Impact of Ghrelin Receptor Antagonism on Nicotine and Cocaine Drug Reactivity in Rats

Clifford, Patrick Shane

03 October 2013

Ghrelin is a 28 amino acid peptide that interacts with ghrelin receptors (GHS-Rs) to modulate brain reinforcement circuits. Systemic ghrelin infusions augment cocaine (COC) stimulated locomotion and conditioned place preference (CPP) in rats, whereas genetic or pharmacological ablation of GHS-Rs has been shown to attenuate the acute locomotor-enhancing effects of nicotine (NIC) and COC, and to blunt the CPP induced by food, alcohol, amphetamine and COC in mice. The stimulant NIC can induce CPP and like COC, repeated administration of NIC induces locomotor sensitization in rats. In experiment 1, we examined the effects of GHS-R antagonism with JMV 2959 on COC-induced locomotion and found that JMV 2959 suppresses COC-induced locomotor sensitization. In experiment 2, we examined the effects of GHS-R antagonism with JMV 2959 on NIC-induced locomotion and found that JMV 2959 suppresses NIC-induced locomotor sensitization. In experiment 3, we examined the effects of GHS-R knockout on COC-induced locomotion and found that animals sustaining GHS-R knockout display a suppression of COC-induced locomotor sensitization. In experiment 4, we examined the effects of GHS-R knockout on COC-induced locomotion and found that animals sustaining GHS-R knockout display a suppression of COC-induced locomotor sensitization. In experiment 5, we examined the effects of JMV 2959 on NIC-enhanced intracranial self-stimulation (ICSS) responding and found that JMV 2959 alone had no effect, but when combined with NIC,JMV 2959 pretreatment reversed the enhancement of responding produced by NIC. In experiment 6, we examined the effects of GHS-R knockout on ICSS responding and found that animals sustaining GHS-R knockout were unable to acquire ICSS at current intensity levels that would support responding by WT animals. It was not until the intensity was ramped up four fold that these knockout rats were able to acquire responding. These results show that antagonism of GHS-Rs diminishes the reinforcing effects of NIC and COC. This provides evidence that antagonists of GHS-Rs could be useful in the treatment of drug addiction, particularly that involving nicotine.

ghrelin

locomotor sensitization

nicotine

cocaine

Adolescent Nicotine Sensitization and Effects of Nicotine on Accumbal Dopamine Release in a Rodent Model of Increased Dopamine D2 Receptor Sensitivity

Perna, Marla K., Brown, Russell W.

01 April 2013

Our laboratory has reported neonatal quinpirole (D2/D3 agonist) treatment to rats increases dopamine D2 receptor sensitivity that persists throughout the animal's lifetime. This model appears to have clinical relevance to schizophrenia, and smoking is common in this population. Male and female Sprague-dawley rats were neonatally treated with quinpirole from postnatal (P) days 1–21. After habituation from P30 to 32, animals were administered saline or nicotine (0.3, 0.5, or 0.7mg/kg free base) every other day from P33 to 49 and locomotor activity was assessed. Generally, animals neonatally treated with quinpirole and administered nicotine during adolescence demonstrated increased behavioral activity and/or sensitization compared to animals neonatally given saline and sensitized to nicotine as well as controls. However, animals neonatally treated with quinpirole and given the 0.7mg/kg dose of nicotine demonstrated elevated activity throughout testing but did not show sensitization, and only mild sex differences were reported. Therefore, microdialysis was performed on male rats sensitized to the 0.5mg/kg dose of nicotine, and results revealed that neonatal quinpirole sensitized dopamine overflow in response to nicotine to 500% above animals neonatally given saline and sensitized to nicotine at peak levels. In addition, neonatal quinpirole increased the accumbal BDNF in response to nicotine compared to all other groups, and nicotine alone also produced significant increases in striatal and accumbal BDNF. This study reveals that neonatal quinpirole enhanced adolescent nicotine sensitization, accumbal dopamine overflow, and BDNF protein in response to nicotine, which may be related to changes in the brain's reward system.

adolescence

dopamine D receptor

locomotor sensitization

microdialysis

nicotine

schizophrenia

Biomedical Sciences

Neurosciences

Substance Abuse and Addiction

Intravenous Prenatal Nicotine Exposure Alters METH-Induced Hyperactivity, Conditioned Hyperactivity, and BDNF in Adult Rat Offspring

Lacy, Ryan T., Brown, Russell. W., Morgan, Amanda J., Mactutus, Charles F., Harrod, Steven B.

01 October 2016

In the USA, approximately 15% of women smoke tobacco cigarettes during pregnancy. In utero tobacco smoke exposure produces somatic growth deficits like intrauterine growth restriction and low birth we

BDNF

conditioned hyperactivity

intravenous exposure

locomotor sensitization

methamphetamine

prenatal nicotine

rat

Biomedical Sciences

Neurosciences

Effects of Cannabidiol on MK-801-Induced Locomotor Sensitization in Mice

Cronin, Sara K.

23 April 2012

Previous research has shown that cannabidiol (CBD), a non-psychoactive compound in the hemp plant Cannabis sativa, may be useful in treating drug craving, one of the hallmarks of drug addiction. However, the neural mechanism by which CBD attenuates craving is poorly understood. Studies from other laboratories have shown that neuroplastic changes associated with brain NMDA glutamate systems may at least partially serve as a neural mechanism for craving. In the current study, the noncompetitive NMDA receptor antagonist MK-801 maleate was used to induce locomotor sensitization, a form of NMDA glutamate-mediated neuroplasticity, in mice to test the sensitization-attenuating potential of CBD. Separate groups of mice (N=8) received either CBD (1.0 mg/kg, i.p.) or saline thirty minutes prior to an intraperitoneal injection of MK-801 (0.5 mg/kg, i.p.) or saline and tested for locomotor performance in an open field (Induction Trial). Seventy-two hours later all mice, regardless of drug pretreatment, were tested for locomotor activity following a second administration (0.5 mg/kg, i.p.) of MK-801 (Sensitization Trial). Results revealed a significant difference across groups for the Induction Trial, with groups receiving SAL-MK801 and CBD-MK801 significantly more active than SAL-SAL and CBD-SAL groups. Pretreatment with CBD had no effect on the locomotor activating effects of MK-801 during the Sensitization Trial with similar levels of locomotor performance across drug groups. Possibilities for the lack of CBD effects are discussed, as well as implications and future research directions.

Behavioral Neurobiology

Cognitive Neuroscience

EFFECTS OF THE ENVIRONMENTAL TOXICANT, PARAQUAT, ON BINGE-LIKE ALCOHOL DRINKING AND ALCOHOL-INDUCED LOCOMOTOR SENSITIZATION IN HIGH AND LOW-ALCOHOL-PREFERRING MICE

Soyol Enkh-Amgalan (13130619)

22 July 2022

<p>Parkinson’s Disease (PD) and Alcohol Use Disorder (AUD) are neurodegenerative conditions that involve similar neurobiological pathways and affect motivation and reward dysregulations. This project aims to explore whether PD-related insults affect alcohol-related motivation and reward. We utilized paraquat (PQ) exposure as a neurotoxicant-induced model for PD and mice selectively bred for a differential in alcohol preference as a model for genetic and neurobiological susceptibility for high/low alcohol consumption. In Experiment 1, binge-like alcohol drinking after three weeks of PQ exposure (10 mg/kg, i.p. once per week) or saline was assessed in HAP male and female mice. The four-day Drinking in the Dark (DID) procedure was used to induce binge-like alcohol drinking. Dorsal (DS) and ventral (VS) striatal catecholamines were analyzed after DID. Overall, PQ-treated HAP males had significantly lower alcohol intake than saline-treated males. This effect was absent in female HAP mice. Catecholamine quantification showed lower DOPAC levels in VS of PQ-treated vs. saline-treated HAP male mice. Experiment 2 assessed alcohol-induced locomotor sensitization in adult male and female high (HAP) and low-alcohol-preferring (LAP) mice after PQ exposure. Following the same 3 weeks of PQ or saline exposure, mice received 6 sensitization induction days with either 3 g/kg i.p. EtOH or saline. On test day, an alcohol challenge dose of 2 g/kg in all mice was used to determine the expression of locomotor sensitization. PQ exposure had no significant effect on locomotor activity and sensitization. However, PQ-treated mice showed great variability in their alcohol-induced locomotor activity compared to other groups. These data suggest a sex difference in PQ’s effect on alcohol binge-like drinking. However, PQ’s effect on alcohol-induced locomotor sensitization is not conclusive. This project will elucidate potential mechanisms behind PD-related neuropsychiatric comorbid conditions like AUD. Such findings may assist in early diagnosis and treatment refinement, as these comorbidities precede the motor manifestation of PD by decades and significantly impact the quality of life.</p>

Behavioural neuroscience

Parkinson's Disease

paraquat

alcohol preference

selectively bred mice

binge-like drinking

locomotor sensitization

dopamine

EFFECTS OF DEVELOPMENTAL LOW-LEVEL LEAD EXPOSURE ON VOLUNTARY ALCOHOL CONSUMPTION AND DRUG-INDUCED BEHAVIORAL SENSITIZATION IN ADULTHOOD

Maribel Hernandez (9706544)

11 January 2021

<p>Lead (Pb) is one of the most harmful and most abundant neurotoxins in the environment. Despite the extensive movement made to eradicate toxic levels of Pb in the environment, children, predominately in lower socioeconomic areas, are still exposed to varying levels of Pb. Human studies suggest that Pb exposure leads to altered drug consumption in adults by altering underlying neural mechanisms, specifically dopamine (DA) activity. However, there is limited research on this at blood Pb levels below 10 μg/dL, levels often seen in children growing up in neighborhoods located in old industrial and urban areas. To model how early-life low-level Pb exposure effects DA-dependent behaviors associated with addiction in adulthood, we used C57BL/6J mice. Litters were weaned at PND 21 and assigned to either a three-week history of 30 parts per million (ppm) Lead (IV) Acetate exposure or a control condition of 0 ppm Pb in DI drinking water. After the Pb exposure period, mice were switched to regular tap water until they reached adulthood. Afterward, separate animals were tested in one of three experiments: two-bottle choice alcohol preference drinking, alcohol-induced behavioral sensitization (EBS), and cocaine-induced behavioral sensitization (CBS). In experiment 1, our hypothesis was met, and both male and female mice with a prior Pb exposure displayed significantly higher alcohol intake and preference scores over the three-week period than control mice. In experiment 2, there were no differences in EBS and no evidence of EBS in any of the groups. However, there was an increased acute response to 2.0 g/kg EtOH in the Pb-exposed chronic group as compared to the control animals. Lastly, in experiment 3, Pb-exposed animals in the chronic cocaine group were more sensitive to the effects of cocaine (10 mg/kg) across days than the controls, both the acute cocaine groups and both saline control groups. Thus, with these experiments, we concluded that low levels of developmental Pb exposure might be targeting DA in the reward pathway, which is essential for alcohol intake and drug sensitization.</p>

Behavioral Neuroscience

Toxicology

Neurosciences not elsewhere classified

Lead exposure

addiction

locomotor sensitization

alcohol

cocaine

two-bottle choice

drinking

USING SHORT-TERM BEHAVIORAL SELECTION TO EVALUATE THE HERITABILITY OF ETHANOL-INDUCED LOCOMOTOR SENSITIZATION AND ITS RELATIONSHIP TO ETHANOL’S POSITIVE MOTIVATIONAL EFFECTS IN MICE

Linsenbardt, David, N.

14 August 2013

Indiana University-Purdue University Indianapolis (IUPUI) / Sensitization to the locomotor stimulant effects of alcohol (ethanol) is thought to be a heritable risk factor for the development of alcoholism that reflects progressive increases in the positive motivational effects of this substance. However, very little is known about the genetic influences involved in this phenomenon or the extent to which ethanol’s positive motivational effects are altered in parallel to its development. The first goal of this work was to determine the heritability of ethanol-induced locomotor sensitization in mice using short-term behavioral selection. Genetically heterogeneous C57BL/6J (B6) x DBA/2J (D2) F2 mice were generated from B6D2F1 progenitors, phenotyped for the expression of locomotor sensitization, and bred for high (HLS) and low (LLS) expression of this behavior. A secondary goal was to characterize possible line differences in ethanol’s positive motivational effects using a conditioned place preference assay. There were large and significant differences in locomotor sensitization between HLS and LLS lines by the fourth generation. Twenty-two percent of the observed line difference(s) were attributable to genes (h2=.22). However, there were no significant differences in conditioned place preference between lines despite significant line differences in ethanol-stimulated locomotion following repeated exposures. The results of this work have several implications. First, that changes in ethanol sensitivity following repeated exposures are in part genetically regulated highlights the relevance of studies aimed at determining how genes regulate susceptibility to ethanol-induced behavioral and neural adaptations. Additionally, the lack of line differences in ethanol-induced CPP, and the observation that CPP and ethanol sensitization are dissociable, suggests that 1) different genes regulate these two behaviors and 2) the utility of locomotor sensitization as a model of alterations in ethanol’s positive motivational effects is, at best, still unclear. Together these studies provide evidence that genes are capable of regulating alterations in ethanol-induced locomotor behavior but provide little support for ethanol-induced locomotor sensitization as a model for increases in ethanol’s positive subjective effects in mice.

alcohol; locomotor sensitization; mouse

Ethanol

Mice -- Physiology

Mice -- Behavior

Animal behavior genetics

Mice -- Locomotion

Neuropharmacology

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

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

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