Neurotoxidade Neonatal do Metilmalonato é suficiente para iniciar déficit de memória em camundongos: envolvimento de marcadores inflamatórios e apoptóticos / Neonatal Nerurotoxicity of Methylmalonate is Sufficient to Trigger Memory Deficit in mice: Involvement of Inflammatory and Apoptotic Markers

Gabbi, Patricia

28 June 2014

The methylmalonic acidemia is an inborn error of metabolism (IEM) characterized by methylmalonic acid (MMA) accumulation in body fluids and tissues, causing neurological dysfunction, mitochondrial failure, oxidative stress and neuroinflammation. Although neurological evidence demonstrate that infection and/or inflammation mediators facilitate metabolic crises in patients, the involvement of neuroinflammatory processes in the neuropathology of this organic acidemia is not yet established. In this experimental study, a single intracerebroventricular dose of MMA (MMA 2.5μmol /g, 12 hs after birth; at dose that raise its concentration in blood and in the brain from affected) was administered to mice pups at postnatal day 0 (P0) to induce an acute, transient rise of MMA levels in the central nervous system (CNS). In the following days (21st 33th or 40th 52th ) animal behavior was assessed in the radial maze test and elevated plus maze. It was measured tumor necrosis factor-alpha (TNF-α), DCFH, Ache activity and caspase levels in the cerebral cortex, striatum and hipoccampus from mice with 21 e 40 days of life. Behavioral tests showed that animals injected with MMA have a reduction in the working memory test, but no in the reference test. The animals did not exhibit anxiety-like behaviors. Furthermore, MMA increased levels of TNF-α, AchE activity and activation of caspases 1, 3 and 8 in the cerebral cortex, hippocampus and striatum of mice with 21 and 40 days of life. The overall results indicate that a simple administration of MMA increased pro-inflammatory markers in the structure studied, increased apoptotic markers, and coincide with the behavioral changes found in young mice. This leads to speculate that, through mechanisms not yet elucidated, the transient metabolic insult with MMA may cause a neuroinflammatory processes during critical periods of development, contributing to the progression of cognitive impairment in patients with methylmalonic acidemia. / A acidemia metilmalônica (AM) é um erro inato do metabolismo (IEM) caracterizado pelo acúmulo do ácido metilmalônico (MMA) nos fluidos corporais e tecidos, causando disfunção mitocondrial, estresse oxidativo e neuroinflamação, resultando principalmente em disfunções neurológicas. Embora, estudos sugerem que a infecção ou mediadores da inflamação facilitem as crises metabólicas nos pacientes afetados, o envolvimento de processos neuroinflamatórios na patologia dessas acidemia orgânica ainda não foi estabelecido. Neste estudo, uma dose única intracerebroventricular de MMA (MMA 2.5μmol/g; dose encontrada no cérebro e fluidos corporais de pacientes afetados) foi administrada a filhotes de camundongos logo após o nascimento (P0). Além disso, o peso dos animais foi aferido até o dia dos testes comportamentais. A partir do 21° até 33° ou 40º até 52° dias de vida, os animais foram avaliados em tarefas comportamentais como o teste de labirinto radial e em cruz elevado. Os níveis de fator de necrose tumoral-alfa (TNF-α), DCFH, atividade da acetilcolinesterase (AchE) e os níveis de caspases foram determinados no córtex cerebral, estriado e hipocampo de camundongos com 21 e 40 dias de vida. Os testes do labirinto radial mostrou que os animais injetados com o MMA apresentaram um pior desempenho no teste de memória de trabalho, mas não no teste de memória de referência com 21 e 40 dias de vida. Os animais não apresentaram comportamento de ansiedade. Além disso, o MMA aumentou os níveis de TNF- α, a atividade AchE e a ativação das caspases 1, 3 e 8 no córtex cerebral, hipocampo e estriado dos camundongos com 21 e 40 dias de vida. Entretanto, a administração de MMA não causou alterações histológicas nas estruturas analisadas. Dessa forma, os resultados sugerem que uma administração única de MMA aumentou os níveis de mediadores pró-inflamatórios e a expressão de marcadores apoptóticos. Esses eventos podem estar associados com as mudanças comportamentais encontradas nos camundongos jovens. Assim, pode-se sugerir que, devido a mecanismos ainda não totalmente esclarecidos, o acúmulo de MMA durante períodos críticos de desenvolvimento pode causar processos neuroinflamatórios, que contribuem para a progressão da piora de memória nos pacientes com acidemia metilmalônica.

Córtex cerebral

Estriado

Hipocampo

Memória

Metilmalonato

Camundongos

Inflamação e marcadores apoptóticos

Cerebral cortex

Striatum

Hippocampus

Memory

Methylmalonate

Mice

Inflammatory and apoptotic markers

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Efeitos da morfina em fases distintas da gestação de ratas: comportamento maternal, desenvolvimento físico e neurocomportamental das proles e biologia molecular dos receptores opióides. / Effects of morphine at different stages of pregnancy in rats: maternal behavior, physical and neurobehavioral development of the offspring and molecular biology of opioid receptors.

Renata Ruggier de Mattos

21 March 2014

Opióides são substâncias de origem endógena ou sintética, referindo-se a todos os compostos relacionados ao ópio, sendo o protótipo dos agonistas opióides, a morfina, conhecida pela sua capacidade de aliviar a dor intensa com eficácia. A morfina se liga a pelo menos três tipos de receptores conhecidos como &#181;, <font face=\"symbol\">k e <font face=\"symbol\">d. Os opióides parecem ter relação a comportamentos reprodutivos, dentre estes o comportamento maternal (CM). O CM é complexo, instintivo e com características espécie-específicas determinadas por modificações fisiológicas que ocorrem pouco antes ou logo após o parto e deve ajustar-se à uma série de variáveis como disponibilidade de alimentos, por exemplo, e influencia diretamente nos desenvolvimentos físico, neurológico e comportamental das proles, garantindo ou não a perpetuação dessas espécies. Trabalhos mostraram que os estados fisiológico, reprodutivo e a manipulação farmacológica com morfina ao final da gestação de ratas, por si só, são capazes de alterar a habilidade materna, comprometendo o desenvolvimento das proles, bem como podem modular a expressão dos genes que codificam para os receptores opióides em regiões implicadas com o controle do CM, porém são desconhecidos os resultados de ratas tratadas com esse opióide nas fases iniciais da gestação, objetivo deste trabalho, bem como os parâmetros físico e neurocomportamental das proles e na biologia molecular de receptores opióides em diferentes regiões encefálicas tanto nas proles quanto nas mães. Os resultados mostraram que tratamento com morfina no primeiro e segundo terços da gestação de ratas alterou alguns parâmetros do CM como a recuperação dos filhotes, e alterou alguns parâmetros do desenvolvimento físico como o ganho de peso e o desenvolvimento dos órgãos sexuais e desenvolvimento neurocomportamental em ambas as proles, bem como os padrões de expressão gênica e produtos protéicos nas mães e em suas proles no estriado, hipotálamo e PAG. Conclui-se, portanto que o tratamento com morfina durante a gestação de ratas pode alterar o estado fisiológico das mães com implicações diretas nas proles. / Opioids are substances of endogenous or synthetic origin, referring to all related opiate compounds, the prototype of the opioid agonists, morphine, known for its ability to relieve severe pain effectively. Morphine binds to at least three types of receptors known as &#181;, <font face=\"symbol\">d and <font face=\"symbol\">k. Opioids appear to be related to reproductive behaviors among this maternal behavior (CM). The CM is complex, instinctive and species-specific characteristics determined by physiological changes that occur shortly before or after delivery and must adjust to a number of variables such as food availability, for example, and directly influences the physical developments, neurological and behavior of the offspring, or not ensuring the perpetuation of the species. Studies have shown that the physiological and pharmacological manipulation reproductive states with morphine to rats in late pregnancy, by themselves, are capable of altering the maternal ability, affecting the development of the offspring, and can modulate the expression of genes encoding the opioid receptors in regions implicated in the control of CM, are unknown but the results of this opioid-treated rats in the early stages of pregnancy, aim of this work as well as the physical and neurobehavioral parameters of the offspring and molecular biology of opioid receptors in different brain regions both in the offspring as mothers. The results showed that morphine treatment in the first two thirds of pregnancy of rats changed some parameters of the CM as the recovery of the puppies, and changed some of the physical parameters such as weight gain and the development of sex organs and neurobehavioral development in both offspring as well as the patterns of gene expression and protein products in mothers and their offspring in the striatum, hypothalamus and PAG. It follows therefore that treatment with morphine during pregnancy in rats can alter the physiological status of mothers with direct implications in offspring.

Biologia molecular

Comportamento maternal

Corpo estriado

Hipotálamo

Receptores opióides

Substância cinzenta periaquedutal

Hypothalamus

Maternal behavior

Opioids

Periaqueductal gray

Physical development in rats

Striatum

Psychotria myriantha müll arg. (rubiaceae) : caracterização dos alcalóides e avaliação das atividades antiquimiotáxica e sobre o sistema nervoso central

Farias, Fabiane Moreira

January 2006

O gênero Psychotria destaca-se na família RUBIACEAE pela produção de alcalóides bioativos e por sua taxonomia complexa, sendo muitas vezes relacionado aos gêneros Palicourea, Cephaelis, Calycodendron e Calycosia. A divisão de Psychotria nos subgêneros Psychotria, Tetramerae e Heteropsychotria foi proposta com o objetivo de auxiliar a classificação quimiotaxonômica do gênero. Estudos demonstram que o subgênero Psychotria (espécies pantropicais) produz alcalóides poliméricos, formados por duas ou mais unidades de triptamina; enquanto o subgênero Heteropsychotria parece estar envolvido com a produção de alcalóides indol monoterpênicos, de acordo com pesquisas realizadas com diferentes espécies coletadas no Sul do Brasil. O isolamento e purificação dos alcalóides estrictosamida, ácido estrictosidínico e miriantosina, a partir de Psychotria myriantha, corroboram com esta hipótese, permitindo a inclusão da espécie no subgênero Heteropsychotria. A literatura descreve várias atividades para extratos e alcalóides isolados de espécies de Psychotria, como antimicrobiana e analgésica, por exemplo. Neste trabalho, o extrato n-butanólico de alcalóides de P. myriantha, além de seus alcalóides isolados, apresentaram atividade inibidora da migração de leucócitos, sugerindo um efeito antiinflamatório, e capacidade de inibir a ação da enzima acetilcolinesterase. Extratos e alcalóides isolados da espécie foram avaliados quanto à atividade antioxidante em CCD, frente ao DPPH, apresentando resultado negativo. O extrato EBA e o alcalóide ácido estrictosidínico aumentaram o tempo de latência no teste da retirada da cauda frente ao estímulo térmico, indicando uma atividade analgésica do tipo opióide. A influência do ácido estrictosidínico, alcalóide isolado em maior quantidade em massa, sobre os níveis de DA, DOPAC, 3-MT, HVA, 5-HT e 5-HIAA em estruturas cerebrais de ratos foi verificada. Hipocampos de animais que receberam injeção intra-hipocampal bilateral de ácido estrictosidínico (20 μg/μL) apresentaram redução de 83,4 % nos níveis de serotonina, em comparação ao grupo controle, enquanto os córtices desses animais apresentaram redução nos níveis de DOPAC (35,9%), 3-MT (24,7%) e 5-HIAA (9%). Hipocampos e estriados de ratos tratados com injeção i.p. de ácido estrictosidínico (10 mg/kg) demonstraram diminuição de 63,4 e 28,7% nos níveis de 5-HT, respectivamente. As alterações nos níveis de aminas biogênicas nas estruturas avaliadas, além das atividades analgésica e inibidora da acetilcolinesterase, indicam que P. myriantha e espécies do subgênero Heteropsychotria constituem uma potencial fonte de substâncias bioativas no tratamento de distúrbios do sistema nervoso central. / Psychotria genus is an important in RUBIACEAE due to bioactive alkaloids production and complex taxonomy, being related to Palicourea, Cephaelis, Calycodendron and Calycosia genera. The division of Psychotria in Psychotria, Tetramerae and Heteropsychotria subgenera was proposed with the aim of aiding the genus chemotaxonomic classification. Studies demonstrate that Psychotria subgenus produce polyindoline alkaloids formed by two or more triptamine units; whereas Heteropsychotria subgenus seems to be involved with indole monoterpene alkaloids production, according to researches with different species collected in Southern Brazil. Isolation and purification of strictosamide, strictosidinic acid and miriantosine from Psychotria myriantha corroborated this hypothesis, allowing its inclusion into Heteropsychotria subgenus. The scientific literature describes several activities to Psychotria extracts and alkaloids, such as antimicrobial and analgesic, for example. In this work, P. myriantha n-butanolic alkaloid extract and isolated compounds inhibited the leukocyte migration, suggesting an antiinflammatory activity, and a weak ability to inhibit the action of acetylcholinesterase enzyme. Alkaloids and extracts from P. myriantha were evaluated as regards their antioxidant activity using DPPH, with no positive results. EBA and strictosidinic acid increased the latency in the tail flick model, indicating an opioid analgesic activity. The influence of strictosidinic acid on the levels of DA, DOPAC, 3-MT, HVA, 5-HT and 5-HIAA in brain structures of rats was verified. Hippocampus with intra-hippocampal injection of strictosidinic acid (20 μg/μL) displayed a decrease of 83.4% in serotonin levels, in comparison with control group; whereas the cortex showed a decrease in the levels of DOPAC (35.9%), 3-MT (24.7%) and 5-HIAA (9%). Hippocampus and striatum that received intraperitoneal injection of strictosidinic acid (10 mg/kg) showed 5-HT levels reduction of 63.4 e 28.7%, respectively. The biogenic amine levels alterations in the studied structures, associated with the analgesic and acetylcholinesterase inhibitor activities, suggest that P. myriantha and species from the Heteropsychotria subgenus constitute a font of bioactive compounds in the treatment of central nervous system disturbs.

Psychotria myriantha

Rubiaceae

Alcalóides

Psychotria myriantha

Indol monoterpene alkaloids

Strictosamide

Strictosidinic acid

Miriantosine

Leukocyte chemotaxis inihibition

Acetylcholinesterase inhibition

Analgesic activity

Biogenic amines

Hippocampus

Cortex

Striatum

Dopamine

Serotonin

Validation of a transgenic mouse line with knockdown of mGluR5 selectively in dopamine D1receptor expressing neurons

Nasr Esfahani, Ali

January 2010

One of the main difficulties of addiction treatment is the high risk of relapse even after a longabstinence and fully detoxification. Therefore, discovering the underlying molecular principlesof relapse is essential. The metabotropic glutamate receptor, mGluR5, is considered to beinvolved in this aspect. One of the brain structures expressing mGluR5 is the striatum, an areawith well-established role in addiction which is largely composed of medium-sized spinyneurons (MSNs). These neurons are basically divided into two major subpopulationscharacterized based on their projections and protein properties. It is known that the mGluR5receptor is expressed on both subpopulations of MSNs. Consequently, it can be used to establishthe proportional contribution of each of MSNs subpopulations in relapse to addiction. In ourconstellation, we have generated a mouse line designed to have a selective mGluR5 knock-downin one of these subpopulations – the dopamine D1 receptor (D1R) expressing neurons. It hashowever been unclear if the expression of the transgene is indeed limited to only D1R-expressingneurons. By immunofluorescence technique, I here show that the construct is expressed only inMSNs and is restricted to the D1R-expressing cell population in the striatum. Thus the transgenicmouse line is a good tool for the study of mGluR5 selectively in D1R expressing neurons.

Cocaine

DARPP-32

Enkephalin

GFP

MSNs

mGluR5

Relapse

Striatum

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Cell Biology

Cellbiologi

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Neurosciences

Neurovetenskaper

Efeito neuroprotetor da creatina e avaliação dos parâmetros cinéticos da captação de glutamato induzidos pelo ácido glutárico no estriado de ratos / Neuroprotective effect of creatine and evaluation of kinetic parameters of glutamate uptake induced by glutaric acid from striatum the rats

Magni, Danieli Valnes

14 October 2008

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Glutaric acidemia type I (GA-I) is an inborn error of metabolism (EIM) biochemically characterized by the main accumulation of glutaric acid (GA) and 3- hydroxyglutaric acid (3-OH-GA), and pathologically by a characteristic striatal degeneration. Due the absence of effective therapeutic strategies for this acidemia, several studies have investigated new therapies, since that one in three children subject to current treatments show striatal degeneration. In this context, the present work aimed in the first part, to investigate the effects of acute treatment with creatine (Cr), an endogenous compound guanidine which has shown neuroprotective effects in a variety of experimental models of neurodegenerative diseases and also in organic acidemias, on the GA-induced behavioral and neurochemical changes in vivo. Our results demonstrated that acute administration of Cr prevented the GA-induced behavioral and electrographic seizures, the carbonyl protein content increased and the Na+,K+-ATPase enzyme activity reduction in rats. Moreover, the Cr also protected the GA-induced sinaptossomal L-[3H]glutamate uptake reduction in vitro. As was observed in this first part, that the GA in a low concentration (10 nM) was able to reduce the L-[3H]glutamate uptake in striatal sinaptossomas of rats, and since that responsible mechanisms for striatal degeneration observed in patients are still poorly understood, we decided to evaluate in a second step, a primary action mechanism for the neurotoxic effects this low concentration of GA, which possibly may be present at the beginning of GA-I. We find that the GA reduced the L-[3H]glutamate uptake and increased the reactive species (ER) formation in sinaptossomas the striatum of rats in all times tested. Furthermore, we observed for the first time that the GA reduced the efficacy (VMax), but not the affinity (KD) of L-[3H]glutamate uptake in striatal sinaptossomas, suggesting a non-competitive inhibition. The addition of both the L-trans-pyrrolidine-2,4-dicarboxylate (PDC), a glutamate transporters inhibitor, with the GA did not alter the inhibitory effect on the of L-[3H]glutamate uptake induced by organic acid, indicating the involvement of glutamate transporters in the GA-induced uptake reduction. Since the glutamate transporters activity can be inhibited by oxidation, we show that although the antioxidant trolox protects against GA-induced ER formation increase, it did not protect against GA-induced glutamate uptake reduction in the synaptosomes of cerebral structure studied, suggesting that ER formation may be a late event in the neurotoxicity observed in GA-I. Moreover, we can not exclude the possibility that the GA may also directly stimulate the glutamate receptors, since the GA-induced ER formation was reduced by the non-NMDA glutamate receptor antagonist, the CNQX, but not by MK-801, suggesting that these receptors contributed, at least partly, to the GA-induced oxidative stress. Also determined GA, in this low concentration, did not show oxidant activity per se. Therefore, from results in this study it was observed the protective effect of Cr administration in the deleterious actions caused by the GA. Furthermore, we show for the first time that a GA low concentration cause primary excitotoxicity, and oxidative stress in brain structure predominantly affected in this disease. Therefore, we believe that this work may help explain the genesis of GA-I, as well as the development of effective adjuvant therapeutic strategies in the treatment this acidemia. / A acidemia glutárica tipo I (GA-I) é um erro inato do metabolismo (EIM) caracterizada bioquimicamente pelo acúmulo principal de ácido glutárico (GA) e ácido 3-hidroxiglutárico (3-OH-GA), e patologicamente por uma característica degeneração estriatal. Devido à escassez de medidas terapêuticas efetivas para essa acidemia, vários estudos têm investigado novas terapias, já que uma em cada três crianças submetidas aos atuais tratamentos sofre degeneração estriatal. Nesse contexto, o presente trabalho teve por objetivo em sua primeira parte, investigar os efeitos do tratamento agudo com creatina (Cr), um composto guanidínico endógeno que tem mostrado efeitos neuroprotetores em uma variedade de modelos experimentais de doenças neurodegenerativas e também em acidemias orgânicas, sobre as alterações comportamentais e neuroquímicas induzidas pelo GA in vivo. Nossos resultados demonstraram que a administração aguda de Cr preveniu as convulsões comportamentais e eletrográficas, o aumento do conteúdo de proteína carbonil e a redução da atividade da enzima Na+,K+-ATPase induzidos pelo GA em ratos. Além disso, a Cr também protegeu da redução da captação de L-[3H]glutamato sinaptossomal induzida pelo GA in vitro. Como foi observado nesta primeira parte, que o GA em uma baixa concentração (10 nM) foi capaz de reduzir a captação de L-[3H]glutamato em sinaptossomas estriatais de ratos, e desde que os mecanismos responsáveis pela degeneração estriatal observada nos pacientes glutaricoacidêmicos ainda não estão bem esclarecidos, decidimos avaliar em uma segunda etapa, um provável mecanismo de ação primário para os efeitos neurotóxicos desta baixa concentração de GA, que possivelmente pode estar presente no início da GA-I. Verificamos que o GA reduziu a captação de L-[3H]glutamato e aumentou a formação de espécies reativas (ER) em sinaptossomas de estriado de ratos em todos os tempos testados. Além disso, observamos pela primeira vez que o GA reduziu a eficácia (VMax), mas não a afinidade (KD) da captação de L-[3H]glutamato em sinaptossomas estriatais, sugerindo uma inibição do tipo não competitiva. A adição simultânea do L-trans-pirrolidina-2,4-dicarboxilato (PDC), um inibidor dos transportadores de glutamato, com o GA não alterou o efeito inibitório sobre a captação de L-[3H]glutamato induzido pelo ácido orgânico, indicando a participação dos transportadores de glutamato na redução da captação desse neurotransmissor induzida pelo GA. Desde que a atividade dos transportadores de glutamato pode ser inibida por oxidação, evidenciamos que embora o antioxidante trolox proteja do aumento da formação de ER induzidas pelo GA, ele não protege da redução da captação de L-[3H]glutamato induzida por este ácido orgânico em sinaptossomas de estriado. Estes achados sugerem que a formação de ER pode ser um evento tardio na neurotoxicidade observada na GA-I. Além disso, não podemos excluir a possibilidade de que o GA também possa estimular diretamente os receptores de glutamato, desde que a formação de ER induzidas pelo GA foi atenuada pelo antagonista de receptor de glutamato não-NMDA, o CNQX, mas não pelo MK-801 e o GA, nessa baixa concentração, não apresentou atividade oxidante per se. Portanto, os resultados apresentados no presente estudo demonstram que a administração previa de creatina protege das ações deletérias ocasionadas pelo GA. Além disso, evidenciamos, pela primeira vez, que uma baixa concentração de GA causa ações excitotóxicas primárias, bem como, estresse oxidativo na estrutura cerebral predominantemente afetada nesta doença. Assim, acreditamos que este trabalho possa auxiliar na elucidação da gênese da GA-I, bem como no desenvolvimento de estratégias terapêuticas adjuvantes eficazes no tratamento desta acidemia.

Ácido glutárico

Creatina

Convulsões

Glutamato

Estriado

Sinaptossomas

Excitotoxicidade

Espécies reativas

Glutaric acid

Creatine

Seizures

Glutamate

Striatum

Synaptosomes

Excitotoxicity

Reactive species

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Rôle de la protéine Arc (Activity-regulated cytoskeleton-associated protein) dans les adaptations moléculaires et comportementales induites par la cocaïne / Role of Arc protein (Activity-regulated cytoskeleton-associated protein) in molecular and behavioral adaptations to cocaine

Salery, Marine

09 October 2015

Les adaptations cellulaires et moléculaires induites par les drogues jouent un rôle central dans les altérations comportementales à long terme observées dans l’addiction. Cette étude s’inscrit dans une démarche de compréhension des processus cellulaires rapidement mis en jeu par la cocaïne et susceptibles d’impacter durablement le fonctionnement neuronal et les comportements. La protéine Arc joue un rôle clé dans l’établissement de la plasticité synaptique à long-terme et la consolidation de la mémoire. Cette étude visait à caractériser l’induction de Arc dans le striatum en réponse à la cocaïne et d’analyser son rôle dans les réponses moléculaires et comportementales qu’elle induit. Notre étude a montré que l’expression de Arc est augmentée rapidement et transitoirement dans le striatum après une injection de cocaïne sous la dépendance de l’activation de la voie ERK. Nous montrons que la cocaïne induit une forte accumulation de la protéine Arc dans le noyau des neurones striataux où Arc se localise dans des zones actives de transcription, à proximité des histones H3 phosphorylées. In vitro, la surexpression de Arc diminue la phosphorylation des histones H3 induite par le glutamate indiquant qu’elle altère le remodelage de la chromatine. L’invalidation génétique de la protéine in vivo dans un modèle de souris transgénique conduit à une décompaction de la chromatine associée à une augmentation de l’activité de la RNA Polymerase II démontrant que Arc exerce un effet répresseur sur les mécanismes transcriptionnels. La perte totale d’expression de Arc favorise le développement d’altérations comportementales à long terme chez des animaux exposés à de faibles doses de cocaïne. / Molecular and cellular adaptations induced by drugs of abuse in the reward system play a key role in long-term behavioral alterations encountered in addiction. This work falls within an approach of understanding the cellular processes rapidly engaged by cocaine that could underlie the persistent alteration of neuronal physiology and behaviors. Arc protein is a major player in neuronal plasticity. Arc is induced in many behavioral paradigms and is essential for long-term synaptic plasticity and memory consolidation. The aim of this study was to characterize the profile and modality of Arc induction within the mouse striatum in response to cocaine administration. Our study shows that Arc expression is rapidly and transiently increased in the striatum after acute cocaine in an ERK-dependent fashion. This work revealed that cocaine-induced Arc protein rapidly and transiently accumulates in the nucleus of striatal neurons. In the nucleus, Arc is preferentially expressed in active transcription regions and localizes at the vicinity of phosphorylated histones H3. In vitro Arc overexpression decreased glutamate-induced Histones H3 phosphorylation showing that Arc interferes with activity-dependent chromatin remodeling. In vivo genetic invalidation of Arc expression in a transgenic mouse model was associated with a decreased chromatin compaction and increased RNA Polymerase II activity suggesting a repressive role of Arc on transcriptional mechanisms. Total Arc loss of expression leads to increased sensitivity to cocaine and promotes long-term behavioral alterations induced by low doses of cocaine.

Striatum

Cocaïne

Chromatine

Plasticité

Cocaine

573.8

Rit2-Dependent Dopamine Transporter Endocytosis: Intrinsic Mechanism and In Vivo Impact

Fagan, Rita R.

30 April 2020

Dopamine (DA) governs movement, sleep, reward, and cognition. The presynaptic dopamine transporter (DAT), clears released DA, controlling DA signaling and homeostasis. Genetic DAT ablation causes hyperactivity, sleep reduction, and altered psychostimulant response. DAT surface expression is dynamic; DAT constitutively internalizes and recycles to and from the plasma membrane, and acute PKC activation stimulates DAT endocytosis. Cell line experiments demonstrated that PKC-stimulated DAT endocytosis requires Ack1 inactivation and the GTPase, Rit2. How Rit2 controls PKC-dependent DAT internalization, or whether regulated DAT endocytosis impacts behavior, is unknown. Here, I present data supporting that PKC activation stimulates Rit2/DAT dissociation, mediated by the DAT N-terminus. Further, Ack1 and Rit2 function independently to facilitate PKC-stimulated DAT internalization. Moreover, PKC-stimulated DAT endocytosis was limited to ventral striatum in ex vivo slice preparations, and required Rit2. Our lab previously demonstrated that certain DA-dependent behaviors required DAergic Rit2 in mice, however whether this was due to perturbed PKC-stimulated DAT internalization, or DAT-independent Rit2 function(s) remains untested. To address this, I turned to Drosophila and its Rit2 homolog Ric. I found that Ric and dDAT proteins interact in cell lines, and that constitutively active Ric (RicQ117L) increased dDAT function in cultured cells and ex vivo whole fly brains. However, neither DAergic Ric knockdown nor RicQ117L altered overall locomotion or sleep, suggesting that these fundamental behaviors do not require DAergic Ric. Together, these results expand our understanding of intrinsic mechanisms controlling DAT endocytosis, and their impact on behavior.

dopamine

dopamine transporter

protein kinase C

rit2

GTPase

membrane trafficking

endocytosis

striatum

drosophila

sleep

sleep consolidation

Biochemistry

Cell Biology

Molecular and Cellular Neuroscience

Molecular Biology

Prasečí modely pro Huntingtonovu chorobu / Porcine models for Huntington disease

Růna Vochozková, Petra

January 2019

The causative role of the huntingtin (HTT) gene in Huntington's disease (HD) has been identified more than 25 years ago. The extension of CAG repeat stretch over 39 repeats in exon 1 of one HTT allele results in full penetrance of this neurodegenerative disorder. While the identification of the causative mutation raised hopes that development of the therapeutic compound will be easily achievable, the patients and their families are still waiting for treatment until now. The main reason for that might be the complex cellular function HTT that makes the determination of the pathologic mechanism difficult and the development of treatments even more challenging. Although a lot of different animal models have been generated until now, establishing a suitable model has still not been achieved yet. Due to its anatomy, physiology, and genetics, the minipig seems to be a suitable candidate for neurodegenerative disease models. Indeed, the existing Transgenic (Tg) Libechov minipig model manifests signs typical for HD in patients, but on the other hand significant inconsistencies have also been observed. The finding of malformation that partially shows the situation in human patients is true for both, the male reproductive tract as well as for the brain. The reason for this might be the fact the genetic...

Prasečí modely pro Huntingtonovu chorobu / Porcine models for Huntington disease

Růna Vochozková, Petra

January 2019

The causative role of the huntingtin (HTT) gene in Huntington's disease (HD) has been identified more than 25 years ago. The extension of CAG repeat stretch over 39 repeats in exon 1 of one HTT allele results in full penetrance of this neurodegenerative disorder. While the identification of the causative mutation raised hopes that development of the therapeutic compound will be easily achievable, the patients and their families are still waiting for treatment until now. The main reason for that might be the complex cellular function HTT that makes the determination of the pathologic mechanism difficult and the development of treatments even more challenging. Although a lot of different animal models have been generated until now, establishing a suitable model has still not been achieved yet. Due to its anatomy, physiology, and genetics, the minipig seems to be a suitable candidate for neurodegenerative disease models. Indeed, the existing Transgenic (Tg) Libechov minipig model manifests signs typical for HD in patients, but on the other hand significant inconsistencies have also been observed. The finding of malformation that partially shows the situation in human patients is true for both, the male reproductive tract as well as for the brain. The reason for this might be the fact the genetic...

Catch the dream Wave : Propagation of Cortical Slow Oscillation to the Striatum in anaesthetised mice

Ferreira, Tiago

January 2014

Under anaesthesia or in deep sleep, different parts of the brain have a distinctive slow oscillatory activity, characterised by states of high membrane potential and intensive spiking activity, the Up-states; followed by hyperpolarisation and quiescence, the Down-states. This activity has been previously described in vitro and in vivo in the cortex and the striatum, across several species. Here, we look into it, during anaesthesia, in the mouse brain. Using whole-cell patch-clamp recordings of cortical cells, it was possible to compare different signal processing methods used to extract the Up-and- Down states in extracellular recordings of the cortex. Our results show that the method based on the Multi-Unit Activity (&gt; 200Hz) have better ac- curacy than High-Gamma Range (20 100Hz) or wavelet decomposition (&lt; 2Hz band). After establishing the most robust method, this was used to compare the intracellular recordings of striatal cells to different parts of the cortex. The results obtained here support a functional connection between the dorsolateral striatal neurons and the ipsilateral barrel field. They also support a functional connection between dorsomedial striatal cells and the primary visual cortex. The analysis of delay between recordings allowed to establish temporal relationships between the contralateral barrel field, the ipsilateral barrel field, and the dorsolateral striatum; and between the ipsilateral barrel field, the ipsilateral primary visual field and the dorsomedial striatum. / <p>External Advisor: Dr. Ramon Reig, from Karolinska Institutet</p>

Cortex

Striatum

anaesthesia

slow oscillation

spontaneous activity

ketamine

in vivo

up states

wavelet

MUA

high-gamma range

MSNs

Bioinformatics (Computational Biology)

Bioinformatik (beräkningsbiologi)