Efeito da administração crônica a longo prazo de ouabaína sobre a pressão arterial e a reatividade vascular de artérias mesentéricas de resistência de rato: possíveis mecanismos envolvidos. / Time-dependent effect of chronic ouabain administration in rats on blood pressure and vascular reactivity in mesenteric resistance arteries: the possible mechanisms involved.

Wenceslau, Camilla Ferreira

17 December 2007

A ouabaína (OUA) promoveu hipertensão arterial (HA) após 5, 10 e 20 semanas de tratamento e modificou a função vascular de artérias mesentéricas de resistência (AMR). O tratamento por 5 semanas com OUA aumentou o óxido nítrico (NO) e a expressão protéica da isoforma neuronal de óxido nítrico (nNOS), ao passo que diminuiu os prostanóides vasoconstritores. Além disso, reduziu a expressão protéica da Cu-Zn superóxido dismutase (SOD) e aumentou a atividade funcional da Na+K+-ATPase. Já o tratamento por 10 semanas com OUA aumentou NO e prostanóides vasodilatadores, enquanto diminuiu a expressão protéica da nNOS e da COX-2. O tratamento por 20 semanas reduziu o NO e a expressão protéica da nNOS. Porém, aumentou o ânion superóxido, o tromboxano A2 e a expressão protéica de ambas: a SOD e a COX-2. Em conclusão, o tratamento com OUA promoveu HA e alterações funcionais em AMR, sendo estas dependentes do tempo analisado, pois no tratamento durante 5 e 10 semanas estas alterações não contribuem para a manutenção da HA, enquanto que o tratamento durante 20 semanas contribui. / Ouabain treatment (OUA) developed hypertension after 5, 10 and 20 weeks and modified the vascular function in mesenteric resistance arteries (MRA). 5-weeks treatment with OUA increased nitric oxide (NO) and neuronal isoform of nitric oxide (nNOS) protein expression. On the other side, this treatment reduced vasoconstrictors prostanoids. Besides decreased Cu-Zn superoxide dismutase (SOD) protein expression and increased functional activity of Na+K+-ATPase. 10-weeks treatment enhance NO and vasodilators prostanoids but reduced both nNOS and COX-2 protein expression. 20-weeks treatment reduced NO and nNOS protein expression. Nevertheless increased anion superoxide, tromboxan A2 and both SOD and COX-2 protein expression. In conclusion, OUA treatment induced HA and functional alterations in MRA that are time-dependents, because in 5 and 10 weeks of treatment these alterations are not likely to maintenance of HA, but the changes observed in the treatment during 20 weeks contributes.

Artérias mesentéricas de resistência

Endotélio

Endothelium

Hipertensão

Hypertension

Mesenteric resistance arteries

Na+K+-ATPase

Na+K+-ATPase

Ouabain

Ouabaína

Reatividade vascular

Vascular reactivity

Caracterização cinética da (Na+,K+)-ATPase da fração microsomal de tecido branquial do siri Callinectes danae aclimatado a salinidade de 15 o/oo. / Kinetic characterization of the (Na+,K+)-ATPase from the gill microsomal tissue of the swimming crab Callinectes danae acclimated to 15 0/00 salinity.

Masui, Douglas Chodi

19 April 2006

As propriedades bioquímicas da (Na+,K+)-ATPase branquial do siri eurialino Callinectes danae aclimatado à salinidade de 15 o/oo foram estudadas. A análise do gradiente de centrifugação em sacarose revelou a presença de um único pico entre 30-35% de sacarose, com uma boa correlação entre as atividades PNFFase a ATPase totais e (Na+,K+)-ATPase. A atividade residual observada na presença de ouabaína 3 mM sugere a presença de outros sistemas de enzimas atuantes. A eletroforese em condições desnaturantes nos microsomas de brânquias de C. danae em animais recém-coletados em salinidade de 33 o/oo (não aclimatados) e de aclimatados a salinidades de 15 e 33 o/oo por um período de 10 dias mostrou a presença de pequenas diferenças nos padrões eletroforéticos das diferentes amostras. A análise por Western blot mostrou um aumento significativo da proporção relativa da subunidade alfa da (Na+,K+)-ATPase em relação à proteína total na fração microsomal do tecido branquial de animais aclimatados à salinidade de 15 o/oo quando comparados aos animais aclimatados a 33 o/oo. Entretanto, proporções similares de subunidade alfa foram observadas para amostras de animais recém-coletados a salinidade de 33 o/oo e aclimatados a 15 o/oo. A estimulação da atividade (Na+,K+)-ATPase pelo ATP ocorreu através de uma curva de saturação monofásica apresentando interações sítio-sítio (nH=1,2), com V= 298,8 ± 16,7 U/mg, com K0,5 de 174,2 ± 9,8 uM. A estimulação da atividade ATPase da (Na+,K+)-ATPase por íons Mg2+ (V= 299,16 ± 14,06 U/mg; K0,5= 767,31 ± 36,06 uM), íons Na+ (V= 309,0 ± 15,8 U/mg; K0,5= 7,8 ± 0,4 mM), íons K+ (V= 300,6 ± 15,3 U/mg; K0,5= 1,63 ± 0,08 mM) e íons NH4+ (V= 345,1 ± 19,0 U/mg; K0,5= 6,0 ± 0,3 mM) ocorreu através de interações sítio-sítio. A atividade da enzima foi modulada sinergisticamente pelos íons K+ com atividade máxima variando de 300,6 ± 15,3 U/mg para 514,6 ± 26,2 U/mg, na ausência e na presença 50 mM de íons NH4+, respectivamente. Além disso, foi observado um significativo aumento na afinidade aparente da enzima pelo íon K+ da ordem de 10 vezes (diminuiu de 1,6 ± 0,08 mM para 0,157 ± 0,008 mM). Similarmente ao observado para os íons K+, o íon NH4+ estimulou sinergisticamente a atividade da enzima na presença de diferentes concentrações de íons K+. A estimulação da atividade da enzima pelo íon NH4+ também ocorreu através de interações cooperativas entre os sítios. Embora tenha sido observado um aumento da atividade específica da enzima de 345,1 ± 19,0 U/mg para 516,8 ± 27,9 U/mg, não foram observadas variações significativas nos valores de nH e K0,5 com o aumento da concentração de íons K+. A ouabaína inibiu cerca de 90% da atividade ATPase total. A inibição pela ouabaína apresentou valor de KI de 45,09 ± 2,51 uM. O ortovanadato também inibiu atividade (Na+,K+)-ATPase na mesma faixa (90%) através de uma curva de inibição monofásica, com valor de KI da ordem de 1,31 ± 0,06 uM. O emprego de bafilomicina A1, tapsigargina e teofilina, juntamente com a ouabaína, na atividade ATPase total descartam a presença de V-ATPase, Ca2+-ATPase ou fosfatase, respectivamente. Apesar da inibição por oligomicina corresponder a menos de 3,7%, esse valor aparentemente sugere a presença de uma F0F1-ATPase. Além disso, a inibição por ácido etacrínico, em conjunto com os experimentos de estimulação por da atividade ATPase da enzima por íons Na+ sugere fortemente a presença de uma K+-ATPase. A (Na+,K+)-ATPase hidrolisou o substrato PNFF obedecendo à cinética Michaeliana com velocidade de V= 102,9 ± 4,3 U/mg e KM= 1,7 ± 0,1 mM. Já a estimulação da atividade K+-fosfatase da enzima por íons Mg2+ (V= 93,7 ± 2,3 U/mg; K0,5= 1,40 ± 0,03 mM), K+ (V= 94,9 ± 3,5 U/mg; K0,5= 2,9 ± 0,1 mM) e NH4+ (V= 106,2 ± 2,2 U/mg; K0,5= 9,8 ± 0,2 mM) seguiu uma cinética cooperativa, sugerindo a presença de múltiplos sítios de ligação. Entretanto, a atividade K+-fosfatase não foi estimulada sinergísticamente na presença de íons K+ mais NH4+. Os íons sódio (KI= 22,7 ± 1,7 mM) e ortovanadato (KI= 28,1 ± 1,4 nM) inibiram completamente a atividade fosfatase total através de uma única curva de inibição. / The biochemical properties of the (Na+,K+)-ATPase from the gill microsomal tissue of the euryhaline, marine, swimming crab Callinectes danae, acclimated to 15 0/00 salinity, were investigated. Sucrose gradient centrifugation analyses revealed a unique peak, between 30-35% sucrose, coincident with the total PNPPase, ATPase, and (Na+,K+)-ATPase activities. The residual activity observed in the presence of 3 mM ouabain suggests the existence of other enzyme systems. Electrophoresis under denaturing conditions, using material from fresh-caught crabs (33 o/oo salinity, not acclimated), and from crabs acclimated to 15 or 33 o/oo salinity, for 10 days, revealed differences in migration pattern. Western blot analyses showed a significant increase in the amount of (Na+,K+)-ATPase alpha-subunit relative to total protein, for crabs acclimated to 15 o/oo compared to those acclimated to 33 o/oo salinity. However, the proportion of alpha-subunit in samples from fresh-caught crabs acclimated to 33 o/oo and those acclimated to 15 o/oo salinity was similar. (Na+,K+)-ATPase activity was stimulated by ATP and showed a single saturation curve, exhibiting site-site interactions (nH=1.2), with V= 298.8 ± 16.7 U/mg, and K0.5= 174.2 ± 9.8 uM. Stimulation of the ATPase activity by Mg2+ (V= 299.16 ± 14.06 U/mg; K0.5= 767.31 ± 36.06 uM), Na+ (V= 309.0 ± 15.8 U/mg; K0.5= 7.8 ± 0.4 mM), K+ (V= 300.6 ± 15.3 U/mg; K0.5= 1.63 ± 0.08 mM) and NH4+ ions (V= 345.1 ± 19.0 U/mg; K0.5= 6.0 ± 0.3 mM) occurred through site-site interactions. (Na+,K+)-ATPase activity was synergistically modulated by K+ ions, maximum activity varying from 300.6 ± 15.3 U/mg to 514.6 ± 26.2 U/mg, in the absence and presence of 50 mM NH4+ ions, respectively. K+ ions induced a 10-fold increase in enzyme apparent affinity (from 1.6 ± 0.08 mM to 0.157 ± 0.008 mM). As for K+ ions, NH4+ synergistically stimulated enzyme activity in the presence of variable K+ concentrations. The stimulation by NH4+ ions exhibited cooperative, site-site interactions. Although an increase in specific activity from 345.1 ± 19.0 U/mg to 516.8 ± 27.9 U/mg was seen, no significant changes in nH and K0.5 were observed. Ouabain inhibited total ATPase activity by about 90%, showing a KI= 45.09 ± 2.51 uM. Orthovanadate also inhibited the (Na+,K+)-ATPase with a KI of 1.31 ± 0.06 uM. Although the inhibitory effect of oligomycin was minimal (3.7%), this inhibition may suggest F0F1-ATPase activity. The inhibition by ethacrynic acid, in association with Na+ ion stimulation of the ATPase activity, suggests the presence of a K+-ATPase. The (Na+,K+)-ATPase hydrolyzed PNPP (K+-phosphatase activity) obeying Michaelian kinetics, with V= 102.9 ± 4.3 U/mg and KM= 1.7 ± 0.1 mM. The stimulation of K+-phosphatase activity by Mg2+ (V= 93.7 ± 2.3 U/mg; K0.5= 1.4 ± 0.03 mM), K+ (V= 94.9 ± 3.5 U/mg; K0.5= 2.9 ± 0.1 mM), and NH4+ ions (V= 106.2 ± 2.2 U/mg; K0.5= 9.8 ± 0.2 mM) following cooperative kinetics, suggests multiple binding sites. K+-phosphatase activity, however, was not synergistically stimulated by K+ and NH4+. Sodium ions (KI= 22.7 ± 1.7 mM), and orthovanadate (KI= 28.1 ± 1.4 nM) totally inhibited the total phosphatase activity.

(Na+,K+)-ATPase

(Na+,K+)-ATPase

15 o/oo salinity acclimation

Aclimatação a salinidade de 15 o/oo

Callinectes danae

Callinectes danae

Osmoregulation

Osmorregulação

L’homéostasie du cuivre chez la protéobactérie Rubrivivax gelatinosus / Copper homeostasis in the beta-proteobacteria Rubrivivax gelatinosus

Azzouzi, Asma

05 June 2013

L’adaptabilité des cellules aux changements environnementaux repose sur leur capacité à mettre en place des complexes enzymatiques qui régulent leurs différentes voies métaboliques. Ces complexes protéiques nécessitent des cofacteurs (hème et métaux) comme le cuivre. En effet, le cuivre est un oligoélément essentiel pour la survie des organismes vivants, il est notamment présent dans des complexes tels que la cytochrome c oxydase de la chaine respiratoire aérobie. Cependant, l’excès de Cu est aussi néfaste pour la cellule. Il génère du stress oxydatif responsable de divers dommages cellulaires. Il est donc nécessaire aux cellules de contrôler la prise en charge du cuivre afin d’assurer la régulation de sa concentration intracellulaire. Dans ce travail, nous avons étudié le système de tolérance au cuivre chez Rubrivivax gelatinosus. J’ai identifié plusieurs gènes impliqués dans ce système, un de ces gènes code pour un transporteur de cuivre CopA (homologue aux ATP7A/ATP7B de l’homme). Les autres gènes codent pour : un régulateur de ce système sensible aux variations du cuivre CopR et deux protéines solubles (CopI et CopJ) fortement induites dans des conditions d’excès de cuivre. J’ai également montré que malgré l’homologie de séquence entre les pompes à cuivre CopA et CtpA (identifiées auparavant au laboratoire) ; elles remplissent deux rôles physiologiques différents dans la cellule. CopA est vitale pour la tolérance au Cu alors que CtpA a un rôle dans l’insertion du Cu au sein des cuproprotéines. Par ailleurs, j’ai montré qu’en absence de CopA, la toxicité du cuivre est plus importante dans les conditions de croissance en microaérobie ou en photosynthèse anaérobe. En effet, l’excès du Cu affecte la voie de biosynthèse des porphyrines (hèmes et bactériochlorophylles) reflété par l’accumulation d’un intermédiaire de cette voie, la coproporphyrine III. Cette accumulation résulte de l’effet de l’excès du cuivre sur la coproporphyrine III oxydase (HemN) probablement en déstabilisant son cluster [4Fe-4S]. Ces résultats sont soutenus par le fait que l’effet toxique du cuivre sur les tétrapyrolles n’est pas observé à forte aération en raison de la substitution de HemN par une enzyme à centre bimétalliques HemF. Cette dernière tolère et utilise l’oxygène, notre étude suggère qu’elle tolère aussi le cuivre. Les résultats obtenus sur les cibles du cuivre en anaérobie au cours de cette étude ainsi que celle publiés par Macomber (Macomber and Imlay 2009), suggèrent que les métaux ont pu éventuellement jouer un rôle dans l’émergence des enzymes à clusters bimétalliques lors du passage à une atmosphère oxygénique permettant une adaptation à l’augmentation de la toxicité de certains métaux. L’ensemble des résultats obtenus à partir de l’analyse des différents mutants au cours de cette étude sur la tolérance au cuivre chez R. gelatinosus me permet de proposer un modèle d’efflux du cuivre différent de celui d’E. coli. Je propose d’attribuer un rôle crucial aux protéines solubles CopI et CopJ qui fixeraient probablement le cuivre grâce aux nombreux résidus histidines et méthionines. Leurs rôles seraient soit de séquestrer le cuivre au niveau du périplasme, soit de l’oxyder ou encore de l’excréter vers un système d’efflux de la membrane externe afin de le chasser de la cellule. / The ability of Rubrivivax to adapt to its environment (aerobic versus anaerobic) relay on its ability to assemble different complexes involved respiration or photosynthesis pathways. These complexes require cofactors such as heme or chlorophylls, and metals such as magnesium, iron and copper. In particular, copper (Cu) is an essential trace element required for the assembly and the activity of the cytochrome c oxidase in the aerobic respiratory chain. Excess Cu however, is toxic and can originate in various cellular damages. In the absence of a tight control of copper entrance in the cells, bacteria have evolved different efflux systems to control copper concentration within the cytoplasm and the membrane. Very few data are available on the copper homeostasis systems in photosynthetic bacteria. We therefore studied the copper homeostasis system in Rubrivivax gelatinosus to understand how these microorganisms can deal with excess copper. In this work, I have identified several genes involved in copper tolerance. Central to this system, the P1B-type Cu⁺-ATPase CopA plays a major role in copper tolerance and translocates copper from the cytoplasm to the periplasm. The outlet of copper in the periplasm varies depending on the species. Cu can be sequestrated, oxidized or released outside the cells. Here I describe the identification CopI, a periplasmic protein present in many proteobacteria including Pseudomonas and Cupriavidus and show its requirement for copper tolerance in Rubrivivax under both aerobic and anaerobic conditions. Expression of both CopA and CopI is induced under excess copper and is regulated by CopR, a MerR regulator sensitive to changes in copper concentration. Rubrivivax genome encodes two P1B-type Cu⁺-ATPases, CopA and CtpA. My work confirmed that despite the sequence homology between these copper ATPases, they fulifill two different physiological roles in the cell. CopA is vital for tolerance to Cu while CtpA has a role in the insertion of Cu within cuproproteines. Furthermore, I showed that excess copper in the copA⁻ null mutant resulted in a substantial decrease of the cytochrome c oxidase and the photosystem under microaerobic and anaerobic conditions together with the extrusion of coproporphyrin III. Analyses of the mutant indicated that copper targeted the tetrapyrrole biosynthesis pathway at the level of the coproporphyrinogen III oxidase HemN and thereby affects the heme and chlorophyll containing complexes, the oxidase and the photosystem. These results, as well as published work by Macomber (Macomber and Imlay 2009) suggest that Cu target the 4Fe-4S clusters and that this metal may have played a role in the emergence of bimetallic enzymes to replace 4Fe-4S clusters during the appearance of oxygen in the atmosphere.Analyses of CopI expression and the copI⁻ null mutant, demonstrate that CopI is required for copper tolerance, and in the absence of an E. coli Cus-like copper efflux system in R. gelatinosus, my results strongly suggest that CopI is the major copper handling protein within the membrane. Altogether, my results allowed me to draw a comprehensive picture of the copper tolerance system within the purple photosynthetic bacterium Rubrivivax gelatinosus and probably other proteobacteria that possess a homologue of copI gene.

CopA

Cuivre

Homéostasie

Tolérance

ATPase cuivre

Porphyrine

Cluster [4Fe-4S]

Anaérobiose

Toxicité

CopA

Copper

Homeostasis

Tolerance

Copper ATPase

Porphyrin

Cluster [4Fe-4S]

Anerobiosis

Toxicity

ESPERMIDINA DIMINUI A ATIVIDADE DA ENZIMA Na+,K+-ATPase PELA VIA DE SINALIZAÇÃO NMDA/NOS/GMPc/PKG EM HIPOCAMPO DE RATOS / SPERMIDINE INHIBITED Na+,K+-ATPase ACTIVITY ACROSS NMDA/ NOS/cGMP/PKG PATHWAY SIGNALING IN THE HIPPOCAMPUS OF THE RATS

Carvalho, Fabiano Barbosa

02 December 2011

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Spermidine (SPD) is an endogenous polyamine with polycationic structure present in the central nervous system of mammals. SPD regulates biological processes, such as Ca2+ influx by glutamatergic N-methyl-D-aspartate receptor (NMDA receptor), which has been associated with nitric oxide synthase (NOS) and cGMP/PKG pathway activation and a decrease of Na+,K+-ATPase activity in rats cerebral córtex synaptossomes. Decreased Na+,K+-ATPase activity, as well as decreased enzyme expression, directly impairs neurotransmitter signaling with deleterious consequences on learning and memory. The enzyme Na+,K+-ATPase establishes Na+ and K+ gradients across membranes of excitable cells and by this means maintains membrane potential and controls intracellular pH and volume. However, it has not been defined whether SPD modulates Na+,K+-ATPase activity in the hippocampus. In this study we investigated whether SPD alters Na+,K+-ATPase activity in slices of hippocampus from rats, and possible underlying mechanisms. Hippocampal slices and homogenates were incubated with SPD (0.05-10 μM) for 30 minutes. SPD (0.5 and 1 μM) decreased Na+,K+-ATPase activity in slices, but not in homogenates. MK-801 (100 μM), a non-competitive antagonist of NMDA receptor, arcaine (0.5 μM), an antagonist of the polyamine binding site at the NMDA receptor, and L-NAME (100 μM), a nitric oxide synthase inhibitor, prevented the inhibitory effect of SPD (0.5 μM). ODQ (10 μM), a guanylate cyclase inhibitor, and KT5823 (2 μM), a protein kinase G inhibitor, also prevented the inhibitory effect of SPD on Na+,K+-ATPase activity. SPD (0.5 and 1.0 μM) increased NO2 plus NO3 (NOx) levels in slices, MK-801 (100 μM) and arcaine (0.5 μM) prevented the effect of SPD (0.5 μM) on the NOx content. These results suggest that SPD-induced decrease of Na+,K+-ATPase activity involves NMDA/NOS/cGMP/PKG pathway. / A espermidina (SPD) é uma poliamina endógena com estrutura policatiônica presente no sistema nervoso central (SNC) de mamíferos. A SPD regula muitos processos biológicos, como o influxo de cálcio através dos receptores glutamatérgicos N-metil-D-aspartato (NMDA), o qual tem sido associado com a ativação da enzima óxido nítrico sintase (NOS) e da via de sinalização da guanosina mono fosfato cíclica/proteína quinase dependente de GMPc (GMPc/PKG). Sabe-se que uma diminuição da atividade da Na+,K+-ATPase, bem como a sua expressão, prejudica diretamente a sinalização de neurotransmissores, comprometendo tanto aprendizado e a memória. A enzima Na+,K+-ATPase estabelece os gradientes de Na+ e K+ através da membrana de células excitáveis e desta forma mantém o potencial de membrana e contribui para o controle do volume e do pH celular. No entanto, não está bem definido se a SPD modula a atividade da Na+,K+-ATPase no hipocampo de ratos. Neste estudo foi investigado se SPD altera a atividade da Na+,K+-ATPase em fatias de hipocampo de ratos, e o possível mecanismo envolvido neste processo. As fatias e o homogeneizado de hipocampo foram incubados com SPD (0,05-10 M) por 30 minutos. SPD (0,5 e 1 M) diminuíram a atividade da Na+,K+-ATPase em fatias, mas não no homogeneizado de hipocampo. MK-801 (100 μM), um antagonista não competitivo do receptor NMDA, arcaína (0,5 M), um antagonista do sítio de ligação das poliaminas no receptor NMDA, e L-NAME (100 μM), um inibidor da NOS, preveniram o efeito inibitório da SPD (0,5 M). ODQ (10 μM), um inibidor da enzima guanilato ciclase, e KT5823 (2 μM), um inibidor da proteína quinase dependente de GMPc, também preveniram o efeito inibitório da SPD sobre a atividade da Na+,K+-ATPase. SPD (0,5 e 1,0 μM) aumentaram os níveis de NO2 plus NO3 (NOx) nas fatias de hipocampo. MK-801 (100 μM) e arcaína (0,5 μM) preveniram o efeito da SPD (0,5 μM) sobre conteúdo de NOx. Estes resultados sugerem que a diminuição da atividade da Na+,K+-ATPase induzida pela SPD envolve a via de sinalização NMDA/NOS/GMPc/PKG.

Espermidina

Na+,K+-ATPase

Receptor NMDA

Óxido Nítrico

PKG, Hipocampo

Spermidine

Na+,K+-ATPase

NMDA receptor

Nitric oxide

PKG

Hippocampus

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

EFEITO DA ADMINISTRAÇÃO ORAL DE AFLATOXINA B1 NAS CONVULSÕES INDUZIDAS EM RATOS / EFFECT OF ORAL ADMINISTRATION OF AFLATOXIN B1 IN PENTYLENETETRAZOL-INDUCED SEIZURES IN RATS

Trombetta, Francielle

14 August 2014

Aflatoxins are produced by Aspergillus flavus fungi, mainly A. parasiticus and A. nomius. Aflatoxin B1 (AFB1) is the most common and highly toxic mycotoxin, presents carcinogenic, mutagenic and teratogenic effects. This mycotoxin has been detected in cultures of worldwide importance such as maize, groundnuts, beans, rice, wheat, cotton, sorghum, fruit and also in animal feed. AFB1 exerts its effects after its conversion into liver 8,9-epoxide by the action of cytochrome P-450, which reacts with cellular macromolecules, including proteins, RNA and DNA. Furthermore, there is an increase in levels of reactive oxygen species, altered neurobehavioral performance, damage to motor coordination, and decreased protein levels. Studies show that AFB1 alter the levels of neurotransmitters such as norepinephrine, serotonin and dopamine, and it is known that these changes influence the behavior of animals, also inhibits the activity of the enzyme Na+, K+-ATPase. This enzyme in the brain is essential for the maintenance of the electrochemical gradient, maintenance of resting potential and the release and uptake of neurotransmitters. Thus, a decrease in activity Na+, K+-ATPase could cause increased neuronal excitability, facilitating the occurrence of seizures. Thus, the aim of this study was to investigate the influence of AFB1 in facilitating seizures induced by a subconvulsant dose of pentylenetetrazol (PTZ), and evaluate its toxic effects on the brain, by determining the activity of Na+, K+-ATPase and oxidative stress parameters after acute exposure to AFB1 in rats. EEG recording of the animals was performed after acute oral administration of AFB1 (250 mg/kg) followed by a subconvulsant dose of pentylenetetrazol (30 mg/kg, ip). Prior administration of AFB1 to PTZ reduced the latency of myoclonus, did not alter the total amplitude of the brain waves, and concomitant exposure to PTZ reduced the activity total, α1 and α2/α3 of the enzyme Na+, K+-ATPase in the cerebral cortex. In the hippocampus, the AFB1 and PTZ reduced total and α2/α3 activity of the Na+, K+-ATPase. The AFB1 not alter the activity of catalase (CAT), and glutathione-S-transferase (GST) in the cerebral cortex of animals. We conclude that AFB1 exerts neurotoxic effect, facilitating seizures induced by PTZ possibly by inhibiting Na+, K+-ATPase activity. / As aflatoxinas são produzidas principalmente pelos fungos Aspergillus flavus, A. parasiticus e A. nomius. A aflatoxina B1 (AFB1) é a micotoxina mais frequente e altamente tóxica, apresenta efeitos carcinogênicos, mutagênicos e teratogênicos. Esta micotoxina tem sido detectada em culturas de importância em todo o mundo, como milho, amendoim, feijão, arroz, trigo, algodão, sorgo, frutas e também em rações de animais. A AFB1 exerce seus efeitos após sua conversão hepática em 8,9-epóxido, pela ação de enzimas do citocromo P-450, o qual reage com macromoléculas celulares, incluindo proteínas, RNA e DNA. Além disso, há um aumento nos níveis de espécies reativas de oxigênio, alteração do desempenho neurocomportamental, prejuízos à coordenação motora, e diminuição dos níveis proteicos. Estudos revelam que a AFB1 altera os níveis de neurotransmissores como a norepinefrina, serotonina e dopamina, e sabe-se que estas alterações influenciam no comportamento dos animais, como também inibe a atividade da enzima Na+,K+-ATPase, enzima que no cérebro, é essencial para a manutenção do gradiente eletroquímico, manutenção dos potenciais de repouso e liberação e captação de neurotransmissores. Assim, uma diminuição da atividade Na+,K+-ATPase pode ocasionar aumento da excitabilidade neuronal, facilitando a ocorrência de convulsões. Sendo assim, o objetivo deste trabalho foi investigar a influência da AFB1 em facilitar as convulsões induzidas por uma dose subconvulsivante de pentilenotetrazol (PTZ), e avaliar seus efeitos tóxicos sobre o cérebro, através da determinação da atividade da Na+,K+-ATPase e parâmetros de estresse oxidativo após a exposição aguda à AFB1 em ratos. Foi realizado o registro eletroencefalográfico dos animais após a administração oral aguda de AFB1 (250 μg/kg) seguida por uma dose subconvulsivante de pentilenotetrazol (30 mg/kg, i.p.). A administração prévia da AFB1 ao PTZ reduziu a latência das mioclonias, não alterou a amplitude global das ondas cerebrais, e a exposição concomitante ao PTZ reduziu a atividade total, α1 e α2/α3 da enzima Na+,K+-ATPase no córtex cerebral. No hipocampo, a AFB1 e o PTZ reduziram a atividade total e α2/α3 da Na+,K+-ATPase. A AFB1 não alterou a atividade da catalase (CAT) e da glutationa-S-transferase (GST) no córtex cerebral dos animais. Concluímos que a AFB1 exerce efeito neurotóxico, facilitando as convulsões induzidas por PTZ, possivelmente devido à redução da atividade da enzima Na+,K+-ATPase.

Aflatoxina B1

Na+,K+-ATPase

Estresse oxidativo

Neurotoxicidade

Convulsões

Pentilenotetrazol

Aflatoxin B1

Na+,K+-ATPase

Oxidative stress

Neurotoxicity

Seizures

Pentilenetetrazol

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Homéostasie du cuivre dans le chloroplaste : étude comparée de deux transporteurs de la famille des ATPases de type PIB / Copper homeostasis in chloroplasts : comparative study of two transporters belonging to the PIB- type ATPases family

Sautron, Emeline

14 October 2015

Le cuivre est un métal de transition essentiel pour le fonctionnement des organismes vivants. Chez la plante Arabidopsis thaliana, la moitié du contenu en cuivre est localisé dans le chloroplaste. Cet organite, spécifique des cellules végétales, est constitué d'une enveloppe délimitant le stroma, un compartiment aqueux au sein duquel se trouve un système membranaire complexe, les thylacoïdes. Dans les chloroplastes d'Arabidopsis, le cuivre est le cofacteur de deux protéines essentielles : la superoxyde dismutase Cu/Zn, impliquée dans la défense contre des espèces réactives de l'oxygène au niveau du stroma et la plastocyanine, une protéine du lumen des thylacoïdes, impliquée dans la chaine de transfert des électrons photosynthétiques. Des études de génétique inverse ont démontré que le transport du cuivre à la plastocyanine impliquait deux protéines membranaires appartenant à la famille des ATPases-PIB-1 : HMA6, localisée dans l'enveloppe et HMA8, localisée dans la membrane des thylacoïdes. Une étude fonctionnelle in vitro a montré que HMA6 était un transporteur de haute affinité de cuivre monovalent présentant les caractéristiques générales des ATPases-P. Afin de comparer les propriétés enzymatiques de ces deux ATPases-PIB-1 et de mieux comprendre leur rôle respectif dans l'homéostasie du cuivre au sein du chloroplaste, nous avons déterminé in vitro les propriétés enzymatiques de HMA8.La stratégie employée pour la caractérisation de HMA8 a été similaire à celle utilisée pour la caractérisation de HMA6. Dans un premier temps, la sélectivité ionique de HMA8 a été évaluée à l'aide de tests phénotypiques dans la levure Saccharomyces cerevisiae. Les propriétés enzymatiques de HMA8 ont ensuite été déterminées in vitro après expression dans la bactérie Lactoccocus lactis, par des expériences de phosphorylation par l'ATP. Cette analyse a permis de démontrer que HMA8 présentait une plus forte affinité apparente pour le cuivre mais une activité catalytique plus lente que HMA6. L'analyse de modèles tridimensionnels de HMA6 et HMA8 a montré que ces différences pourraient être expliquées par des différences de charges au niveau de la cavité où le métal est libéré et/ou par la nature des partenaires interagissant avec ces ATPases. Ces différences pourraient expliquer les fonctions distinctes de ces deux transporteurs dans le chloroplaste : HMA6 régulerait la concentration en cuivre dans le stroma en interagissant avec différentes protéines cibles (notamment des chaperonnes à cuivre), alors que HMA8 aurait un rôle plus précis pour la distribution du cuivre à la plastocyanine.Pour mieux comprendre le mécanisme de libération du cuivre par HMA6 et HMA8, nous avons effectué une étude fonctionnelle de mutants de la région reliant les deux premières hélices transmembranaires (TMA et TMB). Dans cette étude, nous avons ciblé les cystéines et histidines qui de par leurs propriétés chimiques sont les résidus les plus à même d'interagir avec le métal. Les mutants d'intérêts ont été sélectionnés par criblage phénotypique dans la levure puis exprimés dans la bactérie L. lactis. La caractérisation biochimique in vitro de leurs propriétés enzymatiques a été réalisée par des tests de phosphorylation par l'ATP et le Pi. Cette étude nous a permis d'identifier deux résidus, une cystéine et une histidine, impliqués la libération du cuivre et de proposer un modèle de cheminement du métal dans la partie extracytoplasmique du site de transport de HMA6 / Copper is an essential transition metal for living organisms. In the plant Arabidopsis thaliana, half the copper content is localized in the chloroplast. This organelle specific of plant cells, consists of an envelope delimiting the stroma, an aqueous compartment within which there is a complex membrane system, the thylakoids. In chloroplasts of Arabidopsis, copper is the cofactor of two essential proteins: the superoxide dismutase Cu / Zn, involved in defense against reactive oxygen species in the stroma and plastocyanin, a protein of the thylakoid lumen involved in the chain transfer photosynthetic electron. Reverse genetics studies have demonstrated that copper transport in plastocyanin involved two membrane proteins belonging to the family of ATPases-PIB-1: HMA6, located in the envelope and HMA8, localized in the thylakoid membranes. A functional in vitro study showed that HMA6 was a monovalent high affinity copper transporter showing the general characteristics of P-ATPases. To compare the enzymatic properties of these two ATPases and better understand their respective role in copper homeostasis in the chloroplast, we in vitro determined the enzymatic properties of HMA8.The strategy employed for the characterization of HMA8 was similar to that used for the characterization of HMA6. Initially, the ion selectivity of HMA8 was evaluated using phenotypic tests in the yeast Saccharomyces cerevisiae. The enzymatic properties of HMA8 were then determined in vitro after expression in the bacterium Lactoccocus lactis, by phosphorylation experiments by ATP. This analysis demonstrated that HMA8 had a stronger apparent affinity for copper but a slower catalytic activity than HMA6. The analysis of three-dimensional models of HMA6 and HMA8 showed that these differences could be explained by differences in the electrostatic potential at the cavity where the metal is released and/or by the nature of the partners interacting with these ATPases. These differences might explain the distinct functions of the two carriers in the chloroplast: HMA6 would regulate the copper concentration in the stroma by interacting with various target proteins (including copper chaperone), while HMA8 would have a more specific role for the distribution of copper plastocyanin.To better understand the mechanism of copper release by HMA6 and HMA8, we conducted a functional study of mutants of the region connecting the first two transmembrane helices (TMA and TMB). In this study, we specifically targeted cysteines and histidines because of their chemical properties that make them very strong metal ligands. The mutants of interest were selected by phenotypic screening in yeast and then expressed in the bacterium L. lactis. The in vitro biochemical characterization of their enzymatic properties was carried out by phosphorylation tests by ATP and Pi. This study allowed us to identify two residues, one cysteine and one histidine, involved the release of copper and to propose a metal path model in extracytoplasmic part of the transport site of HMA6

ATPase-P1B

Chloroplaste

Caractérisation biochimique

Homéostasie du cuivre

Structure

Protéine membranaire

P1B-ATPase

Chloroplast

Biochemical characterization

Copper homeostasis

Structure

Membrane protein

570

580

Tratamento precoce crônico com uma dose clinicamente relevante de metilfenidato aumenta os níveis de glutamato no líquido cefalorraquidiano e prejudica a homeostase glutamatérgica em córtex pré-frontal de ratos

Schmitz, Felipe

January 2015

A tentativa de compreender as consequências do tratamento precoce crônico com metilfenidato é muito importante uma vez que este psicoestimulante tem sido amplamente utilizado em crianças de idade pré-escolar. Além disso, pouco se sabe sobre os mecanismos envolvidos nas alterações persistentes no comportamento e no funcionamento neuronal associada à sua utilização. Neste estudo, nós inicialmente investigamos o efeito do tratamento precoce crônico com metilfenidato sobre o perfil de aminoácidos no líquido cefalorraquidiano. Além disso, foram também avaliados a homeostase glutamatérgica, a Na+,K+-ATPase e o equilíbrio redox no córtex pré-frontal de ratos jovens. Ratos Wistar receberam injeções intraperitoneais de metilfenidato (2,0 mg/kg) ou um volume equivalente de solução salina 0,9% (controles), uma vez por dia, do 15º ao 45º dia de vida. Vinte e quatro horas após a última administração de metilfenidato, os animais foram decapitados e o líquido cefalorraquidiano e o córtex pré-frontal foram obtidos e processados conforme o protocolo para cada uma das análises. Os resultados mostraram que o metilfenidato alterou o perfil de aminoácidos no líquido cefalorraquidiano, aumentando os níveis de glutamato. A captação de glutamato foi diminuída pelo tratamento crônico com metilfenidato, mas o conteúdo dos transportadores, GLAST e GLT-1, não foram alterados por esse tratamento. A atividade e o imunoconteúdo das subunidades catalíticas (α1, α2 e α3) da Na+,K+-ATPase foram diminuídos em córtex pré-frontal de ratos submetidos ao metilfenidato. Alterações na expressão gênica das subunidades α1 e α2 da Na+,K+-ATPase também foram observadas. O conteúdo de sulfidrilas, um marcador inversamente correlacionado com dano proteíco, foi diminuído. A atividade da CAT foi aumentada e a razão SOD/CAT foi diminuída em córtex pré-frontal de ratos. Os demais parâmetros avaliados não apresentaram diferenças significativas quando comparado aos controles. Os nossos resultados, tomados em conjunto, sugerem que o tratamento precoce crônico com metilfenidato promove excitotoxicidade devido, pelo menos em parte, à inibição da captação de glutamato provavelmente causada por perturbações na função da Na+,K+-ATPase e/ou pelo dano à proteína observados no córtex pré-frontal. Esses achados podem contribuir, pelo menos em parte, para uma melhor compreensão dos mecanismos envolvidos nas alterações bioquímicas e comportamentais associadas ao uso crônico de metilfenidato durante o desenvolvimento do sistema nervoso central. / Understanding the consequences of chronic treatment with methylphenidate is very important since this psychostimulant is extensively in preschool age children. Additionaly to this, little is known about the mechanisms involved in persistent changes in behavior and neuronal function related with use of methylphenidate. In this study, we initially investigate the effect of chronic treatment with methylphenidate in juvenile rats on the amino acids profile in cerebrospinal fluid, as well as on glutamatergic homeostasis, Na+,K+-ATPase function and redox balance in prefrontal cortex. Wistar rats at early age received intraperitoneal injections of methylphenidate (2.0 mg/kg) or an equivalent volume of 0.9% saline solution (controls), once a day, from the 15th to the 45th day of life. Twenty-four hours after the last administration of methylphenidate, the animals were decapitated and the cerebrospinal fluid and the prefrontal cortex were obtained and processed according to the protocol for each analysis. Our results showed that methylphenidate altered amino acid profile in cerebrospinal fluid, increasing the levels of glutamate. In the prefrontal cortex, methylphenidate administration was able to decrease the glutamate uptake, with no changes in GLAST and GLT-1; and the activity and immunocontent of catalytic subunits (α1, α2 and α3) of Na+,K+-ATPase. We also observe changes in α1 and α2 gene expression of catalytic α subunits of Na+,K+-ATPase, decrease in sulfhydryl content, CAT activity and SOD/CAT ratio in juvenile rat prefrontal cortex treated with methylphenidate. Taken together, our results suggest that chronic treatment with methylphenidate at early age induces excitotoxicity, at least in part, due to inhibition of glutamate uptake probably caused by disturbances in the Na+,K+-ATPase function and/or protein damage observed in the prefrontal cortex. These findings may contribute, at least in part, to a better understanding of mechanisms involved in the biochemical and behavioral changes associated with chronic use of methylphenidate during the development of the central nervous system.

Metilfenidato

ATPase trocadora de sódio-potássio

Glutamato

Homeostase

Córtex cerebral

Juvenile rats

Excitotoxicity glutamatergic

Cerebrospinal fluid

Prefrontal cortex

α subunits of Na+,K+-ATPase

Redox balance

Estudo farmacológico e auto-radiográfico do complexo GABAA/Sítio benzodiazepínico, e ensaios bioquímicos da enzima Na+/K+- Atpase e de receptores glutamatérgicos em regiões encefálicas de ratos susceptíveis e não-susceptíveis às convulsões clônicas induzidas pelo DMCM, um agonista inverso benzodiazepínico / Pharmacologycal and auto-radiographical study of GABAA/benzodiazepine site, and biochemical assays of the Na+/K+-ATPase and of the glutamatergic receptors in rats susceptible and non-susceptible to clonic convulsions induced by DMCM, a benzodiazepine inverse agonist

Contó, Marcos Brandão [UNIFESP]

26 December 2008

Made available in DSpace on 2015-07-22T20:50:10Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-12-26. Added 1 bitstream(s) on 2015-08-11T03:25:54Z : No. of bitstreams: 1 Publico-11764a.pdf: 1760987 bytes, checksum: 26371946d909a5525c0bd6c7cc6d7c33 (MD5). Added 1 bitstream(s) on 2015-08-11T03:25:55Z : No. of bitstreams: 2 Publico-11764a.pdf: 1760987 bytes, checksum: 26371946d909a5525c0bd6c7cc6d7c33 (MD5) Publico-11764b.pdf: 969495 bytes, checksum: d87ae7194b036aaff67581e32d434f64 (MD5) / Objetivo: Verificar se indivíduos susceptíveis e não-susceptíveis às convulsões clônicas induzidas pelo DMCM, um agonista inverso benzodiazepínico, diferem: 1) na sensibilidade ao efeito hipnótico induzido pelo diazepam e por outros moduladores alostéricos positivos do receptor GABAA; 2) na marcação auto-radiográfica com o [3H]- flunitrazepam ao longo do encéfalo; 3) na marcação de [3H]-L-glutamato e do [3H]-MK 801 em membranas de regiões encefálicas; e 4) na atividade da enzima Na+/K+- ATPase, bem como na marcação da [3H]-ouabaína às isoenzimas Na+/K+- ATPase de alta e de baixa afinidade ao radioligante em membranas de regiões encefálicas. Métodos: Ratos Wistar, machos, adultos foram administrados intraperitonealmente duas vezes com uma DC50 de DMCM (com intervalo de uma semana entre as administrações), obtendo-se dois grupos distintos: o grupo susceptível às convulsões (SC), que apresentou convulsões clônicas em ambas as exposições à droga, e o grupo não-susceptível às convulsões (NSC), que não apresentou alterações motoras em ambas as exposições. Após cerca de 25 dias da segunda administração de DMCM, os grupos selecionados foram submetidos aos experimentos com os hipnóticos diazepam, pentobarbital e etanol, nos quais foram registrados o tempo e a latência de sono ou foram sacrificados e seus encéfalos retirados para os seguintes ensaios bioquímicos: 1) auto-radiografia com o [3H]-flunitrazepam; 2) marcação de [3H]-L-glutamato e de [3H]- MK 801 em membranas neuronais; e 3) atividade enzimática da Na+/K+- ATPase e marcação de [3H]-ouabaína em enzimas de alta e baixa afinidade em membranas neuronais. Resultados: O grupo SC apresentou menor tempo de sono induzido pelo diazepam com relação ao grupo NSC, embora não tenham se distinguindo no tempo de sono induzido pelo pentobarbital e pelo etanol. Com relação aos experimentos bioquímicos, observou-se uma menor marcação de [3H]-flunitrazepam na região CA2 ventral do hipocampo no grupo SC. Quanto à ligação de [3H]-L-glutamato foi menor no grupo SC nas regiões do córtex frontal, amígdala + córtex límbico e hipocampo, enquanto que a ligação de [3H]-MK 801 foi menor no córtex frontal, hipocampo e estriado. Embora os grupos não tenham se diferenciado na atividade enzimática da Na+/K+- ATPase, o grupo SC apresentou uma menor marcação da [3H]-ouabaína em isoenzimas de alta afinidade nas regiões do tronco encefálico, córtex frontal e hipocampo, bem como uma menor marcação de [3H]-ouabaína nas regiões do tronco encefálico e córtex frontal em isoenzimas de baixa afinidade. Conclusão: As diferenças entre os grupos quanto à sensibilidade ao efeito convulsivante do DMCM, à ansiedade observada em experimentos anteriores, bem como à sensibilidade ao efeito hipnótico do diazepam podem estar associadas a uma diferença nos sítios benzodiazepínicos da região CA2 ventral do hipocampo, na ix atividade glutamatérgica e em isoformas específicas da Na+/K+- ATPase em determinadas regiões encefálicas. / Objective: The aim of this work was to verify if rats susceptible and non-susceptible to clonic convulsions induced by DMCM, a benzodiazepine inverse agonist, differ: 1) in the sensitivity to the hypnotic effect induced by diazepam and by others positive allosteric modulators of GABAA receptors; 2) in auto-radiographical analysis of [3H]-flunitrazepam binding along the brain; 3) in the binding of [3H]-L-glutamate and of [3H]-MK 801 in membranes from discrete brain regions; and 4) in the Na+/K+-ATPase activity, as well as in the binding of [3H]-ouabain to Na+/K+-ATPase isoenzimes with high and low affinity to the radioligand in membranes from discrete brain regions. Methods: Adult, male, Wistar rats were administered with two intraperitoneal injections of a convulsant dose 50% (CD50) of DMCM (one-week interval between them), resulting in two distinct groups: the group susceptible to clonic convulsions (SC), which presented clonic convulsions in both the expositions to the drug, and the group nonsusceptible to clonic convulsions (NSC), which did not present any motor disturbance in both the expositions. After 25 days from the second exposition to DMCM, the selected groups were submitted to the experiments with the hypnotics diazepam, pentobarbital and ethanol, in which were registered the latency and the time of sleep or they were sacrified and their brains were removed to carry out the following assays: 1) autoradiography with [3H]-flunitrazepam; 2) binding with the [3H]-L-glutamate and with the [3H]-MK 801 in neuronal membranes; 3) enzymatic activity of Na+/K+-ATPase and binding of [3H]-ouabain to the isoenzimes with high and low affinity in neuronal membranes. Results: The SC group presented a lower sleeping time induced by diazepam compared to the NSC group, and did not differ in the sleeping time induced by pentobarbital and ethanol. Concearning the biochemical experiments, it was observed a lower binding of [3H]-flunitrazepam in the CA2 subregion of ventral hippocampus in the SC group. A lower binding of [3H]-L-glutamate was also observed in the SC group in the frontal cortex, amygdala plus limbic cortex and hippocampus, whereas the binding of [3H]-MK 801 was lower in the frontal cortex, hippocampus and striatum compared to the NSC group. Althougt the groups did not differ in the enzymatic activity of Na+/K+- ATPase, the SC group presented a lower binding of [3H]-ouabain to the high-affinity isoenzimes in the brainstem, frontal cortex and hippocampus, as well as a lower binding of [3H]-ouabain to the low-affinity isoenzimes in the brainstem and in the frontal cortex compared to the NSC group. Conclusion: The differences between the groups concerning the sensitivity to the convulsant effect of DMCM, the level of anxiety previously observed, as well as the sensitivity to the hypnotic effect of diazepam may be associated with the GABAA/benzodiazepine site in CA2 subregion of ventral hippocampus, with glutamatergic activity and with specific isoforms of Na+/K+-ATPase in rat brain regions. / TEDE / BV UNIFESP: Teses e dissertações

Autoradiografia [3H]-Flunitrazepam

Na+/K+-ATPase

Receptores glutamatérgicos

Convulsão clônica

Clonic convulsions

Glutamatergic receptors

Na+/K+-ATPase

Autoradiography

Allosteric GABAA receptor modulators

Contrôle Epigénétique du Stress du Réticulum Endoplasmique : un nouveau rôle pour p97/VCP dans la regulation de l’homéostasie protéique / Epigenetic control of ER stress-mediated cellular reprogramming : role of the AAA+ ATPase p97/VCP

Barroso, Kim

01 December 2016

La protéine p97/VCP est un membre de la famille des ATPase AAA+ et joue un rôle majeur dans de nombreux processus cellulaires tel que le contrôle de l’homéostasie protéique ou de fonctions associées à la chromatine (transcription, réplication, dommage à l’ADN, progression du cycle cellulaire). De plus, la protéine p97/VCP est impliquée dans un nombre croissant de maladies dont les cancers où il a été montré qu’elle contribue à l’homéostasie protéique et l’adaptation au stress oncogéniques. En effet, l’expression de la protéine p97/VCP est augmentée dans de nombreux cancers et dans certains cas corrèle avec une récurrence de la tumeur et un mauvais pronostique pour les patients. Cependant, le mécanisme moléculaire précis par lequel la protéine p97/VCP régule l’homéostasie protéique des cellules tumorales reste incertain. Pour remédier à cela, nous avons démontré un rôle de la protéine p97/VCP dans le contrôle de l’expression des gènes lors du stress du Réticulum Endoplasmique (RE). Nous avons trouvé que en conditions basales, la protéine RuvBL2 fait partie d’un complexe remodeleur de la chromatine qui contient les protéines HDAC1 et mSin3A et agit comme un répresseur des gènes de stress du RE. De plus, nous avons identifié le gène Gli1, un effecteur connu de la voie de signalisation Hedgehog comme cible de la protéine p97/VCP et du complexe RuvBL2-HDAC1-mSin3A. Ainsi en condition de stress du RE, la voie de signalisation Hedgehog qui a été impliqué dans le développement de cancers est activée. Globalement, nos travaux indiquent que p97/VCP agit comme un interrupteur moléculaire pour inactiver le complexe répresseur RuvBL2-HDAC1 en condition de stress du RE et ainsi activer les gènes de stress du RE et de la voie de signalisation Hedhehog de façon non-canonique. / P97/VCP is a member of the AAA+ ATPase family that plays major roles in various cellular processes including control of protein homeostasis and chromatin-associated functions (transcription, replication, DNA damage, cellular cycle progression). Moreover, p97/VCP is involved in a growing number of diseases including cancers in which it has been shown to contribute to protein homeostasis and adaptation to oncogenic stresses. Indeed, p97/VCP expression is increased in numerous cancers and in some cases correlates with tumor recurrence and poor prognosis for patients. However, the precise mechanism by which p97/VCP regulates tumor cell proteostasis remains unclear. To address this, we demonstrated a role of p97/VCP in gene expression control upon endoplasmic reticulum (ER) stress. We found that in basal conditions, RuvBL2 is part of chromatin remodeler complex that included HDAC1 and mSin3A and act as a repressor of ER stress genes. However under ER stress, ubiquitinylated RuvBL2 is degraded by p97/VCP thus causing activation of ER stress genes. Moreover, we have identified GLI1, a known effector of Hedgehog signaling, as a target of the p97/VCP and RuvBL2-HDAC1-mSin3A complex. As a result under ER stress conditions, the Hedgehog pathway which have been linked to cancer development is non-canonically activated. Overall, our work indicated that p97/VCP acts as a molecular switch to inactivate RuvBL2-HDAC1 repressor complex under ER stress thus activating ER stress genes and Hedgehog genes in a non-canonical manner.

AAA+ ATPase

P97/VCP

Stress du Réticulum Endoplasmique

Homeostasie Protéique

Contrôle de l’expression des genes

AAA+ ATPase

P97/VCP

Endoplasmic Reticulum Stress

Proteasis

Gene expression control

ESTUDO DA TOXICOLOGIA E DA FARMACOLOGIA DO 2-FENILETINILBUTIL-TELÚRIO EM ROEDORES / STUDY OF TOXICOLOGY AND PHARMACOLOGY OF 2-PHENYLETHYNYL BUTYLTELLURIUM IN RODENT

Quines, Caroline Brandão

05 August 2013

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The organotellurium compounds have been the subject of research due to their pharmacological and toxicological properties. It is believed that the main mechanism involved in the toxicity of these compounds is the ability to interact with sulfhydryl groups from molecules biologically active. Beyond the toxicological effects, some pharmacological properties have been attributed to organotellurium compounds. This study aimed to investigate the potential toxicological and pharmacologic of 2-phenylethynyl-butyltellurium (PEBT) through experiments in vitro and in vivo in rodents. To evaluate the toxicological effect the PEBT was used at different concentrations in the oxidation of mono and dithiols and analysis of enzyme Na+K+ -ATPase and lactate dehydrogenase in vitro. Furthermore, lethality studies were performed to calculate the LC50 LD50 of this compound and for better understanding their toxicity. To evaluate the pharmacological effect the PEBT was used at a dose of 1mg/kg 30 minutes before the behavioral experiments, evaluation of locomotor activity, forced swim test (FST) and the tail suspension test (TST), immediately after testing the cerebral cortex was removed for analysis of monoamine oxidase (MAO) enzyme. The results showed that the PEBT oxidized thiols of low molecular weight and inhibits the activity of the enzyme Na+K+ - ATPase by oxidation of sulfhydryl groups, and such oxidation is dependent on the tellurium atom in the structure of this compound. Moreover, the acute administration of PEBT showed an antidepressant-like effect on TNF in mice, as well inhibits the activity of MAO-A enzyme in the cerebral cortex, demonstrating the involvement of this enzyme in its antidepressant-like effect. / Os compostos orgânicos de telúrio têm despertado o interesse dos pesquisadores, devido as suas propriedades farmacológicas e toxicológicas. Acredita-se que o principal mecanismo envolvido na toxicidade desses compostos, seja a capacidade de interagir com os grupamentos sulfidrílicos de moléculas biologicamente ativas. Além dos efeitos toxicológicos, propriedades farmacológicas vêm sendo atribuídas aos compostos orgânicos de telúrio. Esse estudo teve como objetivo investigar o potencial toxicológico e farmacológico do 2- feniletinilbutil-telúrio (PEBT), através de experimentos in vitro e in vivo em roedores. Para a avaliação toxicológica, o PEBT foi utilizado em diferentes concentrações na oxidação de mono e ditiois e na determinação da atividade das enzimas Na+K+ -ATPase e lactato desidrogenase, in vitro. Ainda nesse sentido estudos de letalidade foram realizados para calcular a CL50 e DL50 desse composto para melhor compreender a sua toxicidade. Para a avaliação farmacológica, o PEBT foi administrado em camundongos, na dose de 1 mg/kg 30 minutos antes dos experimentos comportamentais, avaliação da atividade locomotora, teste do nado forçado (TNF) e teste de suspensão da cauda (TSC). Após os testes comportamentais, os animais foram mortos e o córtex cerebral foi retirado para determinação da atividade da enzima monoamina oxidase (MAO). Os resultados mostraram que o PEBT oxida tióis de baixo peso molecular e inibe a atividade da enzima Na+K+ -ATPase, pela oxidação de seus grupamentos sulfidrilicos, sendo essa oxidação depende da presença do átomo de telúrio na estrutura do composto. Além disso, a administração aguda do PEBT produz um efeito do tipo antidepressivo no TNF em camundongos, bem como inibe a atividade da enzima MAO-A em córtex cerebral, demonstrando o envolvimento dessa enzima no seu efeito do tipo antidepressivo.

Telúrio

Enzimas sulfidrílicas

Oxidação de mono e ditiois

Na+K+ -ATPase

Monoamino oxidase

Ratos

Tellurium

Sulfhydryl enzymes

Oxidation of mono-and dithiols

Na+K+ -ATPase

Monoamine oxidase

Rats

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA