mass spectra recorded for the in vitro synthesized and purified pppGpp and the trypsin digest of the full-length Rel protein have also been given. O O O O

Mycobacteria - Genes

Rel

Mycobacteria

Mycobacterial Rel

Guanosine 3,5(bis) Pyrophosphate

ppGpp

Mycobacterium Smegmatis

Bacteria - Physiology

Stringent Response

Mycobacterium Tuberculosis

RelA/SpoT

Bacteriology

Regulation of guanine nucelotide exchange in inhibitory G protein alpha subunit by activator of G protein signaling 3 and novel regulatory peptides

Adhikari, Anirban.

January 2005

Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Vita. Bibliography: References located at the end of each chapter.

A cultura de astrócitos adultos como ferramenta de estudos para compreensão da funcionalidade cerebral

Souza, Débora Guerini de

January 2016

Astrócitos são células gliais com fundamental importância no sistema nervoso central (SNC), tanto em condições fisiológicas quanto patológicas. Estas células são essenciais na plasticidade neural, no metabolismo de neurotransmissores, na defesa antioxidante, na regulação do metabolismo energético, na homeostase iônica, na resposta inflamatória, na manutenção da barreira sangue-cérebro, na migração neuronal e na estabilização da comunicação entre as células. Assim, alterações em funções astrocitárias (como as que ocorrem no envelhecimento) estão relacionadas a importantes alterações na funcionalidade cerebral. Desta forma, esta tese teve por objetivo demonstrar que a cultura de astrócitos derivada de ratos Wistar adultos, desenvolvida e caracterizada pelo nosso grupo de pesquisa, pode ser um modelo de estudo fidedigno e versátil das propriedades celulares astrocitárias. Nossos resultados apontam que esta metodologia pode ser utilizada para elucidar o perfil de aminoácidos e gliotransmissores assim como da atividade enzimática glial e gerenciamento de neurotransmissores. Também demonstramos que a cultura adulta não é derivada de progenitores neurais e que parâmetros mitocondriais observados no cérebro adulto foram reproduzidos in vitro. A análise de respostas a estímulos demonstrou ser variável, dependendo da idade dos animais. Da mesma forma, o uso de culturas de diferentes idades revelou o efeito antienvelhecimento da guanosina, sugerindo sua atividade glioprotetora. Finalmente, demonstramos que culturas preparadas a partir de animais neonatos submetidas a um modelo de senescência in vitro apresentam respostas diferentes das apresentadas por culturas preparadas a partir de animais adultos e/ou envelhecidos, demonstrando que o modelo mais adequado para elucidar propriedades astrocitárias do cérebro maduro é o derivado de animais adultos. Portanto, demonstramos com este estudo a importância da disponibilidade de uma ferramenta como a cultura de astrócitos adultos e elucidamos características bioquímicas, celulares e moleculares desta ferramenta, evidenciando algumas de suas diferenças em comparação à cultura preparada a partir de ratos neonatos. Assim, ampliamos a compreensão das propriedades e funções celulares desta ferramenta, fornecendo respostas mais aproximadas às respostas fornecidas por astrócitos do cérebro maduro in vivo, especialmente no estudo do envelhecimento e das doenças neurodegenerativas. / Astrocytes are glial cells of pivotal importance in the central nervous system (CNS), both in physiological and pathological conditions. Some of their roles include neural plasticity, neurotransmitter metabolism, antioxidant defenses, control of energy metabolism, ionic homeostasis, inflammatory response, formation and maintenance of blood-brain barrier, neuronal migration and cellular communication. Thus, changes in astrocytic function (such as occurs in aging) are related to changes in brain function. The aim of this thesis was to demonstrate that astrocyte cultures from adult Wistar rats (developed and characterized by our research group) might be a reliable and versatile tool for studying astrocytic cellular properties. Our results suggest that this culture model is suitable to study the amino acids content and gliotransmitters, as well as glial enzymatic activity and neurotransmitter management. Next, we showed that the astrocyte cultures are not derived from neural progenitors and tissue mitochondrial parameters were reproduced in in vitro cultures. Responses to stimulus were variable, depending on the animals’ age. Accordingly, guanosine presented an anti-aging effect, indicating its glioprotective activity. Finally, we showed that cultures prepared from newborn rats submitted to an in vitro senescence model presented different responses when compared with mature animals, indicating that our culture model is the most suitable model to represent astrocytic properties in the mature brain. Therefore, this study demonstrates the relevance of this tool to understanding the biochemical, cellular and molecular properties of adult astrocytes, showing some differences related to the culture prepared from newborn animals. Thus, we amplify the comprehension about cellular functions of this tool, providing closer responses related to mature brain in vivo, especially regarding studies about aging and neurodegenerative diseases.

Sistema nervoso central

Astrócitos

Neuroglia

Neuroproteção

Neurotoxicidade

Guanosina

Proteína glial fibrilar ácida

Transmissão sináptica

Adult astrocytes

Glial functionality

Glioprotection

Neurotoxicity

Guanosine

A cultura de astrócitos adultos como ferramenta de estudos para compreensão da funcionalidade cerebral

Souza, Débora Guerini de

January 2016

Astrócitos são células gliais com fundamental importância no sistema nervoso central (SNC), tanto em condições fisiológicas quanto patológicas. Estas células são essenciais na plasticidade neural, no metabolismo de neurotransmissores, na defesa antioxidante, na regulação do metabolismo energético, na homeostase iônica, na resposta inflamatória, na manutenção da barreira sangue-cérebro, na migração neuronal e na estabilização da comunicação entre as células. Assim, alterações em funções astrocitárias (como as que ocorrem no envelhecimento) estão relacionadas a importantes alterações na funcionalidade cerebral. Desta forma, esta tese teve por objetivo demonstrar que a cultura de astrócitos derivada de ratos Wistar adultos, desenvolvida e caracterizada pelo nosso grupo de pesquisa, pode ser um modelo de estudo fidedigno e versátil das propriedades celulares astrocitárias. Nossos resultados apontam que esta metodologia pode ser utilizada para elucidar o perfil de aminoácidos e gliotransmissores assim como da atividade enzimática glial e gerenciamento de neurotransmissores. Também demonstramos que a cultura adulta não é derivada de progenitores neurais e que parâmetros mitocondriais observados no cérebro adulto foram reproduzidos in vitro. A análise de respostas a estímulos demonstrou ser variável, dependendo da idade dos animais. Da mesma forma, o uso de culturas de diferentes idades revelou o efeito antienvelhecimento da guanosina, sugerindo sua atividade glioprotetora. Finalmente, demonstramos que culturas preparadas a partir de animais neonatos submetidas a um modelo de senescência in vitro apresentam respostas diferentes das apresentadas por culturas preparadas a partir de animais adultos e/ou envelhecidos, demonstrando que o modelo mais adequado para elucidar propriedades astrocitárias do cérebro maduro é o derivado de animais adultos. Portanto, demonstramos com este estudo a importância da disponibilidade de uma ferramenta como a cultura de astrócitos adultos e elucidamos características bioquímicas, celulares e moleculares desta ferramenta, evidenciando algumas de suas diferenças em comparação à cultura preparada a partir de ratos neonatos. Assim, ampliamos a compreensão das propriedades e funções celulares desta ferramenta, fornecendo respostas mais aproximadas às respostas fornecidas por astrócitos do cérebro maduro in vivo, especialmente no estudo do envelhecimento e das doenças neurodegenerativas. / Astrocytes are glial cells of pivotal importance in the central nervous system (CNS), both in physiological and pathological conditions. Some of their roles include neural plasticity, neurotransmitter metabolism, antioxidant defenses, control of energy metabolism, ionic homeostasis, inflammatory response, formation and maintenance of blood-brain barrier, neuronal migration and cellular communication. Thus, changes in astrocytic function (such as occurs in aging) are related to changes in brain function. The aim of this thesis was to demonstrate that astrocyte cultures from adult Wistar rats (developed and characterized by our research group) might be a reliable and versatile tool for studying astrocytic cellular properties. Our results suggest that this culture model is suitable to study the amino acids content and gliotransmitters, as well as glial enzymatic activity and neurotransmitter management. Next, we showed that the astrocyte cultures are not derived from neural progenitors and tissue mitochondrial parameters were reproduced in in vitro cultures. Responses to stimulus were variable, depending on the animals’ age. Accordingly, guanosine presented an anti-aging effect, indicating its glioprotective activity. Finally, we showed that cultures prepared from newborn rats submitted to an in vitro senescence model presented different responses when compared with mature animals, indicating that our culture model is the most suitable model to represent astrocytic properties in the mature brain. Therefore, this study demonstrates the relevance of this tool to understanding the biochemical, cellular and molecular properties of adult astrocytes, showing some differences related to the culture prepared from newborn animals. Thus, we amplify the comprehension about cellular functions of this tool, providing closer responses related to mature brain in vivo, especially regarding studies about aging and neurodegenerative diseases.

Sistema nervoso central

Astrócitos

Neuroglia

Neuroproteção

Neurotoxicidade

Guanosina

Proteína glial fibrilar ácida

Transmissão sináptica

Adult astrocytes

Glial functionality

Glioprotection

Neurotoxicity

Guanosine

ASSOCIAÇÃO DO DISSELENETO DE DIFENILA E MODULADORES DO SISTEMA GLUTAMATÉRGICO FRENTE AO DANO OXIDATIVO CAUSADO POR ÁCIDO QUINOLÍNICO / COOPERATION OF NON-EFFECTIVE CONCENTRATION OF GLUTAMATERGIC MODULATORS AND ANTIOXIDANT AGAINST OXIDATIVE STRESS INDUCED BY QUINOLINIC ACID

Dobrachinski, Fernando

22 February 2013

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Excessive formation of reactive oxygen species (ROS) and disruption of glutamate uptake have been hypothesized as key mechanisms contributing to quinolinic acid (QA)- induced toxicity. Thus, here we investigate if the use of diphenyl diselenide (PhSe)2, guanosine (GUO) and MK-801, alone or in combination, could protect rat brain slices from QA-induced toxicity. QA (1 mM) increased ROS formation, thiobarbituric acid reactive substances (TBARS) and decreased cell viability after 2 h of exposure. (PhSe)2 (1 μM) protected against this ROS formation in the cortex and the striatum and also prevented decreases in cell viability induced by QA. (PhSe)2 (5 μM) prevented ROS formation in the hippocampus. GUO (10 and 100 μM) blocked the increase in ROS formation caused by QA and MK-801 (20 and 100 μM) abolished the pro-oxidant effect of QA. When the non effective concentrations were used in combination produced a decrease in ROS formation, mainly (PhSe)2 + GUO and (PhSe)2 + GUO + MK-801. These results demonstrate that this combination could be effective to avoid toxic effects caused by high concentrations of QA. Furthermore, the data obtained in the ROS formation and cellular viability assays suggest different pathways in amelioration of QA toxicity present in the neurodegenerative process. / A formação excessiva de espécies reativas de oxigênio (ROS) e alterações na captação de glutamato têm sido associadas como mecanismos chave que contribuem para toxicidade induzida pelo ácido quinolínico (AQ). Assim, nós investigamos se a utilização do disseleneto de difenila (PhSe)2, guanosina (GUO) e MK-801, isoladamente ou em combinação, podem proteger as fatias de regiões cerebrais de ratos da toxicidade induzida por AQ. AQ (1 mM) aumentou a formação de ROS, substâncias reativas ao ácido tiobarbitúrico (TBARS) e diminuiu a viabilidade celular após 2h de exposição. (PhSe)2 (1 μM) protegeu contra esta formação de ROS no córtex e no estriado e além disso preveniu a diminuição da viabilidade celular induzida pelo AQ. (PhSe)2 (5 μM) preveniu a formação de ROS no hipocampo. GUO (10 e 100 μM) bloqueou o aumento na formação de ROS causada pelo AQ e MK-801 (20 e 100 μM) aboliu o efeito pró-oxidante do AQ. Quando as concentrações não-efetivas foram usadas em combinação produziram uma diminuição na formação de ROS, principalmente (PhSe)2 + GUO e (PhSe)2 + GUO + MK-801. Estes resultados demonstram que esta combinação pode ser eficaz para evitar os efeitos tóxicos provocados por concentrações elevadas do AQ. Além disso, os dados obtidos nos ensaios de formação de ROS e viabilidade celular sugerem diferentes vias de atuação na melhora da toxicidade induzida pelo AQ presente no processo neurodegenerativo.

Composto orgânico de selênio

Guanosina

MK-801

Sistema Glutamatérgico

Ácido Quinolínico

Estresse Oxidativo

Organoselenium compound

Guanosine

MK-801

Glutamatergic system

Quinolinic acid

Oxidative stress

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA