INFLUÊNCIA DO EXERCÍCIO FÍSICO SOBRE PARÂMETROS DE DEPENDÊNCIA E RECAÍDA EM RATOS EXPOSTOS À ANFETAMINA: ASPECTOS COMPORTAMENTAIS E BIOQUÍMICOS / INFLUENCE OF PHYSICAL EXERCISE ON DEPPENDENCE AND RELAPSE PARAMETERS EVALUATED IN RATS EXPOSED TO AMPHETAMINE: BEHAVIORAL AND BIOCHEMICAL ASPECTS

Segat, Hecson Jesser

10 February 2015

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Amphetamine compounds and its derivatives are widely used in clinical medicine, but it is known that frames can cause dependence, tolerance and withdrawal. Furthermore, these drugs can alter metabolism and the functions of central neurotransmitters causing oxidative imbalances. In this sense it is already documented that exercise improves the conditions of well-being and self-esteem, and improve the plasticity and thus neuronal protection. In this context, the present study aimed to evaluate the influence of regular and continuous exercise on anxiety and behavioral parameters related to relapse to the use of amphetamine in an animal model of conditioned place preference (CPP). Male Wistar rats were conditioned to the use of AMPH or vehicle for 14 days and then half of each group was subjected to aerobic, regular and continuous physical activity for 5 weeks, while the others were not exercised. At the end of the last exercise session, the animals were re-conditioned to the use of AMPH/vehicle for more 3 days. After this phase, the animals were subjected to behavioral testing CPP to evaluate relapse to drug use, and the elevated plus maze to measure anxiety parameters. Hippocampal oxidative status was evaluated by levels of generation of reactive species (RS), carbonyl protein (CP), and activity levels of catalase (CAT) and Na+K+-ATPase, respectively. It was observed that the per amphetamine was able to develop is the CPP in the animals, however after the completion of 5 weeks of aerobic exercise, there was a reduction in the rate preferably compared to sedentary rats indicating a lower rate of relapse to amphetamine. In addition, exercise was shown to be beneficial to reduce the degree of anxiety and oxidative damage in these animals by amphetamine. Thus, regular and continuous exercise is a promising tool in the treatment of dependence and relapse to the indiscriminate use of drugs. / Compostos anfetamínicos e seus derivados são amplamente utilizados na clínica médica, porém podem provocar quadros de dependência, tolerância e abstinência. Além disso, estas drogas são capazes de afetar as funções e o metabolismo de neurotransmissores do sistema nervoso central (SNC) provocando desequilíbrios oxidativos. Neste sentido, já é documentado que o exercício físico melhora as condições de bem estar e auto-estima, favorecendo a plasticidade e, consequentemente, a proteção neuronal. Nesse contexto, o presente estudo visou avaliar a influência do exercício físico regular e contínuo sobre parâmetros comportamentais e de ansiedade relacionados à recaída ao uso de anfetamina em modelo animal de preferência condicionada de lugar (PCL). Ratos Wistar adultos foram condicionados com anfetamina no protocolo de PCL ou veículo por 14 dias e, na sequência, metade de cada grupo foi submetida à atividade física aeróbica regular e contínua por 5 semanas, enquanto os demais não foram exercitados. Ao término da última sessão de exercício físico, os animais foram re-condicionados ao uso de anfetamina ou veículo por mais 3 dias. Após esta fase, os animais foram submetidos aos testes comportamentais de PCL para avaliar sintomas de recaída pela preferência à droga, sendo também avaliados parâmetros de ansiedade em labirinto em cruz elevado. O status oxidativo na região do hipocampo foi avaliado através da geração de espécies reativas (RS), dos níveis de proteína carbonilada (PC) e atividade das enzimas catalase (CAT) e Na+K+-ATPase. Observou-se que a anfetamina per se foi capaz de desenvolver a PCL nos animais. Entretanto, após 5 semanas de exercício físico aeróbico regular e contínuo, os animais expostos à anfetamina mostraram menor PCL pela droga quando comparados ao grupo sedentário, indicando menor índice de recaída à anfetamina. Além disso, o exercício físico regular e contínuo exerceu influência favorável ao reduzir o nível de ansiedade e os danos oxidativos cerebrais, os quais foram associados ao condicionamento com anfetamina. Desse modo, o exercício físico regular e contínuo é uma ferramenta promissora no tratamento de dependência e recaída ao uso abusivo de drogas.

Preferência condicionada de lugar

Recaída

Anfetamina

Exercício físico

Conditioned place preference

Relapse

Amphetamine

Physical exercise

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

The effects of the kappa agonist U-50,488 on morphine-induced place preference conditioning and Fos immunoreactivity in the preweanling and periadolescent rat

Balaños Guzman, Carlos Alberto

01 January 1995

The effects of the kappa opioid agonist U-50,488 on morphine-induced condtioned place preference (CPP), locomotor activity and Fos immunoreactivity and assessed in 10-, 17- and 35-day old rats. It was predicted that kappa agonist treatment would block the unconditioned and conditioned behaviors produced by morhine (a mu opioid receptor agonist).

Rats -- Effect of drugs on

Neural transmission

Morphine -- Metabolism

Drug receptors -- Metabolism

Brain chemistry -- Effect of drugs on

Conditioned place preference (CPP)

Biological Psychology

Peripheral Dopamine 2 Receptors Both Modulate Central Dopamine Release and Adopt in a Similar Manner to that of Central Dopamine 2 Receptors

Obray, J. Daniel

24 April 2020

Alcohol use disorder is a debilitating disorder affecting nearly 5% of people in the United States. Despite the prevalence of alcohol use disorder few affected individuals seek treatment and of those who do many will relapse. This highlights a need to develop new treatments for alcohol use disorder that are both more accessible and more effective. This dissertation characterizes a novel pathway involved in ethanol enhancement of dopamine levels in the nucleus accumbens as well as investigating alterations in dopamine 2 receptor expression and function following an acute dose of ethanol. This was done by using microdialysis to measure dopamine levels in the nucleus accumbens, single-unit recordings of dopamine neurons in the ventral tegmental area to measure dopamine neuron activity and place conditioning to measure the rewarding properties of the intravenous dopamine and ethanol. It was found that activation of peripheral dopamine 2 receptors by intravenous dopamine enhanced dopamine levels in the nucleus accumbens and dopamine neuron firing rate in the ventral tegmental area. Additionally, intravenous dopamine produced a modest conditioned place preference. Domperidone, a peripheral dopamine 2 receptor antagonist blocked each of these effects. Further, domperidone blocked ethanol enhancement of dopamine release in the nucleus accumbens and bidirectionally modulated the sedating effects of ethanol depending on the dose of ethanol administered. The involvement of peripheral dopamine 2 receptors in ethanol reward could not be ascertained in these studies as domperidone produced a weak conditioned place aversion. Finally, acute ethanol was found to enhance dopamine 2 receptor expression in the nucleus accumbens and medial prefrontal cortex while also enhancing dopamine 2 receptor expression on NK and B cells. Additionally, ethanol was found to reduce desensitization of dopamine 2 receptors in the ventral tegmental area. These results demonstrate that activation of peripheral dopamine 2 receptors can enhance dopamine levels in the nucleus accumbens and that this effect has relevance in understanding the effects of ethanol on dopamine release in the mesolimbic pathway. These results also provide evidence for transient upregulation of dopamine 2 receptors in the brain and on leukocytes suggesting that dopamine 2 receptor levels on leukocytes may be a useful biomarker for central dopamine function.

dopamine 2 receptors

ethanol

microdialysis

leukocytes

ventral tegmental area

nucleus accumbens

conditioned place preference

Family, Life Course, and Society

Peripheral Dopamine 2 Receptors Both Modulate Central Dopamine Release and Adopt in a Similar Manner to that of Central Dopamine 2 Receptors

Obray, J. Daniel

24 April 2020

Alcohol use disorder is a debilitating disorder affecting nearly 5% of people in the United States. Despite the prevalence of alcohol use disorder few affected individuals seek treatment and of those who do many will relapse. This highlights a need to develop new treatments for alcohol use disorder that are both more accessible and more effective. This dissertation characterizes a novel pathway involved in ethanol enhancement of dopamine levels in the nucleus accumbens as well as investigating alterations in dopamine 2 receptor expression and function following an acute dose of ethanol. This was done by using microdialysis to measure dopamine levels in the nucleus accumbens, single-unit recordings of dopamine neurons in the ventral tegmental area to measure dopamine neuron activity and place conditioning to measure the rewarding properties of the intravenous dopamine and ethanol. It was found that activation of peripheral dopamine 2 receptors by intravenous dopamine enhanced dopamine levels in the nucleus accumbens and dopamine neuron firing rate in the ventral tegmental area. Additionally, intravenous dopamine produced a modest conditioned place preference. Domperidone, a peripheral dopamine 2 receptor antagonist blocked each of these effects. Further, domperidone blocked ethanol enhancement of dopamine release in the nucleus accumbens and bidirectionally modulated the sedating effects of ethanol depending on the dose of ethanol administered. The involvement of peripheral dopamine 2 receptors in ethanol reward could not be ascertained in these studies as domperidone produced a weak conditioned place aversion. Finally, acute ethanol was found to enhance dopamine 2 receptor expression in the nucleus accumbens and medial prefrontal cortex while also enhancing dopamine 2 receptor expression on NK and B cells. Additionally, ethanol was found to reduce desensitization of dopamine 2 receptors in the ventral tegmental area. These results demonstrate that activation of peripheral dopamine 2 receptors can enhance dopamine levels in the nucleus accumbens and that this effect has relevance in understanding the effects of ethanol on dopamine release in the mesolimbic pathway. These results also provide evidence for transient upregulation of dopamine 2 receptors in the brain and on leukocytes suggesting that dopamine 2 receptor levels on leukocytes may be a useful biomarker for central dopamine function.

dopamine 2 receptors

ethanol

microdialysis

leukocytes

ventral tegmental area

nucleus accumbens

conditioned place preference

Family, Life Course, and Society

Transgenerational Evidence of Increases in Dopamine D2 Receptor Sensitivity in Rodents: Impact on Sensorimotor Gating, the Behavioral Response to Nicotine and BDNF

Gill, Wesley D., Burgess, Katherine C., Vied, Cynthia, Brown, Russell W.

01 October 2021

Background/Aims: Neonatal quinpirole (NQ) treatment to rats increases dopamine D2 (DAD2) receptor sensitivity in adult animals. We investigated if increased DAD2 sensitivity would be passed to the next (F1) generation, and if these animals demonstrated sensorimotor gating deficits and enhanced behavioral responses to nicotine. Methods: Male and female rats were intraperitoneal (IP) administered quinpirole (1 mg/kg) or saline (NS) from postnatal day (P)1–21. Animals were either behaviorally tested (F0) or raised to P60 and mated, creating F1 offspring. Results: Experiment 1 revealed that F1 generation animals that were the offspring of at least one NQ-treated founder increased yawning behavior, a DAD2-mediated behavioral event, in response to acute quinpirole (0.1 mg/kg). F1 generation rats also demonstrated increased striatal β arrestin-2 and decreased phospho-AKT signaling, consistent with increased G-protein independent DAD2 signaling, which was equal to F0 NQ-treated founders, although this was not observed in all groups. RNA-Seq analysis revealed significant gene expression changes in the F1 generation that were offspring of both NQ-treated founders compared to F0 NQ founders and controls, with enrichment in sensitivity to stress hormones and cell signaling pathways. In Experiment 2, all F1 generation offspring demonstrated sensorimotor gating deficits compared to controls, which were equivalent to F0 NQ-treated founders. In Experiment 3, all F1 generation animals demonstrated enhanced nicotine behavioral sensitization and nucleus accumbens (NAcc) brain-derived neurotrophic factor (BDNF) protein. Further, F1 generation rats demonstrated enhanced adolescent nicotine conditioned place preference equivalent to NQ-treated founders conditioned with nicotine. Conclusions: This represents the first demonstration of transgenerational effects of increased DAD2 sensitivity in a rodent model.

behavioral sensitization

brain-derived neurotrophic factor

conditioned place preference

dopamine D2 receptor

Epigenetic

nicotine

quinpirole

Biomedical Sciences

Behavioral characterization of substituted amphetamines and their synthetic cathinone analogues in the rusty crayfish (Orconectes rusticus)

Gore, Sayali, Gore

20 November 2017

No description available.

Biology

Behavioral Sciences

Behavioral Psychology

Neurobiology

Pharmacology

Addiction

Psychostimulation

Sensitization

Invertebrate reward

locomotor effects

Conditioned place preference

withdrawal

unconditioned behaviors

Reversão dos efeitos reforçadores da morfina através do prejuízo da reconsolidação da memória do condicionamento de preferência por local e da sensibilização locomotora

Boos, Flávia Zacouteguy

January 2016

A dependência de drogas é um transtorno multifatorial complexo que se desenvolve em uma minoria de indivíduos que fazem uso dessas substâncias. Memórias associativas entre a droga e o contexto funcionam como gatilho para disparar comportamentos não adaptativos de busca e consumo, além de recaídas após períodos de abstinência. Subjacentes a essas mudanças comportamentais, existem modificações nas subunidades de receptores glutamatérgicos do tipo AMPA em estruturas envolvidas com memória (Hipocampo) e recompensa (Núcleo Accumbens). Por isso, estratégias que enfraqueçam a associação do contexto com a droga e que aprofundem o conhecimento dos circuitos envolvidos nesses comportamentos são de extrema relevância terapêutica. A memória quando evocada pode passar por dois processos pós-evocação: a extinção, em que uma nova memória é formada inibindo uma prévia associação, e a reconsolidação, em que a memória original entra em um estado lábil e suscetível a modificações, em que é possível enfraquecê-la através da inibição de sua reconsolidação. A reconsolidação da memória mostra-se uma estratégica mais eficaz e duradoura em relação à extinção, já que a memória original é modificada. Como modelo animal para o estudo da memória na dependência de drogas, o condicionamento de preferência por local (CPL) é bastante utilizado e sabe-se que é possível enfraquecer a preferência através do bloqueio da reconsolidação. Porém, são escassos os estudos que investigaram a existência da reconsolidação no modelo de sensibilização locomotora, que parece ocorrer, na maioria dos casos, em condição dependente do contexto de aquisição do comportamento, embora existam exemplos que demonstrem sua independência. As questões a serem respondidas neste trabalho são (a) se é possível reverter conjuntamente a preferência por local e a sensibilização locomotora à morfina (5 mg/kg) em ratos Wistar adultos machos, inibindo-se a síntese proteica com cicloheximida (CHX) i.p. logo após uma sessão de reativação contextual da memória no CPL, (b) se a reversão dos comportamentos reflete alterações (já descritas por outros autores) em GluA1, GluA1p (Ser845) e GluA2, no Hipocampo dorsal (HPCd) e no Núcleo Accumbens (NAc), e (c) se o mesmo tratamento em ambas estruturas reverte os dois parâmetros avaliados – comportamental e neuroquímico – de forma diferente ou igual. Nossos resultados mostraram ser possível reverter a preferência por local e a sensibilização locomotora por inibição sistêmica de síntese proteica, e que o condicionamento com exposição à morfina induz alterações nas subunidades analisadas de AMPA, conforme verificado no HPCd e NAc, embora a CHX não tenha produzido um efeito tão bem definido. Os animais que receberam infusões centrais no HPCd e NAc (central) não exibiram preferência por local, nem sensibilização. Em conjunto, nossos resultados mostraram, pela primeira vez em um mesmo desenho experimental, que é possível reverter diferentes aspectos da memória de recompensa (preferência e sensibilização) por meio do bloqueio da reconsolidação. / Drug addiction is a complex and multifactorial disorder that develops in a few people who use these substances. Associative memories between the drug and context of use act as a trigger for maladaptive behavior such as drug seeking and drug use, in addition to relapse after an extended period of withdrawal. Underlying these behavioral changes are modifications in glutamatergic reception (AMPA) in structures involved with memory (Hippocampus) and reward (Nucleus Accumbens). Therefore, strategies that weaken the drug and context association and deepen knowledge of circuits involved in these behaviors are extremely relevant therapeutically. When retrieved, a memory can undergo two distinct processes post-retrieval: extinction, in which a new memory inhibiting a previous association is generated, and reconsolidation, in which the original memory can enter a labile state and is susceptible to modifications, when it can be weakened by inhibition of its reconsolidation. Reconsolidation of memory has been shown to be a more effective and long lasting strategy in relation to extinction, since the original memory is modified. An animal model for studying drug addiction, conditioned place preference (CPP) is largely used and it is well known that it is possible to weaken preference by disrupting reconsolidation. However, there are few studies that investigate the existence of reconsolidation in a locomotor sensitization paradigm, which seems to occur in a condition dependent on context of acquisition, although some works report its independence. The questions answered in this work were (a) if it is possible to reverse both, context preference and locomotor sensitization to morphine (5mg/kg) by protein synthesis inhibition (CHX) after a contextual memory reactivation session in CPP, (b) if the disruption of behaviors reflects a reversal of changes of GluA1, GluA1p (Ser845) e GluA2 in dorsal Hippocampus (dHPC) and Nucleus Accumbens (NAc) and (c) if the same treatment in these structures differentially reverts the two parameters assessed. Our results indicate that it is possible to revert context preference and locomotor sensitization via systemic disruption of protein synthesis and that morphine conditioning induces changes in AMPA subunits in dHPC and NAc, although CHX did not have an evident effect on molecular reversal. Animals cannulated in dHPC and NAc core did not induce preference or sensitization. Taken together, our results demonstrated, for the first time, using the same experimental design that is possible to revert different aspects of reward memory (preference and sensitization) by disrupting the reconsolidation process.

Memória

Hipocampo

Núcleo accumbens

Locomoção

Morfina

Morphine

Conditioned place preference

Locomotor sensitization

Memory

Reconsolidation

Dorsal hippocampus

Nucleus accumbens

Cicloheximide

GluA1

GluA2

Effets motivationnels des agonistes dopaminergiques dans un modèle de rat ayant une lésion bilatérale de l'aire tegmentale ventrale.

Ouachikh, Omar

19 December 2013

Le traitement médicamenteux de la maladie de Parkinson idiopathique (MPI) repose essentiellement,t sur la restauration de la transmission dopaminergique par la L-Dopa et par les agonistes dopaminergiques (DARAs) agissant sur les récepteurs dopaminergiques de la classe D2R et D3R. Cependant au cours du traitement apparaissent des comportements addictifs (addiction aux médicaments dopaminergiques, hyper-sexualité, addiction aux jeux, addiction aux achats impulsifs...). Ces troubles du comportement impulsifs (TCI) observés chez les patients parkinsoniens traités aux agonistes dopaminergiques ressemblent bien à ceux observés chez les utilisateurs chroniques de drogues d'abus telles que la morphine, les amphétamines ou la cocaïne. [...] Dans le but de comprendre la physiopathologie des manifestations addictives chez le patient parkinsonien, notre étude s'est proposée d'étudier les effets renforçateurs ou motivationnels des agonistes dopaminergiques chez l'animal dont l'ATV postérieur ou antérieure ont été bilatéralement lésés. Les manifestations addictives seront investies en utilisant le test de préférence de place conditionnée (PPC), un paradigme qui étudie l'effet motivationnel / renforçateur des agonistes utilisés. Une particularité de notre étude est qu'elle a été réalisée chez l'animal naïf sans être au préalable sensibilisé à une drogue d'abus. Son intérêt est de montrer l'effet direct des agonistes dopaminergiques sur le comportement recherché. / Néant

Maladie de Parkison

Préférence de place conditionnée

Dopamine

Syndrome de dysregulation dopaminergic

Addiction

Parkinson's disease

Conditioned place preference

Dopamine

Dopaminergic dysregulation syndrome

Addiction

610

Activation of EPAC Inhibits the Aquisition of Nucleus Accumbens Amphetamine Place Preference in a Dose-Dependent Manner in Rats

Park, Sung Woo (Calvin)

28 April 2008

Reward-related learning occurs when previously neutral stimuli acquires an enhanced ability to elicit approach and other responses. Studies in the past have shown that dopamine receptor-mediated 3’,5’-cyclic adenosine monophosphate (cAMP)-dependent intracellular signalling is important for reward-related learning. Until recently, cAMP-dependent protein kinase (PKA) was the only known signalling molecule that was activated by cAMP. However, it has been discovered that another enzyme, exchange protein directly activated by cAMP (Epac), is also activated by cAMP. Thus, it is possible that cAMP mediates reward-related learning by an Epac-dependent signalling pathway. The present study used a conditioned place preference (CPP) paradigm to investigate whether Epac is involved in the acquisition of reward-related learning. Bilateral injections of amphetamine (20 µg/0.5μl/side) into the nucleus accumbens (NAc) have been shown in previous studies to reliably produce a CPP. Thus, amphetamine (20 µg) and Sp-adenosine 3’,5’-cyclic monophosphorothioate triethylamanine (Sp-cAMPS) (0.1, 1.0, 10, 15, 20 µg), an agent that activates both PKA and Epac, or amphetamine (20 µg) and 8-(4-chlorophenylthio)-2’-O-methyladenosine-3’,5’-cyclic monophosphate (8-pCPT) (0.73, 1.27, 1.45, 2.89, 5.78, 11.56 µg), an agent that selectively activates Epac, were co-injected into NAc to determine their effects on the acquisition of CPP. Results showed that 8-pCPT (1.45 µg), but not lower or higher doses, inhibited CPP. Sp-cAMPS (0.1, 15, 20 µg) also inhibited CPP, replicating the results of previous studies. The results implicate Epac in the acquisition of reward-related learning. / Thesis (Master, Neuroscience Studies) -- Queen's University, 2008-04-25 13:29:37.857

dopamine

reward

reward-related learning

addiction

conditioned place preference

place conditioning

cAMP

PKA

Epac

intracellular signalling

Sp-cAMPS

8-pCPT

amphetamine

nucleus accumbens

Reversão dos efeitos reforçadores da morfina através do prejuízo da reconsolidação da memória do condicionamento de preferência por local e da sensibilização locomotora

Boos, Flávia Zacouteguy

January 2016

A dependência de drogas é um transtorno multifatorial complexo que se desenvolve em uma minoria de indivíduos que fazem uso dessas substâncias. Memórias associativas entre a droga e o contexto funcionam como gatilho para disparar comportamentos não adaptativos de busca e consumo, além de recaídas após períodos de abstinência. Subjacentes a essas mudanças comportamentais, existem modificações nas subunidades de receptores glutamatérgicos do tipo AMPA em estruturas envolvidas com memória (Hipocampo) e recompensa (Núcleo Accumbens). Por isso, estratégias que enfraqueçam a associação do contexto com a droga e que aprofundem o conhecimento dos circuitos envolvidos nesses comportamentos são de extrema relevância terapêutica. A memória quando evocada pode passar por dois processos pós-evocação: a extinção, em que uma nova memória é formada inibindo uma prévia associação, e a reconsolidação, em que a memória original entra em um estado lábil e suscetível a modificações, em que é possível enfraquecê-la através da inibição de sua reconsolidação. A reconsolidação da memória mostra-se uma estratégica mais eficaz e duradoura em relação à extinção, já que a memória original é modificada. Como modelo animal para o estudo da memória na dependência de drogas, o condicionamento de preferência por local (CPL) é bastante utilizado e sabe-se que é possível enfraquecer a preferência através do bloqueio da reconsolidação. Porém, são escassos os estudos que investigaram a existência da reconsolidação no modelo de sensibilização locomotora, que parece ocorrer, na maioria dos casos, em condição dependente do contexto de aquisição do comportamento, embora existam exemplos que demonstrem sua independência. As questões a serem respondidas neste trabalho são (a) se é possível reverter conjuntamente a preferência por local e a sensibilização locomotora à morfina (5 mg/kg) em ratos Wistar adultos machos, inibindo-se a síntese proteica com cicloheximida (CHX) i.p. logo após uma sessão de reativação contextual da memória no CPL, (b) se a reversão dos comportamentos reflete alterações (já descritas por outros autores) em GluA1, GluA1p (Ser845) e GluA2, no Hipocampo dorsal (HPCd) e no Núcleo Accumbens (NAc), e (c) se o mesmo tratamento em ambas estruturas reverte os dois parâmetros avaliados – comportamental e neuroquímico – de forma diferente ou igual. Nossos resultados mostraram ser possível reverter a preferência por local e a sensibilização locomotora por inibição sistêmica de síntese proteica, e que o condicionamento com exposição à morfina induz alterações nas subunidades analisadas de AMPA, conforme verificado no HPCd e NAc, embora a CHX não tenha produzido um efeito tão bem definido. Os animais que receberam infusões centrais no HPCd e NAc (central) não exibiram preferência por local, nem sensibilização. Em conjunto, nossos resultados mostraram, pela primeira vez em um mesmo desenho experimental, que é possível reverter diferentes aspectos da memória de recompensa (preferência e sensibilização) por meio do bloqueio da reconsolidação. / Drug addiction is a complex and multifactorial disorder that develops in a few people who use these substances. Associative memories between the drug and context of use act as a trigger for maladaptive behavior such as drug seeking and drug use, in addition to relapse after an extended period of withdrawal. Underlying these behavioral changes are modifications in glutamatergic reception (AMPA) in structures involved with memory (Hippocampus) and reward (Nucleus Accumbens). Therefore, strategies that weaken the drug and context association and deepen knowledge of circuits involved in these behaviors are extremely relevant therapeutically. When retrieved, a memory can undergo two distinct processes post-retrieval: extinction, in which a new memory inhibiting a previous association is generated, and reconsolidation, in which the original memory can enter a labile state and is susceptible to modifications, when it can be weakened by inhibition of its reconsolidation. Reconsolidation of memory has been shown to be a more effective and long lasting strategy in relation to extinction, since the original memory is modified. An animal model for studying drug addiction, conditioned place preference (CPP) is largely used and it is well known that it is possible to weaken preference by disrupting reconsolidation. However, there are few studies that investigate the existence of reconsolidation in a locomotor sensitization paradigm, which seems to occur in a condition dependent on context of acquisition, although some works report its independence. The questions answered in this work were (a) if it is possible to reverse both, context preference and locomotor sensitization to morphine (5mg/kg) by protein synthesis inhibition (CHX) after a contextual memory reactivation session in CPP, (b) if the disruption of behaviors reflects a reversal of changes of GluA1, GluA1p (Ser845) e GluA2 in dorsal Hippocampus (dHPC) and Nucleus Accumbens (NAc) and (c) if the same treatment in these structures differentially reverts the two parameters assessed. Our results indicate that it is possible to revert context preference and locomotor sensitization via systemic disruption of protein synthesis and that morphine conditioning induces changes in AMPA subunits in dHPC and NAc, although CHX did not have an evident effect on molecular reversal. Animals cannulated in dHPC and NAc core did not induce preference or sensitization. Taken together, our results demonstrated, for the first time, using the same experimental design that is possible to revert different aspects of reward memory (preference and sensitization) by disrupting the reconsolidation process.

Memória

Hipocampo

Núcleo accumbens

Locomoção

Morfina

Morphine

Conditioned place preference

Locomotor sensitization

Memory

Reconsolidation

Dorsal hippocampus

Nucleus accumbens

Cicloheximide

GluA1

GluA2