Distribuição da proteína Fos no lobo temporal medial de ratos Wistar durante o medo condicionado ao contexto, luz e som / Fos distribution in the medial temporal lobe during context-, auditory- and light-cued conditioned fear in Wistar rats.

Onusic, Gustavo Massaro

26 November 2010

No condicionamento clássico de medo, os animais são treinados associando-se um estímulo neutro, por exemplo, som, contexto ou luz a um estímulo aversivo incondicionado, como um choque elétrico nas patas. Apos repetidos pareamentos, a presença do estímulo que inicialmente era neutro passa a eliciar uma resposta condicionada de medo no animal. O congelamento é a resposta mais proeminente dos animais expostos aos estímulos condicionados previamente pareados com choques nas patas, sendo freqüentemente utilizado como medida de medo condicionado (MC). Circuitos cerebrais independentes subjacentes a diferentes formas de memória, e, dentro de um determinado domínio de memória, o envolvimento de estruturas específicas pode depender do tipo de condicionamento se utilizando contexto ou explícito tais sinais leves ou som. Diversos relatos clínicos têm implicado o prejuízo do lobo temporal medial (LTM) com amnésia retrógrada. Embora muito tenha sido feito para desvendar os circuitos neurais subjacentes ao medo condicionado, utilizando contexto, som ou luz como estímulo condicionado (EC) o envolvimento do LTM nessas formas de condicionamento ainda não está claro. Para abordar esta questão foi avaliada a distribuição de Fos no LTM de ratos após a exposição a um contexto, um som ou luz, previamente emparelhado com choques nas patas. Vinte e quatro horas após as sessões de condicionamento, os animais foram colocados na mesma caixa experimental ou a um contexto distinto ou foram expostos ao som e luz sem receber choques nas patas. Diferença significativa na expressão de Fos foi determinada por análise de regiões do lobo temporal medial (córtex ectorrinal, perirrinal e entorrinal) e do hipocampo ventral. Os resultados comportamentais mostraram que houve congelamento nos três tipos de medo condicionado, mas o padrão de distribuição Fos foi diferente em ratos expostos a estímulos específicos ou contexto previamente emparelhado com choques nas patas. Apesar da saliente aquisição da resposta do medo se simular nas três condições, o achado mais saliente foi uma distribuição selectiva de Fos no córtex ectorrinal, perirrinal e entorrinal do grupo. Surpreendentemente, esses animais não mostraram significativa expressão Fos no hipocampo ventral. Isto sugere que o contexto e estímulos aversivos explícitos apresentam propriedades distintas de mapeamento ao de distribuição de Fos no circuito cortico-hipocampal cerebral. Estes resultados indicam que regiões corticais no LTM parecem ser críticas no armazenamento de informações contextuais, mas não de informações associadas a estímulos explícitos previamente pareados a choques nas patas. / Conditioned fear (CF) is one of the most frequently used animal models of associative memory to background or foreground stimuli. Independent brain circuits underlie different forms of memory, and, within a particular memory domain, the involvement of specific structures may depend upon the type of conditioning whether using context or explicit cues such light or tone. Several clinical reports have implicated the damage to the medial temporal lobe (MTL) with retrograde amnesia. Although much has been done to disclose the neural circuits underlying CF using context, tone or light as conditioned stimuli (CS) the involvemet of the MTL in these forms of conditioning is still unclear. To address this issue we assessed the Fos distribution in the MTL of rats following exposure to a context, a tone or a light previously paired with footshocks. Twenty-four hours later the conditioning sessions they were placed to the same chamber or to a distinct context and presented with tone or light only without any footshocks. Significant group differences in regional Fos expression were determined by analysis in regions of the medial temporal lobe (ectorhinal, perirhinal and entorhinal cortices) and the ventral hippocampus. The behavioral results showed comparable freezing in the three types of CF but the pattern of Fos distribution was distinct in rats exposed to specific cues or context previously paired with footshocks. Despite comparable acquisition of the conditioned fear response, the most remarkable finding was a selective distribution of Fos in the entorhinal, perirhinal and ectorhinal cortices of the MTL for context-CS groups. Remarkably, these animals did not show significant Fos expression in the ventral hippocampus. It is suggested that context and explicit stimuli endowed with aversive properties through conditioning cause distinct Fos brain mapping in the corticohippocampal circuitry. These results indicate that tasks requiring the association between context and an aversive stimulus depend on subregions of the MTL. Such findings suggested that cortical regions of the MTL appears to be critical for storing context but not explicit cue footshock associations.

Córtex ectorrinal

Córtex entorrinal

Córtex perirrinal

ectorhinal cortex

Expressão Fos

Fear conditioning

Fos expression

Lobo temporal medial

medial temporal cortex

Medo condicionado

perirhinal cortex and entorhinal cortex.

SELEGILINA REVERTE A PIORA DA MEMÓRIA INUZIDA POR Aβ25-35 EM CAMUNDONGOS: ENVOLVIMENTO DA ATIVIDADE DA MAO-B / SELEGILINE REVERSES Aβ25-35-INDUCED MEMORY DEFICITS IN MICE: INVOLVMENT OF MAO-B ACTIVITY

Pazini, Andreia Martini

28 February 2013

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Alzheimer s disease (AD) is biochemically characterized by the occurrence of extracellular deposits of amyloid beta peptide (Aβ) and intracellular deposits of the hyperphosphorylated tau protein, which are causally related to the pathological hallmarks senile plaques and neurofibrillary tangles. Monoamine oxidase B (MAO-B) activity, an enzyme involved in the oxidation of biogenic monoamines, is particularly high around the senile plaques and increased in AD patients in middle to late clinical stages of the disease. Selegiline, a selective and irreversible MAO-B inhibitor, improves learning and memory in AD patients. Notwithstanding, its mechanism of action is still not completely known. The current study aimed to investigate whether selegiline improves the Aβ25-35 induced cognitive deficit in the object recognition task in mice. In addition, we investigated whether selegiline alters MAO-B and MAO-A activities in the hippocampus, perirhinal and remaining cerebral cortices of Aβ25-35-injected mice. Acute (1 and 10 mg/kg, p.o., immediately post-training) and subchronic (10 mg/kg, p.o., seven days after Aβ25-35 injection and immediately post-training) administration of selegiline reversed the cognitive impairment induced by Aβ25-35 (3 nmol, i.c.v.). Acute administration of selegiline (1 mg/kg, p.o.) in combination with Aβ25-35 (3 nmol) decreased MAO-B activity in the perirhinal and remaining cerebral cortices. Acute administration of selegiline (10 mg/kg, p.o.) decreased MAO-B activity in hippocampus, perirhinal and remaining cerebral cortices, regardless of Aβ25-35 or Aβ35-25 treatment. MAO-A activity was not altered by selegiline or Aβ25-35. In summary, the current findings further support a role for MAO-B in the cognitive deficits observed in AD. / A doença de Alzheimer (DA) é bioquimicamente caracterizada por depósitos extracelulares de peptídeo beta amiloide (Aβ) e de proteína tau hiperfosforilada, que são causalmente relacionadas com as características patológicas, placas neuríticas e emaranhados neurofibrilares. A atividade da monoamina oxidase B (MAO-B), uma enzima envolvida na oxidação de monoaminas biogênicas, é particularmente elevada ao redor das placas senis e aumenta nos pacientes com DA em estágios clínicos de moderado a grave. A selegilina, um inibidor seletivo e irreversível da MAO-B, é relatada por melhorar a memória e o aprendizado em pacientes com DA. Porém, seu mecanismo de ação ainda não é completamente conhecido. O presente estudo teve como objetivo investigar se a selegilina melhora o déficit cognitivo induzido por Aβ25-35. na tarefa de reconhecimento de objetos em camundongos. Além disso, investigou-se a atividade da MAO-A e da MAO-B no hipocampo, no córtex cerebral e no córtex perirrinal de camundongos injetados com Aβ25-35 e com selegilina. Administração aguda (1 e 10 mg/kg, p.o., imediatamente pós-treino) e subcrônica (10 mg/kg, p.o., por sete dias depois da injeção do Aβ25-35 e imediatamente pós-treino) de selegilina preveniu o prejuízo da memória induzido pelo Aβ25-35 (3 nmol, icv). A administração aguda de selegilina (1 mg/kg, p.o.) em combinação com Aβ25-35 (3 nmol) diminuiu a atividade da MAO-B no córtex perirrinal e córtex cerebral. A administração aguda de selegilina (10 mg/kg, p.o.) diminuiu a atividade da MAO-B no hipocampo, no córtex cerebral e no córtex perirrinal independentemente da presença de Aβ25-35. A atividade da MAO-A não foi alterada pelo tratamento com selegilina ou Aβ25-35 em nenhuma das estruturas estudadas. Em resumo, os dados atuais suportam um papel adicional para a MAO-B no déficit cognitivo observado na DA.

Doença de Alzheimer

Inibidores da MAO

MAO-B

Córtex Perirrinal

Memória de Reconhecimento de Objetos

Alzheimer s Disease

MAO Inhibitors

MAO-B

Perirhinal Cortex

Memory

Object Recognition

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Distribuição da proteína Fos no lobo temporal medial de ratos Wistar durante o medo condicionado ao contexto, luz e som / Fos distribution in the medial temporal lobe during context-, auditory- and light-cued conditioned fear in Wistar rats.

Gustavo Massaro Onusic

26 November 2010

No condicionamento clássico de medo, os animais são treinados associando-se um estímulo neutro, por exemplo, som, contexto ou luz a um estímulo aversivo incondicionado, como um choque elétrico nas patas. Apos repetidos pareamentos, a presença do estímulo que inicialmente era neutro passa a eliciar uma resposta condicionada de medo no animal. O congelamento é a resposta mais proeminente dos animais expostos aos estímulos condicionados previamente pareados com choques nas patas, sendo freqüentemente utilizado como medida de medo condicionado (MC). Circuitos cerebrais independentes subjacentes a diferentes formas de memória, e, dentro de um determinado domínio de memória, o envolvimento de estruturas específicas pode depender do tipo de condicionamento se utilizando contexto ou explícito tais sinais leves ou som. Diversos relatos clínicos têm implicado o prejuízo do lobo temporal medial (LTM) com amnésia retrógrada. Embora muito tenha sido feito para desvendar os circuitos neurais subjacentes ao medo condicionado, utilizando contexto, som ou luz como estímulo condicionado (EC) o envolvimento do LTM nessas formas de condicionamento ainda não está claro. Para abordar esta questão foi avaliada a distribuição de Fos no LTM de ratos após a exposição a um contexto, um som ou luz, previamente emparelhado com choques nas patas. Vinte e quatro horas após as sessões de condicionamento, os animais foram colocados na mesma caixa experimental ou a um contexto distinto ou foram expostos ao som e luz sem receber choques nas patas. Diferença significativa na expressão de Fos foi determinada por análise de regiões do lobo temporal medial (córtex ectorrinal, perirrinal e entorrinal) e do hipocampo ventral. Os resultados comportamentais mostraram que houve congelamento nos três tipos de medo condicionado, mas o padrão de distribuição Fos foi diferente em ratos expostos a estímulos específicos ou contexto previamente emparelhado com choques nas patas. Apesar da saliente aquisição da resposta do medo se simular nas três condições, o achado mais saliente foi uma distribuição selectiva de Fos no córtex ectorrinal, perirrinal e entorrinal do grupo. Surpreendentemente, esses animais não mostraram significativa expressão Fos no hipocampo ventral. Isto sugere que o contexto e estímulos aversivos explícitos apresentam propriedades distintas de mapeamento ao de distribuição de Fos no circuito cortico-hipocampal cerebral. Estes resultados indicam que regiões corticais no LTM parecem ser críticas no armazenamento de informações contextuais, mas não de informações associadas a estímulos explícitos previamente pareados a choques nas patas. / Conditioned fear (CF) is one of the most frequently used animal models of associative memory to background or foreground stimuli. Independent brain circuits underlie different forms of memory, and, within a particular memory domain, the involvement of specific structures may depend upon the type of conditioning whether using context or explicit cues such light or tone. Several clinical reports have implicated the damage to the medial temporal lobe (MTL) with retrograde amnesia. Although much has been done to disclose the neural circuits underlying CF using context, tone or light as conditioned stimuli (CS) the involvemet of the MTL in these forms of conditioning is still unclear. To address this issue we assessed the Fos distribution in the MTL of rats following exposure to a context, a tone or a light previously paired with footshocks. Twenty-four hours later the conditioning sessions they were placed to the same chamber or to a distinct context and presented with tone or light only without any footshocks. Significant group differences in regional Fos expression were determined by analysis in regions of the medial temporal lobe (ectorhinal, perirhinal and entorhinal cortices) and the ventral hippocampus. The behavioral results showed comparable freezing in the three types of CF but the pattern of Fos distribution was distinct in rats exposed to specific cues or context previously paired with footshocks. Despite comparable acquisition of the conditioned fear response, the most remarkable finding was a selective distribution of Fos in the entorhinal, perirhinal and ectorhinal cortices of the MTL for context-CS groups. Remarkably, these animals did not show significant Fos expression in the ventral hippocampus. It is suggested that context and explicit stimuli endowed with aversive properties through conditioning cause distinct Fos brain mapping in the corticohippocampal circuitry. These results indicate that tasks requiring the association between context and an aversive stimulus depend on subregions of the MTL. Such findings suggested that cortical regions of the MTL appears to be critical for storing context but not explicit cue footshock associations.

Córtex ectorrinal

Córtex entorrinal

Córtex perirrinal

Expressão Fos

Lobo temporal medial

Medo condicionado

ectorhinal cortex

Fear conditioning

Fos expression

medial temporal cortex

perirhinal cortex and entorhinal cortex.

Exploring the processes of recollection using eye tracking and parametric fMRI

Couch, Thomas

January 2012

Recollection, the process by which an item provokes the retrieval of associated information stored in the brain, is a key component of recognition memory. It is explored in this thesis through the use of a paradigm designed to allow the neural correlates of amount recalled to be identified through parametric fMRI analysis. A series of experiments were carried out during the development and optimisation of this paradigm in order to ensure that the various demands of this analysis were met. Subsequently this paradigm was applied during an fMRI experiment which provided data from both the encoding and retrieval stages of recollection.Whilst the development work was chiefly concerned with producing a suitable task design for the parametric fMRI analysis, these experiments provided some interesting results in their own right. The task design, which required participants to associate multiple item types within a story context, showed that there are significant differences in the frequency with which different stimuli are recollected. Participants were found to be particularly poor at recollecting faces whilst words were also shown to be recollected less frequently than either object or animal picture stimuli. A possible explanation for these differences may be related to the picture superiority effect although eye-tracking data collected from these experiments demonstrates large differences in viewing behaviour between different target stimulus types which is not correlated with later recall success. The amount of time participants spend engaging with the highly contextual scene item does predict later recall success.The fMRI analysis (Chapter 5) carried out during the encoding and retrieval stages of recollection found a variety of regions exhibiting a positive linear relationship with recollection at both these stages. This result provides support for the cortical reinstatement hypothesis of recollection despite the fact that the hippocampus only showed parametric modulation of activity during retrieval. It is proposed that parahippocampal activity during encoding and retrieval supports the recollection of contextual information whilst the same pattern of activity in parietal regions related to recollection may reflect the reinstatement of the global image of the story created during the encoding task.

612.84

Perirhinal feedback input controls neocortical memory formation via layer 1

Shin, Jiyun

29 January 2021

Das deklarative Gedächtnis beruht auf Wechselwirkungen zwischen dem medialen Temporallappens (MTL) und Neokortex. Aufgrund der verteilten Natur neokortikaler Netzwerke bleiben zelluläre Ziele und Mechanismen der Gedächtnisbildung im Neokortex jedoch schwer fassbar. Im sechsschichtigen Säugetier-Neokortex konvergieren die Top-Down-Inputs auf Schicht 1 (L1). Wir untersuchten, wie Top-Down-Inputs von MTL die neokortikale Aktivität während der Gedächtnisbildung modulieren. Wir haben zunächst ein Kortex- und Hippocampus-abhängiges Lernparadigma angepasst, in dem Tiere gelernt haben, direkte kortikale Mikrostimulation und Belohnung zu assoziieren. Neuronen in den tiefen Schichten des perirhinalen Kortex lieferten monosynaptische Eingaben in L1 des primären somatosensorischen Kortex (S1), wo die Mikrostimulation vorgestellt wurde. Die chemogenetische Unterdrückung der perirhinalen Inputs in L1 von S1 störte die Gedächtnisbildung, hatte jedoch keinen Einfluss auf die Leistung der Tiere nach abgeschlossenem Lernen. Dem Lernen folgte das Auftreten einer klaren Subpopulation von Pyramidenneuronen der Schicht 5 (L5), die durch hochfrequentes Burst-Feuern gekennzeichnet war und durch Blockieren der perirhinalen Inputs zu L1 reduziert werden konnte. Interessanterweise zeigte ein ähnlicher Anteil an apikalen Dendriten von L5-Pyramidenneuronen ebenfalls eine signifikant erhöhte Ca2+-Aktivität während des Gedächtnisabrufs bei Expertentieren. Wichtig ist, dass die Störung der dendritischen Ca2+-Aktivität das Lernen beeinträchtigte, was darauf hindeutet, dass apikale Dendriten von L5-Pyramidenneuronen eine entscheidende Rolle bei der Bildung des neokortikalen Gedächtnisses spielen. Wir schließen daraus, dass MTL-Eingaben das Lernen über einen perirhinalen vermittelten Gating-Prozess in L1 steuern, der sich in einer erhöhten dendritischen Ca2+-Aktivität und einem Burst-Firing in pyramidalen L5-Neuronen manifestiert. / Declarative memory relies on interactions between the medial temporal lobe (MTL) and neocortex. However, due the distributed nature of neocortical networks, cellular targets and mechanisms of memory formation in the neocortex remain elusive. In the six-layered mammalian neocortex, top-down inputs converge on its outermost layer, layer 1 (L1). We examined how layer-specific top-down inputs from MTL modulate neocortical activity during memory formation. We first adapted a cortical- and hippocampal-dependent learning paradigm, in which animals learned to associate direct cortical microstimulation and reward, and characterized the learning behavior of rats and mice. We next showed that neurons in the deep layers of the perirhinal cortex not only provide monosynaptic inputs to L1 of the primary somatosensory cortex (S1), where microstimulation was presented, but also actively reflect the behavioral outcome. Chemogenetic suppression of perirhinal inputs to L1 of S1 disrupted early memory formation but did not affect animals’ performance after learning. The learning was followed by an emergence of a distinct subpopulation of layer 5 (L5) pyramidal neurons characterized by high-frequency burst firing, which could be reduced by blocking perirhinal inputs to L1. Interestingly, a similar proportion of apical dendrites (~10%) of L5 pyramidal neurons also displayed significantly enhanced calcium (Ca2+) activity during memory retrieval in expert animals. Importantly, disrupting dendritic Ca2+ activity impaired learning, suggesting that apical dendrites of L5 pyramidal neurons have a critical role in neocortical memory formation. Taken together, these results suggest that MTL inputs control learning via a perirhinal-mediated gating process in L1, manifested by elevated dendritic Ca2+ activity and burst firing in L5 pyramidal neurons. The present study provides insights into cellular mechanisms of learning and memory representations in the neocortex.

Lernen und Gedächtnis

Neokortex

perirhinaler Kortex

Hippocampus

Chemogenetik

Pyramidenneuron

aktive Dendriten

learning and memory

neocortex

perirhinal cortex

hippocampus

chemogenetics

Layer 1

Layer 5 pyramidal neuron

active dendrites

570 Biowissenschaften; Biologie

571 Physiologie und verwandte Themen

WW 4200

ddc:570

ddc:571

Apport de l'étude des systèmes mnésiques mesiotemporaux au diagnostic précoce de la Maladie d'Alzheimer débutante / Contributions from studies on mesiotemporal memory systems to the diagnosis of early Alzeimer's disease

Didic-Hamel Cooke, Mira

11 January 2011

Un nombre croissant de travaux chez l’animal et chez l’homme suggèrent que les différentes structures composant le lobe temporal interne (LTI) contribuent de manière différentielle à la mémoire déclarative. Chez l’homme, deux réseaux neuraux impliquant le LTI sont décrits : un réseau mésiotemporal antérieur, constitué de structures pour lesquelles les études chez les patients cérébro-lésés indiquent qu’elles contribueraient à la mémoire décontextualisée (mémoire des objets et mémoire sémantique ou mémoire du « quoi ») ; un réseau mésiotemporal postérieur, constitué d’autres structures pour lesquelles ces études suggèrent plutôt une implication dans la mémoire contextualisée (mémoire spatiale, épisodique ou mémoire du «où » et du « quand»). Dans la Maladie d’Alzheimer (MA), les dégénérescences neurofibrillaires, dont la distribution topographique est corrélée à la nature des déficits cognitifs, se développent initialement dans les cortex sous-hippocampiques - transentorhinal et entorhinal - qui sont des composants du réseau mésiotemporal antérieur, avant de s’étendre à l’hippocampe. Les éventuels déficits cognitifs en relation avec l’atteinte de cette région ne sont pas clairement identifiés dans la MA. Les travaux présentés dans ce mémoire sont centrés sur l’étude des cortex sous-hippocampiques avec les méthodes de la neuropsychologie et la neuroimagerie. Ils suggèrent que la MA aux stades les plus précoces pourrait représenter un « modèle » d’étude privilégié des systèmes mnésiques auxquels contribue le LTI. Ces résultats sont en faveur de l’utilité de l’évaluation de la mémoire décontextualisée dans le diagnostic de la MA débutante. / There is increasing evidence from experiments in rodents and non-human primates, as well as from human studies, to suggest that the different structures within the medial temporal lobe (MTL) differentially contribute to declarative memory. In the human brain, two neural networks implicating MTL structures have been described: an anterior MTL network that includes brain areas that contribute to context-free memory (object memory and semantic memory or memory for « what ») and a posterior MTL network that contributes to context-rich memory (spatial memory, episodic memory or memory for “where” and “when”). In Alzheimer’s disease (AD), neurofibrillary tangles (NFT), associated with cognitive signs, initially appear in the sub-hippocampal (transentorhinal and entorhinal) cortex, which are part of the anterior MTL network, before reaching the hippocampus. Potential cognitive deficits related to the dysfunction of this brain area in AD are not clearly identified. In the presented studies, the emphasis is placed on the investigation of sub-hippocampal corteces using a neuropsychological approach and neuroimaging techniques. Our findings suggest that the very earliest stages of AD could represent a “model” leading to a better understanding of memory systems that involve the MTL. They also provide evidence that evaluating context-free memory may be useful in the diagnosis of early AD.

Mémoire déclarative,

Mémoire de reconnaissance visuelle

Mémoire sémantique

Mémoire épisodique

Lobe temporal interne

Hippocampe

Cortex sous-hippocampique

Cortex entorhinal

Cortex périrhinal

Maladie d’Alzheimer prédementielle

Declarative memory

Visual recognition memory

Semantic memory

Episodic memory

Medial temporal lobe

Hippocampus

Subhippocampal cortex

Entorhinal cortex

Perirhinal cortex

Predementia Alzheimer’s disease