Phosphate starvation alters calcium signalling in roots of Arabidopsis thaliana

Matthus, Elsa

January 2019

Low bioavailability of phosphate (P) due to low concentration and high immobility in soils is a key limiting factor in crop production. Application of excess amounts of P fertilizer is costly and by no means sustainable, as world-wide P resources are finite and running out. To facilitate the breeding of crops adapted to low-input soils, it is essential to understand the consequences of P deficiency. The second messenger calcium (Ca2+) is known to signal in plant development and stress perception, and most recently its direct role in signalling nutrient availability and deficiency has been partially elucidated. The use of Ca2+ as a signal has to be tightly controlled, as Ca2+ easily complexes with P groups and therefore is highly toxic to cellular P metabolism. It is unknown whether Ca2+ signals P availability or whether signalling is altered under P starvation conditions. The aim of this PhD project was to characterise the use of Ca2+ ions, particularly cytosolic free Ca2+ ([Ca2+]cyt), in stress signalling by P-starved roots of the model plant Arabidopsis thaliana. The hypothesis was that under P starvation and a resulting decreased cellular P pool, the use of [Ca2+]cyt may have to be restricted to avoid cytotoxic complexation of Ca2+ with limited P groups. Employing a range of genetically encoded Ca2+ reporters in Arabidopsis, P starvation but not nitrogen starvation was found to strongly dampen the root [Ca2+]cyt increases evoked by mechanical, salt, osmotic, and oxidative stress as well as by extracellular nucleotides. The strongly altered root [Ca2+]cyt response to extracellular nucleotides was shown to manifest itself during seedling development under chronic P deprivation, but could be reversed by P resupply. Fluorescent imaging elucidated that P-starved roots showed a normal [Ca2+]cyt response to extracellular nucleotides at the apex, but a strongly dampened [Ca2+]cyt response in distal parts of the root tip, correlating with high reactive oxygen species (ROS) levels induced by P starvation. Excluding iron, as well as P, rescued the altered [Ca2+]cyt response, and restored ROS levels to those seen under nutrient-replete conditions. P availability was not signalled through [Ca2+]cyt. In another part of this PhD project, a library of 77 putative Ca2+ channel mutants was compiled and screened for aberrant root hair growth under P starvation conditions. No mutant line showed aberrant root hair growth. These results indicate that P starvation strongly affects stress-induced [Ca2+]cyt modulations. The data generated in this thesis further understanding of how plants can integrate nutritional and environmental cues, adding another layer of complexity to the use of Ca2+ as a signal transducer.

Protection du myocarde ischémique et pore géant mitochondrial : applications pharmacologiques / Ischemic myocardial protection and mitochondrial permeability transition pore : pharmacological applications

Assaly, Rana

21 September 2011

La maladie coronaire d’origine ischémique reste l’une des principales causes de mortalité dans le monde industrialisé.Le traitement de l’ischémie aiguë du myocarde est entré dans une nouvelle ère où la mortalité peut être diminuée de moitié en utilisant des procédures qui permettent un retour rapide du débit sanguin dans la zone ischémique du myocarde: la revascularisation.Cette reperfusion entraîne des complications appelées lésions de la reperfusion qui ont été décrites pour la 1ère fois par Jennings et al., en 1960. Le développement de stratégies cardioprotectrices associées à la reperfusion constitue un besoin majeur en clinique afin d’améliorer la fonction myocardique, de diminuer l'incidence des arythmies, de retarder l'apparition de la mort cardiomyocytaire et de limiter la taille de l’infarctus du myocarde lors de l'ischémie/reperfusion (I/R).La découverte de 2 formes principales de mécanismes cardioprotecteurs endogènes, a encouragé la recherche de nouveaux moyens pharmacologiques capables de protéger le myocarde ischémié/reperfusé et a développé nos connaissances sur les bases moléculaires des lésions et de la survie cellulaire au cours des processus d’I/R.L’étude des mécanismes responsables de l’induction de la mort cellulaire a permis de mettre en évidence le rôle joué par la mitochondrie et l’augmentation de la perméabilité de ses membranes, induite par la formation/ouverture d’un pore au niveau des points de contacts entre les membranes mitochondriales;ce pore a été appelé « pore de transition de la perméabilité mitochondriale » (mPTP).L’inhibition de l’ouverture de ce pore apparaît comme une stratégie privilégiée pour protéger le myocarde.Des études ont montré que les espèces réactives d’oxygène (EROs) jouent un rôle majeur dans les lésions de l’I/R et dans l’ouverture du mPTP.Il existe peu d’informations claires sur le seuil et la période de production (ischémie et/ou reperfusion) des EROs qui conduisent à l’ouverture du mPTP.Nous avons mis au point un modèle cellulaire d’hypoxie/réoxygénation (H/R) afin d’établir une relation causale entre la production d’EROs, l’ouverture du mPTP et la mort cellulaire tout en explorant le rôle de différents types d’EROs.Ce modèle d’H/R nous a permis de mesurer en temps réel et simultanément la production des EROs, l’ouverture du mPTP et la mort cellulaire.Nous avons montré que la production des EROs débute pendant la période d’hypoxie et qu’elle est directement liée à l’augmentation du temps d’hypoxie.Cette production d’EROs à l’hypoxie, plus particulièrement de radicaux hydroxyles et de peroxyde d’hydrogène, a été directement relié, à l’ouverture du mPTP et à la mort cellulaire lors de l’H/R.Nous avons utilisé ce modèle pour étudier le mécanisme d’action de deux stratégies pharmacologiques cardioprotectrices, un nouveau ligand de la protéine translocatrice mitochondriale (TSPO), le TRO 40303, et l’activation de la voie RISK par la morphine. Nous avons ainsi montré que (1) les propriétés cardioprotectrices du TRO40303 sont associées à une inhibition de l’ouverture du mPTP, ce qui n’avait pas pu être démontré au moyen d’expériences réalisées ex vivo et (2) l’activation de la voie RISK par la morphine, qui aboutit à une limitation de la taille d’infarctus associée à une amélioration des fonctions respiratoires mitochondriales, entraîne également une inhibition de l’ouverture du mPTP et un retard de la mort cellulaire des cardiomyocytes isolés soumis à une H/R.La suite de ce travail sera de rechercher si l’inhibition du stress oxydant peut constituer un mécanisme commun aux deux stratégies pharmacologiques cardioprotectrices en utilisant notre modèle d’H/R.Il serait possible d’étendre notre modèle à des animaux génétiquement modifiés pour appréhender les phénomènes impliqués dans cette activité antioxydante.A plus long terme, il sera nécessaire d’approfondir nos connaissances sur la production d’EROs pendant l’I/R en recherchant plus spécifiquement l’origine de cette production. / Ischemic coronary artery disease remains one of the main causes of mortality in the industrialized countries. The treatment of acute myocardial ischemia entered a new era where mortality can be reduced by 50% using revascularization procedures that allow a rapid return of blood flow to the ischemic area. However, this reperfusion leads to complications known as lethal reperfusion induced injury that have been described for the first time by Jennings et al., in 1960. It became crucial to develop cardioprotective strategies in combination with early reperfusion in order to improve myocardial function, to reduce the incidence of arrhythmias, to delay the onset of cardiomyocytes death and to limit the extension of infarct size following reperfusion. The discovery of two major forms of endogenous cardioprotective mechanisms, which consist of the realization of short cycles of ischemia/reperfusion (I/R) prior to a long period of ischemia (ischemic preconditioning) or before reperfusion after the long period of ischemia (Ischemic Postconditioning), encouraged the search for new pharmacological tools to protect the ischemic myocardium to develop our knowledge on the molecular mechanisms of lethal reperfusion injury and cell survival in the I/R process.The study of cell death mechanisms has highlighted the crucial role of the mitochondria and more specifically the increase in mitochondrial membrane permeability following I/R.One reason for increasing permeability is the formation/opening of a pore at mitochondrial membranes contact sites at reperfusion.This pore has been called "the mitochondrial permeability transition pore" (mPTP). Inhibition of this pore opening has been presented as a main strategy to protect the myocardium.Many studies have shown that reactive oxygen species (ROS) play a major role in I/R injury and mPTP opening, but there is very few information to date about the threshold and the period of ROS production (ischemia and/or reperfusion) that lead to mPTP opening.We designed a cellular model of hypoxia/reoxygenation (H/R) to establish a causal relationship between ROS production, mPTP opening and cell death while exploring the role of different types of ROS.This H/R model used freshly isolated adult rat cardiomyocytes and allowed us to measure online and simultaneously ROS production, mPTP opening and cell death. We have demonstrated that ROS production starts during the period of hypoxia and thisproduction is directly linked to the increase in the duration of hypoxia.This ROS production during hypoxia has been, for the first time, directly related to mPTP opening and cell death following H/R.We used this model to study the mechanism of action of two cardioprotective strategies, a new ligand of the mitochondrial translocator protein (TSPO), TRO 40303 and a RISK (Reperfusion Injury Salvage Kinase) pathway activator, morphine. We have shown that (1) the cardioprotective properties of TRO40303 were associated with inhibition of mPTP opening, a mechanism that could not be demonstrated using ex vivo experiments and (2) morphine that provoked infarct size limitation associated with an improvement of mitochondrial respiratory functions through RISK pathway activation, also inhibited mPTP opening and delayed cell death of isolated cardiomyocytes subjected to H/R.Finally, a question comes into sight whether the inhibition of oxidative stress may be a common mechanism to both cardioprotective pharmacological strategies that we have described using our H/R model. To do this, it would be possible to extend our model to genetically modified animals specifically adapted to understand the phenomena involved in antioxidant activity.On long-term, it will be necessary to develop our knowledge on ROS production during I/R by looking for the origin of this production, more precisely the role of the mitochondria and the effect of other reactive species in order to target the treatment and to develop new cardioprotective strategies.

Cardiomyocytes adultes

Cardioprotection

Hypoxie/Réoxygénation

Adult cardiomyocytes

Cardioprotection

Cell death

Hypoxia/Reoxygenation

Reactive oxygen species

Atividade dos sistemas antioxidantes da microalga Minutocellus polymorphus frente exposição a cádmio / Activity of antioxidant systems of microalgae Minutocellus Polymorphus when exposed to cadmium

Decleva, Diego Vinicius Lopes

19 September 2012

A produção intracelular e ativação do oxigênio molecular em suas espécies reativas é uma constante ameaça aos organismos fotossintéticos, uma vez que os cloroplastos, juntamente com as mitocôndrias, são compartimentos celulares altamente susceptíveis ao estresse oxidativo. Em condições normais, a geração das EROs nestas organelas é lenta e controlada, embora possa ser exacerbada pela exposição a agentes poluentes, tais como metais e poluentes orgânicos. A contaminação por metais é uma importante fonte de estresse oxidativo em sistemas biológicos, a resistência dos organismos fotossintéticos ao estresse metálico deve-se a adaptações bioquímicas que previnam o desequilíbrio oxidativo. Nesta dissertação investigamos os efeitos dos íons Cd2+ na microalga Minutocelluspolymorphus. A microalga mostrou-se sensível ao Cd2+ devido a um aumento significativo na mortalidade celular quando sob exposição. Através de várias exposições, o valor da IC50 do Cd2+ para a microalga foi de 0,14 mmol.L-1. As respostas dos principais sistemas antioxidantes enzimáticos e não enzimáticos também foram avaliadas. Após 48 horas de exposição a Cd2+, as células apresentaram aumentos de atividade das enzimas SOD, CAT e GST em 3,5, 6,2 e 2 vezes respectivamente. Esta exposição também provocou a redução da atividade da enzima GR em 28 %. Neste sentido, os níveis de GSH também foram alterados, apresentando uma redução de 60 % quando sob exposição ao metal. Contudo, não houve alteração na atividade da enzima GPx. A partir das informações obtidas neste trabalho, conclui-se que Cd2+ é tóxico à M. polymorphus, sendo forte indutor do estresse oxidativo às suas estruturas celulares da microalga, causando alteração em seu perfil antioxidante, podendo ser utilizadas como biomarcadores para exposição de Cd2+ em condições controladas. O presente trabalho contribui, portanto, para uma maior elucidação dos componentes bioquímicos e moleculares de processos adaptativos em microalgas marinhas. / The intracellular production and activation of molecular oxygen to reactive species is a constantly threat to photosynthetic organisms once chloroplasts and mitochondria are cellular compartments highly liable to oxidative stress. In normal conditions the generation of ROS on this organelles is slow and controlled although can be exacerbated by the exposure to pollutants agents as metals and organic pollutants. Contamination by metals is an important source of oxidative stress in biological systems, the resistance of the photosynthetic organisms to this stress due to biochemical adaptations that prevent oxidative imbalance. In this work, we investigated the effects of Cd2+ ions on microalgae Minutocellus polymorphus. The microalge showed sensible to Cd2+ effects due to significant increase on cellular death when exposed. Through several exposures, the value of IC50 was determined as 0.14 mmol.L-1. The responses of major antioxidant systems both enzymatic and non-enzymatic were also evaluated. After 48 hours of exposition to Cd2+, the cells showed increases of antioxidant enzymes SOD, CAT and GST in 3.5, 6.2 and 2 times respectively. This exposure also significantly decreased enzyme GR activity by 28 %. In this way, GSH levels were also changed, with a reduction of 60% when under exposure to metal. However, there was no change in the activity of GPx enzyme. From the information obtained in this work, we conclude that Cd2+ is toxic to M. polymorphus, being strong inducer of oxidative stress to their cellular structures, causing the consequent change in antioxidant profile that can be used as biomarkers that can be used as biomarkers of Cd2+ exposure on controlled conditions. This study therefore contributes to a further elucidation of the biochemical and molecular components of adaptive processes in marine microalgae.

Algae

Algas

Antioxidantes

Antioxidants

Cádmio

Cadmium

Environmental Toxicology

EROs

Espécies reativas de oxigênio

Estresse oxidativo

Oxidative stress

Reactive oxygen species

ROS

Toxicologia ambiental

Interações entre os herbicidas 2,4-D e glifosato: aspectos químicos, bioquímicos e fisiológicos / 2,4-D and glyphosate interactions: chemical, physiological and biochemical aspects

Figueiredo, Marcelo Rodrigues Alves de

13 April 2015

Na literatura existe um consenso que os herbicidas glifosato (Gli) e 2,4-D interagem antagonicamente quando aplicados em combinação. No entanto, as bases bioquímicas e fisiológicas destes antagonismos são desconhecidas. Utilizou-se espectrometria de Ressonância Magnética Nuclear (RMN) para a caracterização de moléculas de Gli e 2,4-D em várias formulações analíticas, preparadas de maneira que os herbicidas fossem obtidos sem os ingredientes inertes das formulações comerciais. Não foram encontradas alterações significativas na conformação atômica do herbicida nos espectros de RMN entre as formulações analíticas de Gli isopropilamina, dimetilamina, potássio ou amônio; 2,4-D Dimetilamina ou colina, quando analisadas separadamente ou em mistura. Avaliando também formulações comerciais dos herbicidas, não foram encontradas diferenças significativas entre os espectros de RMN para a mistura entre Gli e 2,4-D. A formulação comercial de Gli amoníaco apresentou alterações na conformação molecular do Gli, principalmente na região P da molécula que mostrou maior deslocamento químico, mas isso foi atribuído aos maiores teores de Na encontrados nessa formulação. Aplicando-se as diferentes formulações comerciais na espécie modelo de tomate Micro-Tom (MT), foram estudados os padrões de absorção dos herbicidas. A absorção de Gli radiomarcado pelas plantas de MT foi reduzida somente para a formulação Gli sal de amônio, independentemente da presença de 2,4-D. Neste trabalho, não se observou efeito antagônico na absorção entre Gli e 2,4-D. Por meio de um ensaio fatorial para determinar o efeito antagônico dos herbicidas em plantas de MT, observou-se que a dose de maior antagonismo para 2,4-D foi: 35 g i.a. ha-1 - 0,65 mM e para Gli, 70 g g i.a. ha-1 - 1,7 mM. A translocação do Gli radiomarcado foi significativamente reduzida em MT, quando aplicado com 2,4-D. Experimentos utilizando o marcador molecular GUS no gene DR5 do MT, mostraram que o Gli reduz a resposta de expressão gênica pelas vias de sinalização do 2,4-D. Os ensaios de quantificação de espécies reativas de oxigênio (EROs) induzidas pela atuação do 2,4-D, apresentaram menor produção na presença do Gli. O acúmulo de ácido chiquímico causado pelo Gli no MT foi maior quando aplicado sem mistura com 2,4-D. A interferência do 2,4-D na atuação do Gli foi confirmada nos mutantes insensíveis à auxina diageotropica (dgt) e Never ripe (Nr), em que a produção de EROs foi menor e a translocação do Gli foi mantida independente da aplicação com o 2,4-D. O acúmulo de ácido chiquímico na aplicação de Gli e a mistura dos herbicidas, foram semelhantes. O mutante yellow-green2 (yg2), menos sensível ao Gli, apresentou menor translocação do herbicida. O acúmulo de ácido chiquímico para este mutante foi menor quando aplicado com Gli, mas na mistura de Gli + 2,4-D, a quantidade do ácido aumentou. A insensibilidade ao Gli proporcionou o reestabelecimento da produção de EROs pelo 2,4-D na aplicação da mistura dos herbicidas. Neste trabalho, em contraposição ao conhecimento atual, não se observou qualquer efeito antagônico entre Gli e 2,4-D a nível químico, mas o antagonismo ocorreu por fatores da inter-relação dos mecanismos que cada herbicida induz nos níveis fisiológicos, bioquímicos e genéticos na biologia do organismo vegetal. / A consensus exists in literature that the herbicides glyphosate and 2,4-D interact antagonistically when applied in combination. However, the biochemical and physiological basis of this antagonism are unknown. It was used Nuclear Magnetic Resonance (NMR) spectrometry to characterize the molecules of glyphosate and 2,4-D prepared with high purity analytical compounds without the commercial formulations inert ingredients. No changes in atomic herbicide conformation ware found in NMR spectra of glyphosate formulations isopropylamine, dimethylamine, potassium or ammonium and 2,4-D dimethylamine or choline, when evaluated separately or in mixture. Analysing also the commercial herbicides formulations, no differences in NMR spectra for the mixture between glyphosate and 2,4-D ware found in chemical shift. The ammonium salt glyphosate formulations, presented changes in molecular conformation in P region of glyphosate showing higher chemical shift, which was attributed to higher levels of Na found in its composition. It was applied different commercial formulations in tomato cultivar Micro-Tom (MT) to study the pattern of herbicide absorption. The absorption of radiolabeled glyphosate by MT was reduced in the ammonium salt formulation, regardless of the 2,4-D\'s presence. In this work, no antagonistic effect in plant absorption was observed between glyphosate and 2,4-D. Factor assay was conducted using different concentrations of 2,4-D and glyphosate to determine the antagonistic effect on tomato plants. It was observed that the dose of greater antagonism to 2,4-D form 35 g a.i. ha-1 - 0.65 mM and for glyphosate, 70 g a.i. ha-1 - 1.7 mM. Assays using molecular reporter GUS in MT`s DR5 gene, showed that the glyphosate reduces gene expression responses through signalling pathways of the 2,4-D. The absorption of radiolabeled glyphosate was significantly reduced in MT, when it was applied with 2,4-D. In trials that it was quantified production of reactive oxygen species (ROS) on MT induced by 2,4-D performance, lower production were found when 2,4-D ware applied with glyphosate. The shikimic acid accumulation affected by glyphosate action in MT was higher when applied without 2,4-D mixture. The interference of 2,4-D in glyphosate`s actions was confirmed in auxin insensitive mutants diageotropica (dgt) and Never ripe (Nr), which ROS production was lower. In those mutants, glyphosate translocation was maintained regardless 2,4-D application and shikimic acid accumulation between glyphosate treatment and herbicide mixture were similar. The yellow-green2 (yg2) mutant was less sensitive to glyphosate, presenting low translocation to the herbicide. The shikimic acid accumulation for yg2 mutant was lower when applied with glyphosate, but when it was treated with glyphosate + 2,4-D, the amount of acid was increased. The insensitivity of glyphosate provided reestablishment of ROS production by 2,4-D, when the mixture of herbicides were applied. In this paper it was show that, in contrast to current knowledge, there was no antagonistic effect between glyphosate and 2,4-D in chemical level, but the antagonism occurred by factors of the interrelationship of the mechanisms that each herbicide induces in the physiological, biochemical and genetic levels in the biology of the plant organism.

Ácido chiquímico

Antagonism

Antagonismo

Espécies reativas de oxigênio

Formulações

Formulations

Herbicides uptake and translocation

Mistura de tanque

Reactive oxygen species

Shikimic acid

Tank mixture

Restrição calórica e mitocôndrias: papel no envelhecimento de Saccharomyces cerevisiae / Caloric Restriction and Mitochondria: Role in Saccharomyces cerevisiae aging

Oliveira, Graciele Almeida de

10 December 2010

A restrição calórica (RC) é uma intervenção dietética capaz de estender a longevidade de vários organismos. O modelo para RC em Saccharomyces cerevisiae consiste da diminuição da concentração de glicose no meio de cultura e mostra um aumentado tanto do tempo de vida cronológico quanto replicativo. Nosso objetivo foi investigar experimentalmente a ação da RC, focando principalmente nas causas e consequências das modificações de geração de EROs mitocondriais e como estas estão associadas ao processo de envelhecimento. Em um primeiro período de estudos, verificamos quais as fontes mitocondriais de EROs, e comprovamos que uma quantidade significativa se origina de proteínas da matriz mitocondrial, e não da cadeia de transporte de elétrons. Nós estudamos a participação de glicose e de outras fontes de carbono sobre o tempo de vida cronológico em leveduras e mostramos que o aumento da longevidade promovida pela RC está associado à uma mudança de metabolismo fermentativo para respiratório, com participação da via de sinalização de glicose. No estágio realizado no laboratório do Professor Francis Sluse na Université de Liegè, Bélgica, estudamos a ação da RC em leveduras focando nas consequências das modificações no proteoma mitocondrial. Em nosso estudo proteômico, encontramos grandes modificações em proteínas envolvidas com o metabolismo de aminoácidos. Monitoramos a atividade de enzimas relacionadas ao metabolismo de aminoácidos e o tempo de vida cronológico de S. cerevisiae e as mutantes nulas bat2Δ, gdh1Δ, gdh2Δ e gdh3Δ, que codificam a aminotransferase de aminoácidos de cadeia ramificada citosólica, NADP glutamato desidrogenase citosólica, a NAD glutamato desidrogenase mitocondrial, e a NADP glutamato desidrogenase mitocondrial, respectivamente. A atividade da NAD glutamato desidrogenase é aumentada em RC, mas a de NADP glutamato desidrogenase decresce em células controle. Aumentos do tempo de vida cronológico foram observados nas mutantes bat2Δ e gdh1Δ devido a RC, mas nenhuma diferença significativa foi encontrada nas mutantes nulas para Gdh2p e Gdh3p em fase estacionária, indicando que essas proteínas são essenciais para os efeitos benéficos da RC. Nessas células WT crescidas em condições normais e as mutantes nulas apresentam iguais longevidades. Juntos, nossos resultados indicam que o aumento da longevidade em S. cerevisiae promovida pela RC depende da interação entre o sinal de glicose e o metabolismo de aminoácidos. / Calorie restriction (CR) is a dietary intervention capable of extending lifespans in a wide range of organisms. A yeast model of CR has been developed in which limiting the concentration of glucose in growth media of Saccharomyces cerevisiae leads to enhanced chronological and replicative life spans. Our aim was to experimentally investigate the effects of CR, focusing mainly on the causes and consequences of changes in mitochondrial reactive oxygen species (ROS) generation and how these are associated with the aging process. Initially, we looked for sources of mitochondrial ROS, and found that a significant amount of ROS comes from mitochondrial matrix enzymes and not from the electron transport chain. We studied the participation of glucose and other carbon sources in chronological lifespan and show that increased longevity promoted by CR is associated with a metabolism change from fermentation to respiration, with participation of glucose repression pathway. During studies performed in the laboratory of Professor Francis Sluse at the Université de Liège, Belgium, we studied the effect of CR in yeast with focus on the consequences of changes in the mitochondrial proteome. We found large proteomic changes in proteins involved in amino acid metabolism. We monitored the activity of enzymes related to amino acid metabolism and chronological life span of S. cerevisiae null mutants bat2Δ, gdh1Δ, gdh2Δ, and gdh3Δ, which encode for the cytosolic branched-chain amino acid aminotransferase, cytosolic NADP glutamate dehydrogenase, mitochondrial NAD glutamate dehydrogenase and mitochondrial NADP glutamate dehydrogenase, respectively. The activity of NAD glutamate dehydrogenase is increased in CR, but NADP glutamate dehydrogenase decreases in control cells. Increases in chronological life span due to RC were observed in bat2Δ and gdh1Δ mutants, but no significant difference was found in Gdh2p and Gdh3p null mutants in the stationary phase, indicating that these proteins are essential for the beneficial effects of CR. In rich medium, WT cells and null mutants have similar life spans. Together, our results indicate that longevity enhancement by CR in S. cerevisiae depends on the interaction between glucose signals and amino acid metabolism

Amino acid (Metabolism)

Aminoácidos (Metabolismo)

Caloric restriction

Dihydrolipoil dehydrogenase

Diidrolipoil desidrogenase

Espécies reativas de oxigênio

Longevidade

Longevity

Mitochondrial proteome

Proteoma mitocondrial

Reactive oxygen species

Restrição calórica

Saccharomyces

Saccharomyces

Avaliações ultrassonográficas, morfométricas e histológicas testiculares de touros Bos taurus taurus submetidos a insulação escrotal sob o tratamento sistêmico com antioxidante e suplementado com ácidos graxos poli-insaturados / Testicular ultrasound, morphometry and hystology of Bos taurus taurus bulls submitted to testicular warming, systemic antioxidant treatment and polyunsaturated fatty acids supplementation

Rocha, Carolina Camargo

12 April 2013

Vários estudos indicam uma maior susceptibilidade ao estresse térmico de touros europeus quando criados em regiões tropicais, levando a efeitos deletérios à reprodução (e.g., diminuição da qualidade espermática, degeneração testicular). Tal fato pode causar expressivo prejuízo econômico visto que, nestas regiões, a estação de monta é realizada no verão. Um dos principais mecanismos propostos para explicar este efeito seria um aumento do estresse oxidativo. Assim, uma alternativa promissora seria o tratamento com antioxidantes e ácidos graxos poli-insaturados. O presente estudo tem como objetivo: Avaliar os possíveis efeitos benéficos da suplementação oral com ácidos graxos poli-insaturados (com vs. sem) e a ação protetora do tratamento sistêmico com vitamina E (com vs. sem) contra os danos oxidativos causados pelo estresse térmico testicular em touros taurinos insulados através das avaliações ultrassonográfica, morfométrica testicular (i.e, volume, temperatura, consistência, circunferência) e histológica dos testículos. Para isso, foram utilizados 16 touros Bos taurus taurus jovens (em torno de 2 anos de idade) divididos em 4 grupos (fatorial 2x2) com perfil espermático normal. Todos os animais foram submetidos à insulação testicular por um período de 96 horas. Foi realizada a ultrassonografia testicular a cada 13 dias por todo o período e mais dois meses após o período da insulação. Como controles foram avaliados os testículos dos touros antes da insulação. Concomitante à insulação, os animais foram divididos aleatoriamente em 4 lotes que foram submetidos a um arranjo fatorial 2x2, sendo um dos fatores a dieta rica em PUFA (Ácidos graxos poli-insaturados Megalac E®) todo o dia durante dois meses pós insulação. Já o tratamento sistêmico com Vitamina E (Monovin E®) foi realizado através da injeção subcutânea de 5 ml de α-tocoferol a cada 13 dias pós insulação com duração de dois meses pós insulação. Aos animais que não receberam a vitamina E, foi administrado o mesmo volume em placebo (óleo inerte). No final deste período, os animais foram castrados e os testículos utilizados para a histologia. Os resultados foram analisados através do SAS system for Windows e indicaram que tanto a suplementação oral de ácidos graxo poli-insaturados como o tratamento sistêmico com vitamina E, não alteraram as características ultrassonográficas, morfométricas e histológicas testiculares de touros de origem europeia submetidos a insulação testicular. / Several studies indicate an increased susceptibility to the heat stress in European bulls raised under tropical conditions, which leads to deleterious effects on reproduction (e.g., testicular degeneration, impaired sperm quality). This may cause significant economic losses since, in these regions, breeding season usually occurs during summer. The main mechanism proposed to explain such event is the oxidative stress. Therefore, an alternative to overcome this effect would be the treatment with antioxidant combined with a supplementation with poly-unsaturated fatty acids (PUFA). The present study aimed to evaluate the possible beneficial effect of the oral PUFA supplementation combined with a protective antioxidant treatment to overcome the deleterious effects of the heat stress on testicular echogenicity, morphometry (i.e., volume, circumference, consistency) and histology. Towards this aim, 16 young but sexually mature Bos taurus taurus (around 2 years old). All animals were submitted to testicular warming for 96 hours. Simultaneously to the insulation, animals were randomly allocated into 4 groups in a 2x2 fatorial design. One of the factors was a PUFA supplementation (supplemented vs. nonsupplemented; Megalac E®) everyday for two months. The other factor was a systemic treatment with a subcutaneous administration of 5 mL of α-tocopherol (treated vs. non treated) every 13 days for two months. Animal that did not receive the treatment were injected with 5 mL of inert oil. Testicular ultrasound evaluation was performed each 13 days from the beginning until two months after testicular warming. At the end of the period experimental period, animals were castrated and the testicles were submitted to histological evaluation. Data were statistically analyzed using the SAS system for Windows. Results indicated that oral PUFA supplementation combined with the systemic -tocopherol treatment had no influence on testicular echogenicity, morphometry and hystology in European bulls submitted to testicular warming.

Ácidos graxos poli-insaturados

Bulls

Espécies reativas de oxigênio

Estresse térmico

Heat stress

Polyunsaturated fatty acids

Reactive oxygen species

Touros

Vitamin E

Vitamina E

Relação entre estresse oxidativo fotoinduzido e morte celular autofágica / Relationship between photoinduced oxidative stress and autophagic cell death

Santos, Nayra Fernandes

10 April 2014

A Terapia Fotodinâmica (TFD) é uma modalidade terapêutica promissora que tem mostrado resultados clínicos efetivos, a lém de custo benefício favorável ao sistema de saúde. Embora a TFD esteja associada à indução de morte celular por necrose e, ou apoptose, pesquisas recentes comprovam a ativação da autofagia. Visando entender a relação entre a quantidade de espécies reativas de oxigênio (EROs), produzidas após fotoativação dos fotossensibilizadores (FSs), com a indução de morte autofágica, foram utilizados os FSs fenotiazínicos estruturalmente semelhantes, azul de metileno (MB) e 1,9-dimetil azul de metileno (DMMB); as linhagens celulares HeLa e HaCat, como modelos biológicos e LEDs emitindo em 633 nm, como fonte luminosa. Os ensaios de viabilidade em função da dose de luz e da concentração dos FSs verificaram que o aumento de morte celular está diretamente relacionado ao aumento da concentração e ao aumento da dose de luz, para ambos FSs. Verificou-se que nas condições de IC50 a concentração do DMMB (10 nmol/L) é menor que a do MB (2,0 µmol/L) em duas ordens de grandeza, e essa diferença também se reflete no grau de desbalanço oxidativo gerado após fotossensibilização. Foi verificado que para o MB, a elevada geração de EROs está fortemente correlacionada com a perda de viabilidade, enquanto que para o DMMB essa correlação é fraca, uma vez que há perda de sobrevida sem grandes gerações de EROs. No entanto, a diminuição de sobrevida causada pelo DMMB se correlaciona forte e significativamente ao aumento da autofagia, indicando ocorrência de morte celular autofágica tanto em células HaCaT quanto em células HeLa. As análises de dano em organelas indicaram que ambos FSs, após serem fotoativados, causam danos em lisossomas e em mitocôndrias de células HaCaT. E confirmou-se, por ensaio de localização subcelular, que ambos FSs estão nessas organelas. Uma vez que a localização subcelular do FS influencia no mecanismo de morte celular foto desenvolvido, verificou-se que o MB nas mesmas concentrações nanomolares do DMMB não induz autofagia, pois o mesmo encontra-se fotoquimicamente inativo nas mitocôndrias, devido à redução pelas coenzimas presentes nesta organela. O DMMB possui um potencial de redução menor que o MB, o que impede a redução deste FS nas mitocôndrias, e, mesmo em baixas concentrações, o DMMB é capaz de comprometer a integridade de mitocôndrias e lisossomas, e induz ir autofagia como um mecanismo de morte celular. As condições em que o MB não se encontra totalmente reduzido no ambiente celular são em concentrações mais elevadas, nas quais a geração do nível de estresse oxidativo é maior e não se observa resposta autofágica após fotossensibilização. Esses resultados mostram que a eficiência de morte celular causada por TFD não está necessariamente relacionada ao nível de estresse oxidativo gerado, uma vez que o DMMB induziu estresse oxidativo em menor extensão do que MB e, no entanto, induziu morte celular em maior extensão. Confirmou-se o conceito de que, fotossensibilizadores mais eficazes para a TFD devem resultar da melhoria na especificidade das reações de fotossensibilização nos alvos celulares e não apenas em melhoria na eficiência de geração de ERO. / Photodynamic Therapy (PDT) is a promising therapeutic modality that has shown effective clinical outcomes and benefits in terms of costs to the national health system. Although PDT is associated with induction of cell death by necrosis or apoptosis, recent data suggest the activation of autophagy. In order to understand the relationship between reactive oxygen species (ROS), generated after light activation of photosensitizers (PSs), and the autophagic cell death induction, we have used two phenothiazines with similar structure - methylene blue (MB) and 1,9-dimethyl methylene blue (DMMB); HaCaT and HeLa cells were used as biological models and LEDs emitting at 633 nm were used as light source. Cell viability assays as function of light dose and PS concentration showed that the increase in cell death was directly proportional to the PS concentration and light dose, to the both PSs. At IC50 was verified that DMMB concentration (10 nmol/L) is lower than MB concentration (2,0 µmol/L) in two order of magnitude, and this difference is reflected in degree of oxidative stress promoted by photosensitizers . Only for MB the amount of detected ROS is highly correlated with loss of cell viability, while for DMMB this correlation is weak, because there is loss of viability without large generation of ROS. Nevertheless, the viability decreased for DMMB is highly correlated with the increase of autophagy, indicating occurrence of autophagic cell death in both HaCaT cells and in HeLa cells. The analyses of damaged cell organelles indicated that both PSs, after be photoactivated, induce lysosomal and mithochondrial damage in HaCaT cells. And the subcellular localization assay confirmed that DMMB and MB are localized in these organelles. Because the subcellular localization of PSs influences cell death mechanisms, this research identified that MB, in the same nanomolar concentration of DMMB, does not induce autophagy, because it is photochemically inactive in mitochondria due the reducing coenzymes present in this organelle. DMMB has a lower reduction potential than MB, which hinders PS reduction in mitochondria, and possibly generate a mild oxidative stress that compromise the integrity of mitochondria and lysosomes, and justify autophagy induction as a cell death mechanism. The conditions that MB is not fully reduced in the cellular environment are at higher concentrations, in which was detected high level of oxidative stress and autophagic cell death was not observed after photosensitization. These results show that the efficiency of cell death induced by PDT is not necessarily related with oxidative stress level, since the oxidative stress induced by DMMB was lesser than by MB, however, the cell death was greater. This research confirms the concept that more effective photosensitizers for PDT means greater specificity of photosensitization reactions, and not only improvement of the efficiency of ROS generation.

1,9-dimethyl methylene blue

1,9-dimetil azul de metileno

Autofagia

Autophagy

Espécies reativas de oxigênio

PDT

Photodynamic therapy

Reactive oxygen species

Terapia fotodinâmica

TFD

Etude de l’intéraction entre les ros et la voie mtorc1 dans la régulation de la balance énergetique / Study of the interaction between Reactive Oxygen Species (ROS) and the mTORC1 pathway in the hypothalamic regulation of energy balance

Haissaguerre, Magali

15 December 2015

La voie de signalisation mTORC1 hypothalamique (mammalian target of rapamycincomplexe 1) intègre les signaux hormonaux et nutritionnels. La disponibilité des nutrimentsmodule les espèces réactives derivées de l’oxygène (ROS) qui régulent l’activité des neuronesà propiomélanocortine (POMC). La modulation de la prise alimentaire induite par les ROSpourrait impliquer mTORC1.Des souris C57Bl6J et wild-type (WT) ou invalidées pour S6K1 (S6K1-KO), principaleprotéine cible de mTORC1, ou invalidées pour raptor, protéine clé de mTORC1,sélectivement au niveau des neurones anorexigènes POMC (POMC-raptor-KO) ont ététraitées par injections intracérébroventriculaires (ICV) d’H2O2 ou d’honokiol (piégeur deROS), uniques ou combinées avec un inhibiteur de mTOR (rapamycine) ou un activateur demTOR (leptine).L’H2O2 ICV induit une augmentation de l’activité hypothalamique mTORC1, de l’activationneuronale du noyau arqué, de l’expression des ROS dans les neurones POMC, associée à unediminution de la prise alimentaire et du poids. Cet effet anorexigène est diminué chez lessouris S6K1-KO, chez les C57Bl6J après administration de rapamycine, et chez les POMCraptor-KO.L’honokiol ICV bloque l’effet anorexigène de la leptine, suggérant que cet effet soitdépendant des ROS. La leptine ICV entraine une augmentation des ROS dans les neuronesPOMC des souris C57Bl6J et POMC-raptor-WT, mais pas chez les POMC-raptor-KO.Nos résultats montrent que la régulation de la prise alimentaire induite par les ROS nécessiteune voie mTORC1 fonctionnelle et que l’effet anorexigène de la leptine nécessite uneaugmentation de ROS, mTORC1 dépendante, au niveau des neurones POMC. / The mechanistic target of rapamycin complex 1 (mTORC1) pathway is an importanthypothalamic integrator of nutrients and hormones. Nutrient availability also affects thereactive oxygen species (ROS) in propiomelanocortin (POMC) neurons and regulatesneuronal activity. We hypothesize that modulation of mTORC1 activity mediates ROS effectson food intake.To this purpose, C57Bl6J mice or WT mice and their KO littermates either deficient for themTORC1 downstream target S6K1 or for the mTORC1 component raptor specifically inPOMC neurons (POMC-raptor-KO) were treated with an intracerebroventricular (ICV)injection of the ROS producer H2O2 or the ROS scavenger honokiol, alone or in combinationwith the mTOR inhibitor rapamycin or the mTOR activator leptin.ICV H2O2 induced phosphorylation of S6K1 within the hypothalamus, increased expressionof c-fos, a marker of neuronal activity, in the arcuate nucleus and increased ROS in POMCneurons. These effects were associated with a significant decrease in food intake. Theanorexigenic effect of ICV H2O2 was not seen in S6K1-KO mice, in C57Bl6J mice cotreatedwith rapamycin (an mTOR inhibitor) and in POMC-raptor-KO mice.Similarly, ICV honokiol administration combined with a leptin injection blunted theanorexigenic effect of leptin, suggesting that leptin requires ROS formation to reduce FI. ICVadministration of leptin increased ROS in POMC neurons in C57Bl6J and POMC-raptor-WTmice, but not in POMC-raptor-KO mice.Our results demonstrate that ROS modulators require a functional mTORC1 pathway toregulate food intake and that leptin needs an mTORC1-dependent increase in ROS levels inPOMC neurons to decrease food intake.

Hypothalamus

MTORC1

Leptine

Prise alimentaire

Hypothalamus

Reactive Oxygen Species

Mammalian target of rapamycin complex 1

Leptin

Food intake

Multiphotonic study of a new NADPH-derivative compound targeting NO-synthase / Étude d'un nouveau composé à propriété d'absorption multiphotonique dérivé du NADPH ciblant la NO-synthase

Wang, Huan

28 November 2013

Dans cette étude, nous avons développé un composé dérivé du NADPH, nommé Nanoshutter (NS). NS a été conçu pour inhiber l'activité catalytique de la NOS, c'est à dire la synthèse de NO, en occupant la place du NADPH dans le domaine réductase du NOS. La voie de synthèse de NO chez les mammifère correspond à l'oxydation de la L-arginine catalysée par la NOS, qui se produit dans son domaine oxygénase. Basée sur des données de modélisation moléculaire, la structure de NS est composée deux sous-unités: (i) le motif nucléotidique de reconnaissance du NADPH a été retenu, permettant au composé NS un ciblage approprié du site de liaison au NADPH de la NOS, (ii) le motif nicotinamide de NADPH a été remplacé par un groupe stilbène lié à un groupement terminal accepteur d'électrons. De plus, ce fragment est caractérisé par une très bonne section efficace d'absorption à deux photons (130 GM à 840 nm). NS1, le composé prototype de la famille NS, contient un groupe terminal NO2 en tant que groupe accepteur d'électrons. La valeur de Kd (~ 4,2 µM) a été estimée dans des expériences de titrage sous excitation un- ou deux-photons, et suggère une bonne affinité de liaison de NS1 à la NOS. De façon inattendue, NS1 présente une bonne sélectivité, en terme de rendement quantique de fluorescence, pour les isoformes de NOS par rapport à d'autres protéines qui contiennent ou non un site de liaison NADPH. En outre, il a été montré que NS1 inhibait de façon compétitive NOS par rapport au NADPH. Dans les expériences d'imagerie de fluorescence réalisées sur des cellules endothéliales (HUVEC), NS1 a démontré une internalisation rapide et efficace, avec un signal de fluorescence mis en évidence principalement dans la région périnucléaire, accompagné d’un signal plus sporadique à la membrane plasmique. Cette observation est en parfait accord avec la colocalisation de NS1 et eNOS mesurée par immunomarquage, démontrant ainsi que NS1 cible eNOS dans les cellules endothéliales. La vasoconstriction NO-dépendante attendue dans les anneaux aortiques isolés de souris a été montrée, mais uniquement en présence de catalase qui convertit H2O2 en H2O et O2. En revanche, en l'absence de catalase, la vasorelaxation a plutôt été observée. Ce résultat indique que la NOS n’est très certainement pas l’unique cible de NS1 dans le système endothélial, et que d’autres cibles en rapport avec la modulation de ROS (Reactive Oxygen Species) sont impliquées. En accord avec ce résultat, NS1 provoque une réponse biphasique de la production de ROS dans les cellules HUVEC : Une phase d'augmentation est observée aux faibles concentrations de NS1 (en dessous de 2 µM), suivie d'une diminution (inhibition de ROS) pour des concentrations de NS1 plus élevées. En outre, NS1 inhibe la production de O2- dans les macrophages de souris et les productions de H2O2 et de O2- survenant dans des conditions de découplage de nNOS in vitro. Des explications possibles pour interpréter ces données sont: NS1 probablement inhibe la production de ROS, soit produites au niveau de la NADPH oxydase ou (et) au cours du découplage de la NOS. L'origine de la phase d’augmentation reste plus difficile à interpréter, mais pourrait correspondre au ciblage de la glucose-6-phosphate deshydrogénase. Enfin, NS1 exerce un effet anti -angiogénique sur les cellules endothéliales et empêche la prolifération de cellules du mélanome. En conclusion, NS1 rempli l'objectif principal de cibler et inhiber la NOS en ciblant plus particulièrement le domaine réductase - il est aussi caractérisé par des propriétés d’absorption et de fluorescence à deux photons intéressantes permettant des applications in vitro et in vivo. L’ensemble de ces caractéristiques présentent un profil intéressant pour de futures applications d’imagerie en temps réel et non-invasive, avec également un fort potentiel pour des applications cliniques liées aux maladies NO-dépendantes. / In this study, we introduced a NADPH derivative named as Nanoshutter (NS). NS was designed to inhibit the catalytic activity of NOS, i.e. synthesis of NO, by occupying the NADPH site in the reductase domain of NOS. In mammals, NO participates in extensive physiological/pathological processes in the cardiovascular, nervous and immune systems. The pathway of mammal NO synthesis is the oxidation of L-arginine catalyzed by NOS, which occurs in its oxygenase domain. The catalysis requires three co-substrates (L-arginine, NADPH, and O2) and five cofactors groups (FAD, FMN, calmodulin, BH4 and heme). Guided by molecular modeling, the structure of NS contains two conjugated subunits: (i) the nucleotide recognition motif of NADPH was retained in NS, allowing a proper targeting to the NADPH binding site of NOS- (ii) the nicotinamide moiety of NADPH is replaced by a stilbene moiety linked with a terminal electron acceptor group, preventing electron flow from the reductase to the oxygenase domain of NOS. Furthermore, this moiety is characterized by a large two-photon absorption cross-section (130 at 840 nm). NS1, the first compound of the NS family, contains a NO2 terminal group as an electron acceptor group. NS1 displayed distinct fluorescence properties in its free and NOS-bound states. The Kd value (around 4.2 µM) was estimated in titration experiments performed under one- or two-photon excitation conditions, suggesting an effective binding of NS1 to NOS with a good affinity. Surprisingly, in terms of fluorescence quantum yield, NS1 displayed a good selectivity to the NOS isoforms over other proteins which contain or not a NADPH binding site. Furthermore, NS1 was shown to competitively inhibit nNOS in a dose-dependent manner. In fluorescence imaging experiments with endothelial cells (HUVEC), NS1 displayed a rapid and efficient internalization, with highlighted fluorescence signal at the perinucleus region and sporadic signal at the plasma membrane. This observation was in accordance with the colocalization imaging between NS1 and eNOS as shown by immunostaining, showing that NS1 actually targets eNOS in endothelial cells. The expected NO-dependent vasoconstriction in isolated mouse aortic rings was only evidenced in the presence of catalase, which converts H2O2 into H2O and O2. By contrast, in the absence of catalase, a contradictory vasorelaxation was observed. This result indicates that NS1 may target more than NOS in endothelium system, which is (are) likely related to Reactive Oxygen Species (ROS) production. Accordingly, NS1 led to a biphasic response of ROS production in HUVEC cells: An increasing phase occurred at low NS1 concentration (below 2 µM) and followed by a decreasing phase (ROS inhibition) at higher NS1 concentrations. Furthermore, NS1 was shown to inhibit O2- production in mouse macrophages and H2O2 and O2- production in uncoupled nNOS in vitro. Altogether, the possible but not exclusive explanations for current data are: in addition to its inhibition effect on NO production, NS1 probably also inhibits the ROS production either produced by NADPH Oxidase or by electron leakage from uncoupled NOS, or a combination of both. The origin of the increasing phase remains more elusive but could correspond to the targeting of glucose-6-phosphate-dehydrogenase (G6PD). Additionally, NS1 displayed anti-angiogenesis effect on endothelial cells and prevented proliferation of melanoma. In conclusion, NS1 fulfilled the goal as a new NOS inhibitor targeting the reductase domain and displayed a unique two-photon property in vitro and in vivo, these features may provide a promising future for non-invasive real-time imaging, and to potential clinical applications in the NO-dependent diseases.

Dérivé du NADPH

Espèces réactives de l'oxygène (ROS)

Fluorescence biphotonique

Microscopie confocale

Imagerie de fluorescence

NADPH derivative

Reactive Oxygen Species (ROS)

Two-photon fluorescence;

Confocal microscopy

Fluorescence imaging

AvaliaÃÃo in vitro do potencial citotÃxico de derivados arilaminados nor-β-lapachÃnicos: Estudos de mecanismo de aÃÃo. / In vitro evaluation of cytotoxic potential of arylamino-nor-β-lapachone derivatives: studies of mechanisms of action.

Bruno CoÃlho Cavalcanti

09 April 2010

Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico / A busca por novos derivados citotÃxicos da nor-β-lapachona à parte de uma crescente e contÃnua busca por novos compostos ativos. O presente estudo teve como objetivo avaliar o potencial citotÃxico de quatro derivados arilaminos (1-4) da nor-β-lapachona e os provÃveis mecanismos envolvidos na citotoxicidade da nor-β-lapachona e de seus derivados. TrÃs derivados (1, 3 e 4) e seu precursor apresentaram elevado potencial citotÃxico sobre todas as linhagens celulares tumorais humanas utilizadas. Em estudos com cÃlulas nÃo tumorais (CMSP), a nor-β-lapachona nÃo induziu citotoxicidade, porÃm seus derivados apresentaram efeitos antiproliferativos, cuja intensidade variou de moderado a fraco com valores de CI50 iguais a 5,02 ÂM (1), 12,02 ÂM (3) e 10,65 ÂM (4). AlÃm disso, os compostos nÃo apresentaram efeitos hemolÃticos (EC50 > 219,29 ÂM). Tanto a nor-β-lapachona quanto seus derivados (1, 3 e 4) induziram apoptose (via mitocondrial) em cÃlulas HL-60, como observado atravÃs dos ensaios de anÃlises morfolÃgicas e de citometria de fluxo, e distÃrbios sobre a progressÃo do ciclo celular de cÃlulas HL-60, apenas na maior concentraÃÃo (4 ÂM). O tratamento com os compostos induziu a formaÃÃo de EROS, assim como quebras das fitas da molÃcula de DNA em cÃlulas HL-60 (NQO1−) e DU-145 (NQO1+). A co-administraÃÃo de GSH reduziu a sensibilidade celular aos efeitos tÃxicos dos compostos estudados, e o prÃ-tratamento com agentes antioxidantes (NAC e IK) reduziu drasticamente a produÃÃo de radicais livres, o mesmo nÃo ocorrendo com culturas prÃ-tratadas com BH (agente depletor de GSH). PorÃm, o dicumarol (inibidor de NQO1) preveniu a formaÃÃo de EROS e os efeitos genotÃxicos apenas na linhagem DU-145, indicando que esses compostos possam ser metabolizados por outras redutases que nÃo a NQO1. As lesÃes ao DNA de cÃlulas DU-145 promovidas pela nor-β-lapachona e seus derivados (1, 3 e 4) foram, parcialmente, reparadas apÃs um perÃodo de tempo de 24 horas, o que corrobora com a sÃntese nÃo programada de DNA detectada apÃs a exposiÃÃo a esses compostos. AlÃm disso, todos os compostos ativos interferiram sobre os processos de reparo dos danos ao DNA induzidos pelo MMS, o que indica que a interferÃncia sobre esses processos contribui para seus efeitos citotÃxicos. A nor-β-lapachona e seus derivados arilaminos (1, 3 e 4) inibiram a taxa de proliferaÃÃo de cepas de S. cerevisiae defectivas na expressÃo de topoisomerases (Top1Δ, Top3Δ e Top1ΔTop3Δ) de maneira mais pronunciada do que observado na cepa selvagem (BY4741), indicando que a interferÃncia sobre a atividade das topoisomerases influencia, de algum modo, a citotoxicidade desses compostos. Nos estudos de genotoxicidade e mutagenicidade com fibroblastos de pulmÃo de hamster chinÃs (linhagem V79), todos os compostos citotÃxicos promoveram quebras nas fitas de DNA, oxidaÃÃo de bases nitrogenadas e induÃÃo de micronÃcleos, em concentraÃÃo (10 ÂM) muito superior do que as necessÃrias para induzir os mesmos eventos em cÃlulas tumorais. ReforÃando a participaÃÃo de EROS sobre os eventos mutagÃnicos, o prÃ-tratamento com NAC preveniu a formaÃÃo de cÃlulas micronucleadas e reduziu a sensibilidade celular aos efeitos tÃxicos dos compostos estudados. Esses resultados ressaltam as propriedades antitumorais da nor-β-lapachona e seus derivados arilaminos e que eles podem ser considerados como protÃtipos para o desenvolvimento de novos agentes anticÃncer. / The search for new cytotoxic derivatives of nor-β-lapachone is part of a growing and continuous search for new active compounds. The present study aimed to evaluate the cytotoxic potential of four arylamino-nor-β-lapachone derivatives (1-4) and the probable mechanism involved in the cytotoxicity of these compounds. Among the tested derivatives, only three of them (1, 3 and 4) and the precursor molecule elicited a significant antiproliferative effects in all human tumor cell lines used in the study. In experiments with peripheral blood mononuclear cells (PBMC), nor-β-lapachone did not induce cytotoxicity, however its derivatives showed antiproliferative effects whose intensity ranged from moderate to weak, with IC50 values equal to 5.02 ÂM (1), 12.02 ÂM (3) and 10.65 ÂM (4). Moreover, all the compounds showed no hemolytic effects (EC50> 219.29 ÂM). Nor-β-lapachone and its derivatives (1, 3 and 4) induced apoptosis (mitochondrial pathway) in HL-60 cells, based upon morphological and flow cytometric analysis, and interference on HL-60 cell cycle progression, only at the highest concentration (4 ÂM). Compounds exposure induced intracellular ROS generation, as well as DNA strand breaks in HL-60 (NQO1−) and DU-145 (NQO1+) cell lines. The co-administration of GSH reduced the cellular sensibility to the toxic effects of the studied compounds. Unlike cells pre-treated with BH (glutathione depletor agent), cells pre-exposed to antioxidants agents (NAC or KI) showed low production of free radicals. On the other hand, dicoumarol (NQO1 inhibitor) prevented the ROS formation and DNA strand breaks only in DU-145 cells, indicating that these compounds can be metabolized by other reductases than NQO1. The DNA damage induced by nor-β-lapachone and its derivatives (1, 3 and 4) in DU-145 cells were partially repaired after 24 h, which agrees with the data of unscheduled DNA synthesis. In addition, all active compounds interfere with DNA repair processes of DNA damage induced by MMS, indicating that this action contributes to compounds cytotoxic effects. All active compounds inhibited the proliferation rate of S. cerevisiae strains defective in the expression of DNA topoisomerases (Top1Δ, Top3Δ and Top1ΔTop3Δ) more pronounced than that observed in wild type strain (BY4741), suggesting that the interference on topoisomerases activities may contributes to the cytotoxicity of active compounds. Genotoxicity and mutagenicity studies with Chinese hamster lung fibroblast cell line (V79), showed that all cytotoxic compounds promoted DNA strand breaks, DNA bases oxidation and micronucleus formation in a concentration (10 ÂM) far higher than needed to induce the same events in tumor cells. Strengthening the ROS contribution on the mutagenic events, the pre-treatment with NAC prevented the formation of micronucleated cells and reduced the V79 cell sensibility to the cytotoxic effects of the studied compounds. These findings underscore the antitumor properties of nor-β-lapachone and its arylamino derivatives and they can be considered as prototypes for the development of new anticancer agents.

nor-&#946

-lapachona

EspÃcies Reativas de OxigÃnio

Topoisomerases

Genotoxicidade e Mutagenicidade

nor-&#946

-lapachone

Cytotoxicity

Reactive Oxygen Species

Topoisomerases

Genotoxicity and Mutagenicity

FARMACOLOGIA