Seleção genética da exploração dos braços abertos por ratos albinos e seu efeito na emocionalidade e aprendizagem / Genetic selection of an elevated plus-maze open arms by albino rats and its effect in emotion and learning.

Brito, Thiago Marques de

30 January 2015

A seleção genética de comportamentos relacionados a um componente emocional do tipo ansiedade, associada ao estudo das possíveis influências desse traço sobre outros componentes emocionais como o medo, impulsividade e tarefas de aprendizagem aversiva, podem contribuir para o entendimento da ansiedade, bem como, fornecer uma base sólida para investigações neurofisiológicas, bioquímicas e moleculares da mesma. Assim, o presente trabalho selecionou duas linhagens de ratos da linhagem Wistar: uma com característica de alta exploração dos braços abertos do labirinto em cruz-elevado (Filô-HE) e outra com baixa exploração desses braços (Filô-LE), e comparou os efeitos da seleção dessas duas linhagens sobre comportamentos associados à ansiedade, medo, impulsividade e aprendizagem aversiva. Para isso, um lote de animais fornecidos pelo Biotério Central da USP-RP foram distribuídos em dois grupos distintos: (1) os que apresentavam maior exploração dos braços abertos do Labirinto em Cruz Elevado (LCE) - (Filô-HE) e (2) os com menor exploração desses braços (Filô-LE) ao longo de doze gerações (de S1 a S12, sem contar o grupo inicial do qual derivam as gerações). Na sexta, nona e décima segunda gerações, os animais foram submetidos aos seguintes testes comportamentais: LCE, Campo Aberto (somente na décima segunda), esquiva passiva, labirinto aquático de Morris (somente na décima segunda), sobressalto (que avalia a resposta de medo), e gradiente de aversão elevado (desenvolvido em nosso laboratório para medir impulsividade). Os dados indicaram a seleção de duas linhagens de ratos Wistar com características distintas para a exploração dos braços abertos do LCE. De um lado, foi selecionada a linhagem Filô-HE, que possui como principal característica, altos índices de exploração de ambientes que geralmente são evitados por outros animais. De outro, foi selecionada (até a oitava geração), a linhagem Filô-LE, que explorava muito pouco ambientes potencialmente aversivos. Tais resultados podem ser interpretados, respectivamente, como (a) baixa e alta frequência de comportamentos associados à ansiedade e medo, (b) baixa e alta frequência de comportamentos associados à impulsividade, (c) altos e baixos níveis de dificuldade na aprendizagem relacionada a memórias emocionais, ou (d) até mesmo o efeito conjunto de todas essas características comportamentais. Porém, para um conhecimento mais confiável, é necessário que os estudos supracitados passem a explorar aspectos neurofisiológicos, psicofarmacológicos, bioquímicos e genéticos, ampliando a investigação dos componentes emocionais selecionados. Bem como, promovendo um controle mais rígido dos traços selecionados e de suas relações com outros componentes que possam interferir na seleção / The genetic selection of behaviors related to an anxiety-like emotional component, associated to the study of the possible influences of this trait over other emotional components like fear, impulsivity and aversive learning, can contribute to the understanding of anxiety as well as supply a solid basis for its neurophysiological, biochemical and molecular investigation. Thus, the present work selected two strains of Wistar rats: one characterized by a high exploration of the open arms of an elevated plus-maze (Filô-HE) and another with a low exploration of these arms (Filô-LE), and compared the effects of such a selection on behaviors associated with anxiety, fear, impulsivity and aversive learning. For this, a batch of animals supplied by the animal house of the USP at Ribeirão Preto were distributed into two distinct groups: (1) one presenting more exploration of the open arms of an elevated plus-maze (EPM) Filô-HE and (2) one with less open arm exploration Filô-LE along twelve generations (from S1 to S12, not counting the initial group from which all generations derived). On the sixth, ninth and twelfth generations the animals were submitted to the following behavioral tests: LCE, open-field (only in the twelfth generation), passive avoidance, Morris aquatic maze (only in the twelfth generation), startle (which evaluates a fear response), and elevated aversion gradient (developed in our laboratory to measure impulsivity). The data indicated a selection of two Wistar rats strains with distinct characteristics concerning the exploration of the open arms of and EPM. On the one hand, the strain Filô-HE was selected exhibiting as the main characteristic high measures of exploration of environments which are usually avoided by other animals. On the other hand, the strain Filô-LE was selected (up to the eighth generation) exhibiting very little exploration of potentially dangerous environments. These results may be interpreted as, respectively, (a) low and high frequency of behaviors associated to anxiety and fear, (b) low and high frequency of behaviors associated to impulsivity, (c) high and low levels of difficulty in learning related to emotional memories, or (d) even the joint effect of all these behavioral characteristics. However, for a more reliable knowledge it is necessary that the studies above begin to explore neurophysiological, psychopharmacological, biochemical and genetic aspects, broadening the investigation ot hte selected emotional components, as well as promoting a more strict control of the selected traits and of its relations with other components that may interfere in the selection

Ansiedade

Anxiety

Aprendizagem aversiva

Aversive learning.

Bidirectional genetic selection

Comportamento exploratório

Exploratory behavior

Fear

Impulsividade

Impulsivity

Medo

Seleção genética bidirecional

Seleção genética da exploração dos braços abertos por ratos albinos e seu efeito na emocionalidade e aprendizagem / Genetic selection of an elevated plus-maze open arms by albino rats and its effect in emotion and learning.

Thiago Marques de Brito

30 January 2015

A seleção genética de comportamentos relacionados a um componente emocional do tipo ansiedade, associada ao estudo das possíveis influências desse traço sobre outros componentes emocionais como o medo, impulsividade e tarefas de aprendizagem aversiva, podem contribuir para o entendimento da ansiedade, bem como, fornecer uma base sólida para investigações neurofisiológicas, bioquímicas e moleculares da mesma. Assim, o presente trabalho selecionou duas linhagens de ratos da linhagem Wistar: uma com característica de alta exploração dos braços abertos do labirinto em cruz-elevado (Filô-HE) e outra com baixa exploração desses braços (Filô-LE), e comparou os efeitos da seleção dessas duas linhagens sobre comportamentos associados à ansiedade, medo, impulsividade e aprendizagem aversiva. Para isso, um lote de animais fornecidos pelo Biotério Central da USP-RP foram distribuídos em dois grupos distintos: (1) os que apresentavam maior exploração dos braços abertos do Labirinto em Cruz Elevado (LCE) - (Filô-HE) e (2) os com menor exploração desses braços (Filô-LE) ao longo de doze gerações (de S1 a S12, sem contar o grupo inicial do qual derivam as gerações). Na sexta, nona e décima segunda gerações, os animais foram submetidos aos seguintes testes comportamentais: LCE, Campo Aberto (somente na décima segunda), esquiva passiva, labirinto aquático de Morris (somente na décima segunda), sobressalto (que avalia a resposta de medo), e gradiente de aversão elevado (desenvolvido em nosso laboratório para medir impulsividade). Os dados indicaram a seleção de duas linhagens de ratos Wistar com características distintas para a exploração dos braços abertos do LCE. De um lado, foi selecionada a linhagem Filô-HE, que possui como principal característica, altos índices de exploração de ambientes que geralmente são evitados por outros animais. De outro, foi selecionada (até a oitava geração), a linhagem Filô-LE, que explorava muito pouco ambientes potencialmente aversivos. Tais resultados podem ser interpretados, respectivamente, como (a) baixa e alta frequência de comportamentos associados à ansiedade e medo, (b) baixa e alta frequência de comportamentos associados à impulsividade, (c) altos e baixos níveis de dificuldade na aprendizagem relacionada a memórias emocionais, ou (d) até mesmo o efeito conjunto de todas essas características comportamentais. Porém, para um conhecimento mais confiável, é necessário que os estudos supracitados passem a explorar aspectos neurofisiológicos, psicofarmacológicos, bioquímicos e genéticos, ampliando a investigação dos componentes emocionais selecionados. Bem como, promovendo um controle mais rígido dos traços selecionados e de suas relações com outros componentes que possam interferir na seleção / The genetic selection of behaviors related to an anxiety-like emotional component, associated to the study of the possible influences of this trait over other emotional components like fear, impulsivity and aversive learning, can contribute to the understanding of anxiety as well as supply a solid basis for its neurophysiological, biochemical and molecular investigation. Thus, the present work selected two strains of Wistar rats: one characterized by a high exploration of the open arms of an elevated plus-maze (Filô-HE) and another with a low exploration of these arms (Filô-LE), and compared the effects of such a selection on behaviors associated with anxiety, fear, impulsivity and aversive learning. For this, a batch of animals supplied by the animal house of the USP at Ribeirão Preto were distributed into two distinct groups: (1) one presenting more exploration of the open arms of an elevated plus-maze (EPM) Filô-HE and (2) one with less open arm exploration Filô-LE along twelve generations (from S1 to S12, not counting the initial group from which all generations derived). On the sixth, ninth and twelfth generations the animals were submitted to the following behavioral tests: LCE, open-field (only in the twelfth generation), passive avoidance, Morris aquatic maze (only in the twelfth generation), startle (which evaluates a fear response), and elevated aversion gradient (developed in our laboratory to measure impulsivity). The data indicated a selection of two Wistar rats strains with distinct characteristics concerning the exploration of the open arms of and EPM. On the one hand, the strain Filô-HE was selected exhibiting as the main characteristic high measures of exploration of environments which are usually avoided by other animals. On the other hand, the strain Filô-LE was selected (up to the eighth generation) exhibiting very little exploration of potentially dangerous environments. These results may be interpreted as, respectively, (a) low and high frequency of behaviors associated to anxiety and fear, (b) low and high frequency of behaviors associated to impulsivity, (c) high and low levels of difficulty in learning related to emotional memories, or (d) even the joint effect of all these behavioral characteristics. However, for a more reliable knowledge it is necessary that the studies above begin to explore neurophysiological, psychopharmacological, biochemical and genetic aspects, broadening the investigation ot hte selected emotional components, as well as promoting a more strict control of the selected traits and of its relations with other components that may interfere in the selection

Ansiedade

Aprendizagem aversiva

Comportamento exploratório

Impulsividade

Medo

Seleção genética bidirecional

Anxiety

Aversive learning.

Bidirectional genetic selection

Exploratory behavior

Fear

Impulsivity

Bases comportementales et génétiques des apprentissages aversif et appétitif chez l'abeille, Apis mellifera / Behavioral and genetic basis of appetitive and aversive learning in the honey bee, Apis mellifera

Junca, Pierre

30 September 2015

Dans un monde dynamique la survie des animaux dépend de leur capacité à intégrer des signaux environnementaux afin d'adapter leur comportement à la survenue de conséquences positives (nourriture) ou négatives (dangers) c'est-à-dire de leurs capacités d’apprentissages associatifs appétitif et aversif. Pendant ce travail de thèse, nous nous sommes intéressés aux bases comportementales, moléculaires et génétiques de l'apprentissage aversif et aux relations existant entre apprentissages aversif et appétitif au sein d'un groupe social. L'abeille est un insecte eusocial qui constitue un modèle de choix pour cette étude grâce à l'existence des protocoles de conditionnement appétitif de la réponse d'extension du proboscis (REP) et de conditionnement aversif de la réponse d'extension du dard (RED). Jusqu'à présent, le renforcement utilisé dans le conditionnement aversif de la RED était un choc électrique. Ce stimulus traversant la majeure partie du corps de l'abeille, il est peu aisé d'étudier les structures responsables de sa détection. Dans un premier chapitre, nous avons donc testé l’effet d’une forte température (65°C) sur la RED. Nous montrons qu’une stimulation thermique au niveau des pièces buccales, des pattes ou des antennes induit une RED. De plus, les abeilles parviennent à associer une odeur à la présentation concomitante d'une forte température. Dans un deuxième chapitre, nous avons cartographié la sensibilité thermique du corps des abeilles en mesurant la RED. Ce travail a montré que la stimulation de presque toutes les parties du corps induit une RED. De plus, ces stimulations peuvent jouer le rôle de renforcement aversif lors d’un conditionnement olfactif de la RED. Nous nous sommes ensuite intéressés aux récepteurs périphériques potentiellement impliqués dans la détection des fortes températures, et en particulier à HsTRPA (Hymenoptera specific Transient Receptor Potential A). Nous montrons que l’injection d'inhibiteurs exogènes de HsTRPA réduit les RED à la température. Ces résultats suggèrent l’implication possible d’HsTRPA dans la détection de la température chez l’abeille. Dans un troisième chapitre, nous nous sommes intéressés aux relations existant entre les capacités d’apprentissages aversif et appétitif des abeilles. En nous appuyant sur le protocole aversif thermique, combiné au protocole de conditionnement de la REP existant, nous avons étudié la distribution des capacités hédoniques appétitive et aversive au sein d'une ruche. La reine étant fécondée par 15-20 mâles, la ruche est segmentée génétiquement en autant de lignées paternelles différentes. Nos données montrent que la sensibilité des individus aux renforcements aversif (chaleur) et appétitif (sucre) détermine leurs performances d'apprentissage au sein de chaque modalité hédonique. Nous montrons de plus l’existence d’un trade-off, sous déterminisme génotypique, entre les capacités cognitives appétitive et aversive au sein de la colonie. Le quatrième chapitre a étudié la plasticité comportementale induite par les deux types de conditionnement. La REP et la RED étant des réponses de type "tout ou rien", nous nous sommes demandé si les mouvements antennaires des abeilles pouvaient procurer une mesure fine et intégrer des apprentissages appétitif et aversif. Nous avons développé un système de capture vidéo enregistrant les mouvements antennaires à haute vitesse. Nous montrons que les abeilles modifient leur réponse antennaire à une odeur après un apprentissage appétitif mais pas après un apprentissage aversif. Durant ce travail de thèse, nous avons ainsi développé deux nouveaux protocoles comportementaux en contention, et avons procuré de nouvelles données sur l’apprentissage aversif chez l’abeille. Nous avons observé un trade-off au sein de la ruche entre les capacités hédoniques appétitive et aversive, sous déterminisme génétique. De telles spécialisations cognitives pourraient jouer un rôle prépondérant dans l'évolution des groupes sociaux. / In a dynamic world, animals constantly face environmental changes that may affect them (Alock, 1997). Their survival depends on their ability to integrate this information in order to adapt their behaviors to subsequent positive or negative outcomes, in other words to their appetitive and aversive learning abilities. This thesis investigates the behavioral, molecular and genetic basis of aversive learning and its putative relationship with appetitive learning in a social group. The honeybee is a social insect which constitutes a profitable model for this study thanks to appetitive conditioning of the proboscis extension response (PER) and aversive conditioning of the sting extension response (SER) protocols that have been developed. To date, aversive conditioning of the SER has involved the use of electric shocks as a negative reinforcement. However, this stimulus is ecologically irrelevant for honeybees and electric currents pass through almost every part of the bee’s body making it difficult to study the dedicated structures and sensory pathways responsible for its detection. In the first chapter, we assessed the impact of high temperatures on SER, a stimulus that is also highly aversive. We showed that a SER may be triggered by heat stimulation of mouthparts, forelegs and antennae. In addition, we demonstrated that honeybees are able to associate an odor with high temperatures, resulting in the odor alone triggering the SER after conditioning. In the second chapter, we mapped the heat sensitivity of the bee’s body recording SER subsequent to heat stimulation. This work revealed that heat stimulation of almost every body structures (beside the wings and the tip of the abdomen) induces a SER. Furthermore, these stimulations may act as aversive reinforcement during an olfactory conditioning of the SER. We then focused on putative peripheral receptors involved in high temperature detection, specifically focusing on HsTRPA (Hymenoptra specific Transient Receptor Potential). Using a neuropharmalogical approach, we showed that HsTRPA exogenous inhibitor injections decrease SER triggered by high temperatures yet have no impact on sucrose PER. These results suggest a putative involvement of HsTRPA in the detection of high temperatures in honeybees. In the third chapter, we investigated the relationship between appetitive and aversive learning. By combining thermal aversive conditioning with the PER conditioning protocol, we studied the distribution of hedonic learning abilities in the hive. Since the queen mates with 15-20 males, the hive is, thus, genetically segmented in as many different patrilines. Our data shows that individual sensitivity to aversive (heat) and appetitive reinforcement varies among workers and determines their learning success in each hedonic modality. In addition, we observed that the better an individual (and therefore a patriline) is at appetitive learning, the less successful it will be in aversive learning, and vice versa. The forth chapter focused on the behavioral plasticity induced by the two types of conditioning. PER and SER are binary responses in an “all or nothing” fashion and subtle behavioral variations are difficult to observe. We therefore investigated if honeybee antennal movements may yield a finer measurement to integrate appetitive and aversive learning. We developed a motion capture system that records antennal movements at high speed. We showed that honeybees modify their antennal response to an odor previously associated with sucrose reward however thermal aversive conditioning did not induce any antennal movement modifications. During this PhD work, we developed two new behavioral assays in harnessed individuals, furthering our understanding on aversive learning in the honeybee. Within the hive, we observed a trade-off between appetitive and aversive hedonic learning, which was genetically influenced. Such cognitive specialization could play a key role in social evolution.

Abeilles

Social

Apprentissage appétitif et aversif

Chaleur

HsTRPA

Mouvements antennaires

Paternelles

Honey bees

Social

Appetitive and aversive learning

Heat

HsTRPA

Antennal movements

Patrilines

[pt] CONDICIONAMENTO AO MEDO ESPECÍFICO NAS LINHAGENS DOS CARIOCAS DE ALTO (CAC) E BAIXO CONGELAMENTO (CBC) / [en] SPECIFIC FEAR CONDITIONING IN CARIOCA HIGH-AND LOW-CONDITIONED FREEZING RATS

CAROLINA MACEDO DE SOUZA

14 May 2020

[pt] Os distúrbios de ansiedade compreendem uma ampla gama de condições psiquiátricas, incluindo transtorno de ansiedade generalizada (TAG) e fobia específica. Nas últimas décadas, o uso de modelos animais de ansiedade ofereceu importantes insights sobre a interação dessas psicopatologias. Aqui nós investigamos se os ratos Cariocas de alto e baixo congelamento (CAC e CBC, respectivamente), um modelo animal de TAG, mostram fenótipos comportamentais de alto e baixo congelamento similar no condicionamento de medo ao som. Ratos adultos das linhagens CAC (n igual 16), CBC (n igual 16) e ratos Wistar normais (controle, CTL) foram testados em um paradigma de condicionamento clássico de medo ao som durante 3 dias. Respostas de congelamento foram medidas e usadas como evidência de condicionamento de medo. No geral, os ratos CAC e CBC, bem como os animais CTL, apresentaram um condicionamento de medo ao estímulo condicionado auditivo. No entanto, os animais CBC também mostraram uma rápida extinção ao estímulo condicionado auditivo. Discutimos esses resultados de acordo com dados comportamentais e neuronais observados em linhagens de roedores de alta e baixa ansiedade. / [en] Anxiety disorders comprise a broad range of psychiatric conditions, including general anxiety (GAD) and specific phobias. For the last decades the use of animal models of anxiety has offered important insights into the understanding of the association between these psychopathologies. Here we investigate whether Carioca high and low conditioned freezing rats (CHF and CLF, respectively), a GAD animal model of anxiety, show similar high and low freezing behavioral phenotypes for cued auditory fear conditioning. Adult CHF (n equal 16), CLF (n equal 16) and normal age-matched Wistar rats (control, CTL) were tested in a classical auditory cued fear conditioning paradigm over 3 days. Freezing responses were measured and used as evidence of fear conditioning. Overall, both CHF and CLF rats as well as CTL animals displayed fear conditioning to the auditory CS. However, CLF animals showed a rapid extinction to the auditory conditioned stimulus compared to CHF and CTL rats. We discuss these findings in the context of the behavioural and neuronal differences observed in rodent lines of high and low anxiety traits.

[pt] MODELOS ANIMAIS DE ANSIEDADE

[pt] APRENDIZAGEM AVERSIVA

[pt] APRENDIZAGEM DO MEDO

[pt] MEMORIA IMPLICITA

[pt] FOBIAS ESPECIFICAS

[pt] TRANSTORNOS DE ANSIEDADE

[en] ANIMAL MODELS OF ANXIETY

[en] AVERSIVE LEARNING

[en] LEARNING OF FEAR

[en] IMPLICIT MEMORY

[en] SPECIFIC PHOBIAS

[en] GENERALIZED ANXIETY DISORDER GAD

[en] ANXIETY DISORDERS