Erasing Fear : Effect of Disrupting Fear Memory Reconsolidation on Central and Peripheral Nervous System Activity

Ågren, Thomas

January 2012

Fear memories, here defined as learned associations between a stimulus and a physiological fear reaction, are formed through fear conditioning. In animals, fear memories, present in the lateral amygdala, undergo reconsolidation after recall. Moreover, this reconsolidation process can be disrupted both pharmacologically and behaviourally, resulting in a reduced fear response to the stimulus. This thesis examines the attenuation of fear memories by disrupting reconsolidation in humans, using measures of both the central and peripheral nervous system activity. Serotonergic and dopaminergic genes have previously been tied to both fear conditioning and anxiety disorders, where fear conditioning mechanisms are important. In order to evaluate the possible role of fear memory reconsolidation mechanims in the effect on fear and anxiety by these genes, this thesis also compare the reconsolidation disruption effect between different serotonergic and dopaminergic genotypes. Study I examined the attentuation of fear memories by disrupting reconsolidation in humans using reacquisition as a measure of the return of fear. Moreover, study I investigated the impact of differences in serotonergic and dopaminergic alleles on this process. Study II examined the attentuation of fear memories by disrupting reconsolidation in humans using reinstatement as a measure of the return of fear. Study II also investigated the impact of differences in serotonergic and dopaminergic alleles on the process of fear memory reconsolidation. Study III used psychophysiology and fMRI to localize the functional neural activity mediating the fear memory reconsolidation disruption effect. In summary, this thesis provides evidence that fear memories are attenuated by reconsolidation disruption in humans and that serotonergic and dopaminergic alleles influence this process. Moreover, this thesis support that human fear memory reconsolidation is amygdala-dependent, suggesting an evolutionary shared memory mechanism.

Papel de mTOR na formação e reconsolidação da memória

Jobim, Paulo Fernandes Costa

January 2011

Novas informações assimiladas pelo sistema nervoso primeiramente ficam em um estado de labilidade para depois se estabilizarem através de um processo conhecido como consolidação, que envolve síntese de proteínas. Depois da reativação, uma memória previamente consolidada retorna ao seu estado de labilidade, e para que volte a ser estável, é necessário que haja novamente síntese de proteínas. Este segundo processo é chamado de reconsolidação. Recentemente os mecanismos moleculares e celulares envolvidos na regulação da síntese protéica relacionados à formação de memória de longa duração vêm sendo esclarecidos. A proteína alvo da rapamicina em mamíferos (mTOR) modula a plasticidade sináptica pela regulação da fosforilação de dois alvos: a proteína ribossomal S6K e a proteína de ligação 4E. A amígdala basolateral e o hipocampo dorsal são parte integrante do sistema neural envolvido na formação e expressão de diversos tipos de memórias. Estudos indicam que a via de sinalização da mTOR no hipocampo tem um papel importante na consolidação da memória de ratos submetidos a tarefa de esquiva inibitória e reconhecimento de objetos e na reconsolidação da memória de medo contextual condicionado. Contudo, estudos anteriores não avaliaram o efeito da inibição de mTOR amigdalar sobre a memória de esquiva inibitória e reconhecimento de objetos. O objetivo do presente trabalho é investigar o efeito da inibição de mTOR na amígdala basolateral por rapamicina na consolidação e reconsolidação da memória de esquiva inibitória e reconhecimento de objetos e comparar estes resultados com a inibição de mTOR no hipocampo. Ratos Wistar machos foram submetidos à cirurgia estereotáxica para implantação de cânulas na amígdala basolateral e hipocampo dorsal. Os animais foram submetidos à tarefa de esquiva inibitória, um modelo animal de memória de caráter aversivo, e a tarefa de reconhecimento de objetos, um modelo animal de memória de caráter pouco aversivo. Para investigar o efeito da inibição de mTOR na consolidação e reconsolidação da memória, os animais receberam microinfusões de rapamicina intra-amigdalar e intra-hipocampal em diferentes tempos em torno do treino e do teste. Nós demonstramos que a via de sinalização de mTOR na amígdala basolateral é necessária para consolidação da memória de esquiva inibitória e de reconhecimento de objetos. Nós também mostramos que a reativação torna a memória novamente suscetível e sensível à inibição de mTOR por rapamicina. / Memory formation requires protein synthesis, but only recently the cellular and molecular mechanisms involved in the regulation of protein synthesis related to the formation of long term memory has been elucidated. During memory formation, new information is acquired by the central nervous system as an initially fragile trace that over time becomes stable through a process known as consolidation. After reactivation, previously consolidated memories might return to a labile state, requiring a new round of protein synthesis to be restabilized. This second process is called reconsolidation. The basolateral amygdala and dorsal hippocampus are part of the neural systems involved in the formation and expression of several types of memory. One key regulator of protein synthesis is mTOR, a protein critical for different forms of synaptic plasticity by regulation of two targets: S6K and 4EBP. Evidence indicates that the mTOR signaling pathway in hippocampus has an important role in consolidation in rats of inhibitory avoidance and object recognition in rats, as well as in reconsolidation of contextual fear conditioning. However, previous studies have not examinated the effect of amygdalar mTOR inhibition on reconsolidation of inhibitory avoidance and object recognition. The aim of the present study was to evaluate the effect of amygdalar mTOR inhibition by rapamycin on consolidation and reconsolidation of inhibitory avoidance and object recognition, and compare the results with those obtained with hippocampal mTOR inhibition. Male rats Wistar underwent stereotaxic surgeries for cannulae implantation above the basolateral amygdala or dorsal hippocampus. After recovery, the animals were trained in inhibitory avoidance, an aversive memory task, or object recognition, a less aversive task. To investigate the effect of mTOR inhibition on memory consolidation and reconsolidation, we administered rapamycin, a specific mTOR inhibitor, into the basolateral amygdala or the dorsal hippocampus before or after training or reactivation. Our results provide evidence that mTOR in the basolateral amygdala and hippocampus might play a role in inhibitory avoidance and object recognition memory formation and reconsolidation.

Memória

Serina-treonina quinases TOR

Reconsolidation

Consolidation

mTOR

Protein synthesis

Aversive memory

Recognition memory

Papel de mTOR na formação e reconsolidação da memória

Jobim, Paulo Fernandes Costa

January 2011

Novas informações assimiladas pelo sistema nervoso primeiramente ficam em um estado de labilidade para depois se estabilizarem através de um processo conhecido como consolidação, que envolve síntese de proteínas. Depois da reativação, uma memória previamente consolidada retorna ao seu estado de labilidade, e para que volte a ser estável, é necessário que haja novamente síntese de proteínas. Este segundo processo é chamado de reconsolidação. Recentemente os mecanismos moleculares e celulares envolvidos na regulação da síntese protéica relacionados à formação de memória de longa duração vêm sendo esclarecidos. A proteína alvo da rapamicina em mamíferos (mTOR) modula a plasticidade sináptica pela regulação da fosforilação de dois alvos: a proteína ribossomal S6K e a proteína de ligação 4E. A amígdala basolateral e o hipocampo dorsal são parte integrante do sistema neural envolvido na formação e expressão de diversos tipos de memórias. Estudos indicam que a via de sinalização da mTOR no hipocampo tem um papel importante na consolidação da memória de ratos submetidos a tarefa de esquiva inibitória e reconhecimento de objetos e na reconsolidação da memória de medo contextual condicionado. Contudo, estudos anteriores não avaliaram o efeito da inibição de mTOR amigdalar sobre a memória de esquiva inibitória e reconhecimento de objetos. O objetivo do presente trabalho é investigar o efeito da inibição de mTOR na amígdala basolateral por rapamicina na consolidação e reconsolidação da memória de esquiva inibitória e reconhecimento de objetos e comparar estes resultados com a inibição de mTOR no hipocampo. Ratos Wistar machos foram submetidos à cirurgia estereotáxica para implantação de cânulas na amígdala basolateral e hipocampo dorsal. Os animais foram submetidos à tarefa de esquiva inibitória, um modelo animal de memória de caráter aversivo, e a tarefa de reconhecimento de objetos, um modelo animal de memória de caráter pouco aversivo. Para investigar o efeito da inibição de mTOR na consolidação e reconsolidação da memória, os animais receberam microinfusões de rapamicina intra-amigdalar e intra-hipocampal em diferentes tempos em torno do treino e do teste. Nós demonstramos que a via de sinalização de mTOR na amígdala basolateral é necessária para consolidação da memória de esquiva inibitória e de reconhecimento de objetos. Nós também mostramos que a reativação torna a memória novamente suscetível e sensível à inibição de mTOR por rapamicina. / Memory formation requires protein synthesis, but only recently the cellular and molecular mechanisms involved in the regulation of protein synthesis related to the formation of long term memory has been elucidated. During memory formation, new information is acquired by the central nervous system as an initially fragile trace that over time becomes stable through a process known as consolidation. After reactivation, previously consolidated memories might return to a labile state, requiring a new round of protein synthesis to be restabilized. This second process is called reconsolidation. The basolateral amygdala and dorsal hippocampus are part of the neural systems involved in the formation and expression of several types of memory. One key regulator of protein synthesis is mTOR, a protein critical for different forms of synaptic plasticity by regulation of two targets: S6K and 4EBP. Evidence indicates that the mTOR signaling pathway in hippocampus has an important role in consolidation in rats of inhibitory avoidance and object recognition in rats, as well as in reconsolidation of contextual fear conditioning. However, previous studies have not examinated the effect of amygdalar mTOR inhibition on reconsolidation of inhibitory avoidance and object recognition. The aim of the present study was to evaluate the effect of amygdalar mTOR inhibition by rapamycin on consolidation and reconsolidation of inhibitory avoidance and object recognition, and compare the results with those obtained with hippocampal mTOR inhibition. Male rats Wistar underwent stereotaxic surgeries for cannulae implantation above the basolateral amygdala or dorsal hippocampus. After recovery, the animals were trained in inhibitory avoidance, an aversive memory task, or object recognition, a less aversive task. To investigate the effect of mTOR inhibition on memory consolidation and reconsolidation, we administered rapamycin, a specific mTOR inhibitor, into the basolateral amygdala or the dorsal hippocampus before or after training or reactivation. Our results provide evidence that mTOR in the basolateral amygdala and hippocampus might play a role in inhibitory avoidance and object recognition memory formation and reconsolidation.

Memória

Serina-treonina quinases TOR

Reconsolidation

Consolidation

mTOR

Protein synthesis

Aversive memory

Recognition memory

Papel de mTOR na formação e reconsolidação da memória

Jobim, Paulo Fernandes Costa

January 2011

Novas informações assimiladas pelo sistema nervoso primeiramente ficam em um estado de labilidade para depois se estabilizarem através de um processo conhecido como consolidação, que envolve síntese de proteínas. Depois da reativação, uma memória previamente consolidada retorna ao seu estado de labilidade, e para que volte a ser estável, é necessário que haja novamente síntese de proteínas. Este segundo processo é chamado de reconsolidação. Recentemente os mecanismos moleculares e celulares envolvidos na regulação da síntese protéica relacionados à formação de memória de longa duração vêm sendo esclarecidos. A proteína alvo da rapamicina em mamíferos (mTOR) modula a plasticidade sináptica pela regulação da fosforilação de dois alvos: a proteína ribossomal S6K e a proteína de ligação 4E. A amígdala basolateral e o hipocampo dorsal são parte integrante do sistema neural envolvido na formação e expressão de diversos tipos de memórias. Estudos indicam que a via de sinalização da mTOR no hipocampo tem um papel importante na consolidação da memória de ratos submetidos a tarefa de esquiva inibitória e reconhecimento de objetos e na reconsolidação da memória de medo contextual condicionado. Contudo, estudos anteriores não avaliaram o efeito da inibição de mTOR amigdalar sobre a memória de esquiva inibitória e reconhecimento de objetos. O objetivo do presente trabalho é investigar o efeito da inibição de mTOR na amígdala basolateral por rapamicina na consolidação e reconsolidação da memória de esquiva inibitória e reconhecimento de objetos e comparar estes resultados com a inibição de mTOR no hipocampo. Ratos Wistar machos foram submetidos à cirurgia estereotáxica para implantação de cânulas na amígdala basolateral e hipocampo dorsal. Os animais foram submetidos à tarefa de esquiva inibitória, um modelo animal de memória de caráter aversivo, e a tarefa de reconhecimento de objetos, um modelo animal de memória de caráter pouco aversivo. Para investigar o efeito da inibição de mTOR na consolidação e reconsolidação da memória, os animais receberam microinfusões de rapamicina intra-amigdalar e intra-hipocampal em diferentes tempos em torno do treino e do teste. Nós demonstramos que a via de sinalização de mTOR na amígdala basolateral é necessária para consolidação da memória de esquiva inibitória e de reconhecimento de objetos. Nós também mostramos que a reativação torna a memória novamente suscetível e sensível à inibição de mTOR por rapamicina. / Memory formation requires protein synthesis, but only recently the cellular and molecular mechanisms involved in the regulation of protein synthesis related to the formation of long term memory has been elucidated. During memory formation, new information is acquired by the central nervous system as an initially fragile trace that over time becomes stable through a process known as consolidation. After reactivation, previously consolidated memories might return to a labile state, requiring a new round of protein synthesis to be restabilized. This second process is called reconsolidation. The basolateral amygdala and dorsal hippocampus are part of the neural systems involved in the formation and expression of several types of memory. One key regulator of protein synthesis is mTOR, a protein critical for different forms of synaptic plasticity by regulation of two targets: S6K and 4EBP. Evidence indicates that the mTOR signaling pathway in hippocampus has an important role in consolidation in rats of inhibitory avoidance and object recognition in rats, as well as in reconsolidation of contextual fear conditioning. However, previous studies have not examinated the effect of amygdalar mTOR inhibition on reconsolidation of inhibitory avoidance and object recognition. The aim of the present study was to evaluate the effect of amygdalar mTOR inhibition by rapamycin on consolidation and reconsolidation of inhibitory avoidance and object recognition, and compare the results with those obtained with hippocampal mTOR inhibition. Male rats Wistar underwent stereotaxic surgeries for cannulae implantation above the basolateral amygdala or dorsal hippocampus. After recovery, the animals were trained in inhibitory avoidance, an aversive memory task, or object recognition, a less aversive task. To investigate the effect of mTOR inhibition on memory consolidation and reconsolidation, we administered rapamycin, a specific mTOR inhibitor, into the basolateral amygdala or the dorsal hippocampus before or after training or reactivation. Our results provide evidence that mTOR in the basolateral amygdala and hippocampus might play a role in inhibitory avoidance and object recognition memory formation and reconsolidation.

Memória

Serina-treonina quinases TOR

Reconsolidation

Consolidation

mTOR

Protein synthesis

Aversive memory

Recognition memory

The effect of interference on reactivation of spatial memories in reconsolidation model by using an innovative experimental paradigm in healthy young adults at the behavioral level

Farrahi Moghaddam, Jeiran

04 1900

No description available.

Reconsolidation

Recognition

Mémoire déclarative

Interférence

Declarative memory

Interference

Optogenetic Manipulation of the Prelimbic Cortex During Fear Memory Reconsolidation Alters Fear Extinction in a Preclinical Model of Comorbid Ptsd/Aud

Smiley, C. E., McGonigal, J. T., Nimchuk, K. E., Gass, J. T.

01 January 2021

Rationale and objective: Post-traumatic stress disorder (PTSD) and alcohol use disorder (AUD) are disorders of learning and memory that often occur comorbidly. Exposure to trauma-related cues can increase alcohol intake in PTSD patients that are using alcohol to self-medicate. The recurrence of anxiety symptoms with subsequent alcohol use may initiate a destructive cycle where stress and alcohol exposure impair the function of the prefrontal cortex (PFC). While the incidence of these disorders has steadily increased, current therapies and treatments often lack efficacy. Thus, investigation into the underlying neurocircuitry responsible for the establishment and maintenance of these disorders is necessary to develop novel treatment targets. Methods: The present study examined the effects of ethanol exposure on the ability to create new learned associations around previously conditioned fear cues in a rat model. Animals were exposed to fear conditioning followed by chronic intermittent ethanol to translationally model trauma exposure followed by alcohol abuse. Optogenetics was used to inhibit the prelimbic (PrL) or infralimbic (IfL) cortex during fear memory reconsolidation, and fear behaviors were measured during subsequent extinction and spontaneous recovery tests. Results and conclusion Chronic ethanol exposure led to deficits in fear extinction learning and increased freezing during spontaneous recovery, both of which were prevented following inhibition of the PrL, but not the IfL, during memory reconsolidation. These results support the involvement of the PrL in fear learning and memory, and strongly suggest that the PrL could serve as a potential target for the treatment of the learning and memory deficits that occur following exposure to stress and alcohol.

alcohol use disorder

memory reconsolidation

optogenetics

post-traumatic stress disorder

prefrontal cortex

treatment

Biomedical Sciences

The Role of Prediction Error in the Reconsolidation of Contextual Fear Memory

Pierson, Jamie L.

26 July 2019

No description available.

Neurosciences

Psychology

Reconsolidation

Fear

Contextual Fear

Context, Rat

Orbitofronal Cortex

Amygdala

Posterior parietal cortx

Retrograde amnesia and reconsolidation of a context-no US association

Barnes, Gary W.

20 July 2011

No description available.

Experimental Psychology

Neurosciences

Physiological Psychology

Psychobiology

Psychology

memory

learning

amnesia

reconsolidation, conditioning

latent inhibition

NMDA and dopaminergic contributions to context fear memory reconsolidation

Kochli, Daniel Edward

24 July 2017

No description available.

Neurosciences

Psychology

Behavioral Sciences

Behavioral Psychology

reconsolidation

NMDA

dopamine

protein synthesis

prediction error

rat

memory

fear

Mécanismes de plasticité synaptique dans l’amygdale lors de la réactivation de la mémoire de peur auditive chez le rat : interaction dynamique des récepteurs NMDA et AMPA

Ben Mamou, Cyrinne

07 1900

La plasticité synaptique est une propriété indispensable à l’acquisition de la mémoire chez toutes les espèces étudiées, des invertébrés aux primates. La formation d’une mémoire débute par une phase de plasticité qui inclut une restructuration synaptique ; ensuite elle se poursuit par la consolidation de ces modifications, contribuant à la mémoire à long terme. Certaines mémoires redeviennent malléables lorsqu’elles sont rappelées. La trace mnésique entre alors dans une nouvelle de phase de plasticité, au cours de laquelle certaines composantes de la mémoire peuvent être mises à jour, puis reconsolidées. L’objectif de la présente thèse est d’étudier les mécanismes cellulaires et moléculaires qui sont activés lors du rappel d’une mémoire. Nous avons utilisé un modèle de conditionnement Pavlovien, combiné à l’administration d’agents pharmacologiques et à l’analyse quantitative de marqueurs de plasticité synaptique, afin d’étudier la dynamique de la mémoire de peur auditive chez des rats Sprague Dawley. La circuiterie neuronale et les mécanismes associatifs impliqués dans la neurobiologie de cette mémoire sont bien caractérisés, en particulier le rôle des récepteurs glutamatergiques de type NMDA et AMPA dans la plasticité synaptique et la consolidation. Nos résultats démontrent que le retour de la trace mnésique à un état de labilité nécessite l’activation des récepteurs NMDA dans l’amygdale baso-latérale à l’instant même du rappel, alors que les récepteurs AMPA sont requis pour l’expression comportementale de la réponse de peur conditionnée. D’autre part, les résultats identifient le rappel comme une phase bien plus dynamique que présumée, et suggèrent que l’expression de la peur conditionnée mette en jeu la régulation du trafic des récepteurs AMPA par les récepteurs NMDA. Le présent travail espère contribuer à la compréhension de la neurobiologie fondamentale de la mémoire. De plus, il propose une intégration des résultats aux modèles animaux d’étude des troubles psychologiques conséquents aux mémoires traumatiques chez l’humain, tels que les phobies et les syndromes de stress post-traumatiques. / Synaptic plasticity is necessary for the acquisition of memory in all studied species, from invertebrates to primates. Memory formation starts with a phase of plasticity that entails synaptic remodeling ; then follows the consolidation of these modifications, which contributes to long-term memory. Some memories return to a malleable state upon retrieval. Consequently, the memory trace enters a new phase of plasticity, during which some memory components are eventually updated, then reconsolidated. The aim of the present thesis was to study the cellular and molecular mechanisms that are engaged during memory retrieval. We used a model of Pavlovian conditioning in Sprague Dawley rats, combined to pharmacological manipulations and quantitative analysis of synaptic plasticity markers, in order to study the dynamics of auditory fear memory. The neuronal circuitry and the associative mechanisms involved in the neurobiology of this memory are well characterized, in particular the role of NMDA and AMPA glutamatergic receptors in synaptic plasticity and consolidation. Our results show that the return of the memory trace to lability requires activation of NMDA receptors in the basolateral amygdala during retrieval, whereas AMPA receptors are necessary for the behavioral expression of the conditioned fear response. Furthermore, the data identify retrieval as being much more dynamic than recognized, and suggest that conditioned fear expression involves NMDA receptor-dependent regulation of AMPA receptors’ trafficking. The present work attempts to advance our understanding of the fundamental neurobiology of memory. In addition, it offers an integrative view of the data with regards to animal modeling of human clinical issues related to traumatic memories, like phobias and post-traumatic stress disorders.

Conditionnement Pavlovien

Mémoire émotionnelle

Apprentissage associatif

Rappel

Reconsolidation

Amnésie

Anisomycine

Trafic de récepteurs

Pavlovian conditioning

Emotional memory

Associative learning

Retrieval

Reconsolidation

Amnesia

Anisomycin

Receptor trafficking