Počítačové modelování interakcí iont ů s proteiny: Allosterický efekt iont ů a fenolických ligand ů na strukturu insulinového hexameru / Computer modeling of ion protein interactions: Allo steric effects of phenolic ligands and ions on insulin hexamer struct ure

Palivec, Vladimír

January 2016

Title: Computer modeling of ion protein interactions: Allosteric effects of phenolic ligands and ions on insulin hexamer structure Author: Vladimír Palivec Department: Department of Physical and Macromolecular Chemistry Faculty of Science UK Advisor: prof. RNDr. Pavel Jungwirth, DSc., IOCB AS CR, v.v.i. Advisor's email address: pavel.jungwirth@uochb.cas.cz Abstract: Insulin hexamer is an allosteric protein capable of undergoing conformational changes between three states: T6, T3R3, and R6. Transitions between them, as well as the formation of insulin hexamers, are mediated through binding of phenolic ligands or ions. This thesis presents a molecular dynamics study of allosteric behavior of insulin using empirical force fields. Two effects are closely inspected - cation (Zn2+ , Ca2+ , K+ , and Na+ ) binding to the insulin hexamers and a possible binding of two neurotransmitters - dopamine and serotonin to the phenolic pocket. The results show that high charge density cations (Zn2+ and Ca2+ ) are mostly localized in the B13 glutamate cavity, slow- down diffusion, while preventing other cations from entering. In contrast, low charge density cations (Na+ and K+ ) do not have this effect. Concerning neurotransmitters, dopamine does not bind to the phenolic pocket whereas serotonin binds in a similar way like...

La double personnalité de l'inhibition dans la moelle épinière

Bos, Rémi

21 December 2012

Les travaux entrepris au cours de cette thèse ont eu pour but d'étudier la modulation de la transmission synaptique inhibitrice au niveau des réseaux moteurs spinaux, à la fois au cours du développement et après lésion de la moelle épinière. Le nouveau-né présente des activités motrices spontanées qui jouent un rôle important dans la maturation des muscles et des réseaux de neurones de la moelle épinière. Dans une première étude, nous avons identifié l'un des mécanismes impliqués dans la genèse de ces activités chez le rat nouveau-né in vitro. Nous avons démontré que l'activation des récepteurs GABAᴀ au niveau des terminales d'afférences primaires joue un rôle majeur dans le déclenchement et la propagation de ces activités spontanées. Dans une deuxième étude, nous avons testé la robustesse des dépolarisations de nature GABAergique enregistrées in vitro, c'est-à-dire leur dépendance vis-à-vis des paramètres du milieu de perfusion. Nous avons démontré que l'action dépolarisante des neurotransmetteurs GABA/glycine au niveau des motoneurones et celle du GABA au niveau des terminales d'afférences primaires ne sont pas dues à une fourniture énergétique insuffisante. La dernière étude a été consacrée à la modulation de la transmission synaptique inhibitrice après lésion de la moelle épinière. Nous avons montré que l'activation des récepteurs 5-HT2 (R5-HT2), particulièrement celle de l'isoforme 5-HT2ᴀ, renforce le poids synaptique inhibiteur via une hyperpolarisation du potentiel d'équilibre des ions chlorure (ECl) et une augmentation d'expression de KCC2 au niveau de la membrane des motoneurones. / The aim of this thesis was to explore the modulation of the inhibitory synaptic transmission within the spinal motor networks, both during development and after SCI. Spontaneous movements are an ubiquitous feature of fetal and infant behavior. They provide signals that are important for the development of muscles and the assembly of neuronal networks in the spinal cord. In a first study, we characterized one of the mechanisms underlying spontaneous motor behaviors in the in vitro spinal cord preparation isolated from neonatal rats. We demonstrated that the GABA is playing a key role in promoting spontaneous activity through primary afferent depolarizations which reach firing threshold. In the second part of my thesis, we tested the robustness of the in vitro GABAergic depolarizations and their dependence on the aCSF parameters. We demonstrated that during development the depolarizing actions of GABA/glycine on motoneurons and GABA on primary afferent terminals are not due to inadequate energy supply. In the last part of my thesis, we focused on the modulation of the inhibitory synaptic transmission following SCI. We demonstrated that activation of the 5-HT2 receptors, particularly the 5-HT2ᴀ subtype, strengthens inhibitory synaptic transmission to spinal motoneurons by hyperpolarizing the reversal potential of Cl- ions (ECl) and by increasing the cell-membrane expression of KCC2. This phenomenon reduces spasticity after SCI in rats. Upregulation of KCC2 function by targeting 5-HT2ᴀ receptors therefore opens new therapeutic strategies for the treatment of spasticity following SCI.

Kcc2

Nkcc1

Gaba

Activité spontanée

Terminales d’afférences primaires

Substrats énergétiques

Lésion de moelle épinière

Sérotonine

Pkc

Homéostasie Cl-

Kcc2

Nkcc1

Gaba

Spontaneous activity

Primary afferent terminals

Energy substrates

Spinal cord injury

Serotonin

Pkc

Chloride homeostasis

Vieillissement physiologique et pathologique du contrôle nerveux de la respiration : étude chez des souris sauvages et transgéniques

Menuet, Clément

28 September 2011

De nouveaux enjeux émergent dans le domaine de la Santé en raison du vieillissement de la population et du développement inquiétant de la Maladie d’Alzheimer (MA). Chez le sujet sain ou pathologique, peu d’études ont porté sur le vieillissement du contrôle nerveux de la respiration, en dépit de son rôle crucial pour l’oxygénation du cerveau. Cette thèse présente des recherches translationnelles, réalisées chez la souris, pour étudier le vieillissement physiologique et pathologique du contrôle nerveux de la respiration. Chez des souris transgéniques, modèles reconnus de la MA et du syndrome de Rett, nous décrivons le développement de neuropathologies respiratoires graves, conduisant à un décès prématuré. Nous montrons pour la première fois qu’une tauopathie du tronc cérébral altère le fonctionnement des voies aériennes supérieures, la vocalisation et la respiration. De plus, nos travaux suggèrent un rôle délétère de l’anesthésie pour la MA et identifient des pistes thérapeutiques nouvelles. En conclusion, nos travaux chez la souris peuvent avoir des retombées particulièrement intéressantes notamment pour la MA. / New issues are emerging in the field of Health care due to ageing of the population and the alarming development of Alzheimer’s Disease (AD). In healthy or pathological living being, very few studies are dealing with the ageing of the respiratory nervous control, in spite of the crucial role of respiration for brain oxygenation. This thesis presents translational research performed in mice to examine the physiological and pathological ageing of the respiratory nervous control. In mice from two transgenic strains, recognized models for AD and Rett syndrome, we describe the development of drastic respiratory neuropathologies leading to premature death. In the AD mouse model, we show for the first time that brainstem tauopathy triggers dysfunctions of the upper airways, impairs vocalization and alters respiration and respiratory control. In addition, our work suggests a deleterious effect of anaesthesia for AD and identifies new therapeutic strategies. This mouse research could well contribute to significant improvements in AD care.

Contrôle nerveux de la respiration

Voies aériennes supérieures

Souris sauvages et transgéniques

Vieillissement

Maladie d'Alzheimer

Syndrome de Rett

Réponse respiratoire à l'hypercapnie

Sérotonine

Érythropoïétine

Neurophysiologie.

Respiratory nervous control

Upper airways

Wild type and transgenic mice

Ageing

Alzheimer's disease

Rett syndrom

Hypercapnic respiratory response

Serotonin

Erythropoïetin

Neurophysiology.

Design, Synthesis and Biological Evaluation of Novel Compounds with CNS-Activity Targeting Cannabinoid and Biogenic Amine Receptors

Sherwood, Alexander M

16 May 2014

This work seeks to contribute to the discipline of neuropharmacology by way of structure activity relationship from the standpoint of an organic chemist. More specifically, we sought to develop robust synthetic methodology able to efficiently produce an array of compounds for the purpose of systematic evaluation of their interaction with specific sights within the central nervous system (CNS) in order to better understand the mind and to develop drugs that may have beneficial effects on neurological function. The focus of these studies has been toward the development of novel molecules, using a structure-activity relationship approach, that exhibit binding affinity at specific targets within the CNS. The merit of such studies is twofold: primarily, new compounds are produced that provide valuable scientific insight about their physiological targets, and secondarily, new synthetic methodologies that may arise in order to produce these compounds, thereby contributing to the whole of organic chemistry. As a result of the research described herein, the development of one high affinity and several moderate affinity compounds at the cannabinoid receptor subtype 1 (CB1) has been accomplished. The research demonstrates that a diaryl ether molecular scaffold represents a successful motif in the cannabinoid pharmacophore. The production of the compounds in the SAR studies also introduced a novel general synthetic methodology for the synthesis of diaryl ethers around a phloroglucinol core. A second project was initiated in order to explore the synthetic methods required to develop a general process for the synthesis of rigid aminobenzocyclobutane analogs of known phenethylamines with activity at monoaminergic neurotransmitter sites. Using the synthetic approach devised here, four novel aminobenzocyclobutane isomeric analogs of a known pharmacologically active phenethylamine, (RS)-phenylpropan-amine were synthesized and are currently being evaluated for pharmacological potential.

Neuroscience

CB1 Receptor

Serotonin

Dopamine

Norepinephrine

Addiction Pharmacotherapy

Heterocyclic Compounds

Lipids

Medicinal and Pharmaceutical Chemistry

Medicinal-Pharmaceutical Chemistry

Nervous System Diseases

Organic Chemicals

Organic Chemistry

Pharmaceutical Preparations

Pharmaceutics and Drug Design

Substance Abuse and Addiction

Frontal-limbic brain processes in healthy individuals : environmental, epigenetic and behavioral correlates

Ismaylova, Elmira

05 1900

No description available.

Cerveau

Émotion

Gène du transporteur de la sérotonine

Méthylation de l'ADN

Tissu périphérique

Imagerie cérébrale

Humeur

Santé

Brain

Emotion

Serotonin transporter gene

DNA methylation

Peripheral tissue

Brain imaging

Mood

Healthy

Diagnostic des pathologies plaquettaires : optimisation de l'exploration des granules denses plaquettaires / Diagnosis of platelet disorders : improvement in the assessment of platelet dense granules

Cai, Huili

06 July 2015

Les plaquettes sont les cellules principales de l’hémostase. Leur anomalie qualitative et/ou quantitative est à l’origine d’une diathèse hémorragique. Le diagnostic des anomalies plaquettaires nécessite des tests biologiques. L’objectif de notre travail a été d’améliorer leur diagnostic, en particulier, de développer de nouveaux outils d’exploration des granules denses plaquettaires. Les pathologies plaquettaires héréditaires sont mal connues en Chine. Donc la cadre de notre collaboration Nancy /Wuhan nous avons publié un article en Chinois sur les thrombopénies héréditaires. Ensuite, nous avons évalué les performances du test à la mépacrine combiné à l’expression de CD63 par cytométrie en flux (CMF) pour le diagnostic de la pathologie des grains denses plaquettaires. De plus, notre étude montre que la carence de vitamine C pourrait être associée à une thrombopathie des grains denses. Enfin, nous avons développé une approche par CMF, puis par HPLC, pour la détection de sérotonine plaquettaire / Platelets play an essential role in the hemostasis. Abnormalities in platelet number or platelet function may result in excessive bleeding. Diagnosis of platelet disorders requires platelet count and platelet function testing. Our work is aimed to improve the diagnosis of platelet disorders, especially to develop new approaches for testing the function of platelet dense granules. Inherited platelet disorders are hardly recognized in China. Therefore we published an article in Chinese on the topic of hereditary thrombocytopenia in a Chinese clinical journal, within the framework of collaboration between Nancy and Wuhan. In addition, we evaluated the usefulness of flow cytometric mepacrine assay combined with CD63 expression in the diagnosis of dense granule disorder. Moreover, our work demonstrates that vitamin C deficiency might be associated with platelet dense granule disorder. Finally, we developed a method by flow cytometry and then by HPLC for detection of platelet serotonin

Pathologies plaquettaires

Pathologie des grains denses

Maladie de pool vide delta

Vitamine C

Sérotonine plaquettaire

Cytométrie en flux

Platelet disorders

Dense granule disorder

Vitamin C

Platelet serotonin

Flow cytometry

612.117

616.307 5

Envolvimento de receptores opióides e serotoninérgicos nos processos antinociceptivos induzidos por substância doce / Involvement of opioid and serotonergic receptors in antinociceptives process induced by sweet substance

Rebouças, Elce Cristina Côrtes

05 April 2004

Bases: A antinocicepção induzida por substâncias doces tem sido largamente estudada. Contudo, a investigação dos neurotransmissores envolvidos nesse processo antinociceptivo ainda carece de mais estudos, pois é de extrema importância entender o envolvimento desses neurotransmissores no sistema neural que controla este tipo de antinocicepção. Objetivo: O objetivo deste estudo é clarificar o envolvimento dos sistemas opióide e serotoninérgico na antinocicepção induzida por substância doce. Método: O presente trabalho foi realizado em modelo animal (Rattus norvegicus, Rodentia, Muridae), objetivando investigar se a ingestão crônica de solução de sacarose é seguida de antinocicepção. A latência de retirada de cauda após a aplicação de estímulo nocivo térmico foi medida antes e após esse tratamento no teste de retirada de cauda (provavelmente um reflexo espinal). Não houve diferenças estatisticamente significantes entre os valores de linha basal dos diferentes grupos e foi calculado um índice de analgesia da latência de retirada de cauda antes e depois do tratamento. O envolvimento de opióides endógenos e de serotonina neste processo antinociceptivo foi pesquisado com fármacos antagonistas específicos e não-específicos dos receptores opióides e serotoninérgicos. Resultados: O efeito analgésico da ingestão de sacarose depende da concentração da solução de sacarose e do tempo de duração do consumo da mesma. Naltrexona e metisergida diminuíram a antinocicepção induzida por substâncias doce (após 14 dias de ingestão da sacarose). Estes efeitos foram corroborados pela administração periférica de naloxonazina e cetanserina. Conclusões: Os resultados sugerem o envolvimento de opióides endógenos e serotonina no processo antinociceptivo atualmente estudado. Tudo apontando para a participação de receptores opióides µ1 e serotoninérgicos 5-HT2 na regulação central da antinocicepção induzida por substâncias doces. / Rationale: Sweet substance-induced antinociception has been widely studied, and the investigation of the neurotransmitters involved in the antinociceptive process is an important way for understanding the involvement of neural system controlling this kind of antinociception. Objective: The aim of this study is to investigate the involvement of opioid and serotonergic system in the sweet substance-induces antinociception. Methods: the present work was made in animal model (Rattus norvegicus, Rodentia, Muridae); with the aim of investigating if the chronic intake of sweet substance, such as sucrose, is followed by antinociception. Their tail withdrawal latencies in the tail-flick test (probably a spinal reflex) were measured before and immediately after this treatment. As there was not statistic significant differences between baseline values of different groups, an analgesia index was calculated from the withdrawal latencies before and after treatment. The involvement of endogenous opioid and serotonin in the antinociceptive process was investigated with specific and non-specific pharmacological antagonism on opioid and serotonergic receptors. Results: The analgesic effect of sucrose intake depends on the concentration of sucrose solution and on the time during which the solution is consumed. Naltrexone and methysergide decreased the sweet substance-induced antinociception (post 14 days of sucrose intake). These effects were corroborated by peripheral administration of naloxonazina and ketanserin. Conclusions: The present results suggest the involvement of endogenous opioids and serotonin in the antinociceptive process presently studied. µ1-opioid and 5-HT2 serotonergic receptors may be involved in the central regulation of the sweet substance-produced antinociception.

5HT2 serotonergic receptor.

Antinocicepção

Antinociception

endogenous opioids. µ1-opioid receptor

ingestão de sacarose

opióides endógenos

receptor opióide µ1

receptor serotoninérgico 5-HT2

serotonin

serotonina

sucrose intake

Tail-flick test

teste de retirada de cauda

Avaliação do efeito em longo prazo do estresse neonatal causado pela separação ou privação materna em ratos sobre a expressão de comportamentos defensivos associados ao pânico / Evaluation of the long-term effect of neonatal stress caused by maternal separation or deprivation in rats on the expression of defensive behaviors associated with panic

Rosa, Daiane Santos

30 June 2017

Diversos estudos demonstram que o estresse infantil, incluindo situações de perda dos pais, negligência e abusos, representa um forte fator de risco para o desenvolvimento de transtornos de ansiedade, sendo de especial interesse para este trabalho, o transtorno do pânico. Modelos de estresse neonatal em animais de laboratório, que se baseiam na ruptura da relação mãe-filhote, como a separação materna e a privação materna, têm sido amplamente utilizados para avaliar as consequências desse estressor sobre a expressão de comportamentos defensivos associados à ansiedade na vida adulta. No entanto, pouco se sabe sobre seus efeitos em modelos animais de ataques de pânico, mais especificamente aqueles que associam esta condição emocional à resposta defensiva de fuga em animais. Diante disso, o objetivo inicial do presente trabalho foi o de estender as investigações dos efeitos do estresse neonatal sobre o comportamento de fuga de ratos adultos (após 60 dias de nascimento) observado no labirinto em T elevado (LTE), pela estimulação elétrica da substância cinzenta periaquedutal (SCPD) e durante a exposição a um ambiente em hipóxia (7% O2). Para efeitos comparativos, esses animais também foram testados em modelos animais associados à ansiedade generalizada e a depressão. Observamos que ratos Wistar submetidos à separação materna (3h/dia, do 2º ao 21º dia pós-nascimento) não diferiram de animais controles nos parâmetros comportamentais analisados nos modelos de pânico (fuga no LTE e pela estimulação elétrica da SCPD), nos de ansiedade (resposta de esquiva no LTE e o beber punido no teste de conflito de Vogel) ou no de depressão (tempo gasto em imobilidade no teste do nado forçado). Já em ratos privados da mãe (por 24h no 11º dia pós- nascimento), embora este estressor não tenha alterada a resposta de fuga no LTE, ele aumentou a expressão deste comportamento durante a exposição à hipóxia, sugestivo de um efeito panicogênico. Ainda empregando a privação materna, observamos que a administração intraperitoneal de um inibidor da síntese de serotonina, a pclorofenilalanina metil éster (p-CPA - 100mg/Kg/dia, por 4 dias antes dos testes comportamentais) facilitou a expressão do comportamento de fuga durante o teste da hipóxia nos animais controle, de maneira semelhante ao efeito obtido somente com a privação materna. Porém este tratamento não potencializou a fuga promovida pela privação materna. Já os níveis plasmáticos de corticosterona foram aumentados pela exposição à hipóxia, independentemente dos animais terem sido previamente privados da mãe ou terem recebido o pCPA antes do teste. Por fim, também observamos, através de uma análise por Western Blotting, que nem a privação materna ou a exposição à hipóxia altera a concentração de receptores serotonérgicos do tipo 5-HT1A na SCPD ou na amígdala. Em suma, nossos resultados mostram que a privação materna promove uma facilitação da resposta de fuga na hipóxia, sugerindo uma relação entre esse estresse neonatal e o desencadeamento de ataques de pânico de um subtipo específico, o pânico respiratório. Contudo, no que diz respeito ao envolvimento da neurotransmissão serotonérgica, mais estudos são necessários para entender sua participação nessa resposta. / Early life stress (ELS), including parental loss due to death, neglect or abuse, represents a major risk factor for the late development of psychiatric disorders, such as anxiety disorders. Animal models of ELS that are based on the disruption of mother-infant relationship, such as the repeated maternal separation or maternal deprivation, have been extensively used for the investigation of the longterm effects of these stressors on the expression of defensive behaviors associated with anxiety. However, little is known about their effects on animal models of panic attacks, more specifically in those that associate this emotional condition with escape behavior in animals. Therefore, the aim of the present study was to extend the investigation on the long-term consequences of neonatal stress on the escape response of adult rats (60 days after birth) evoked by the elevated T maze (ETM), electrical stimulation of the dorsal periaqueductal gray (DPAG) or hypoxia (7% O2). For comparative reasons, these animals were also tested in animal models of anxiety and depression. The results showed that the repeated maternal separation of male Wistar (3 hours/day from day 2 to 21 after birth) did not affect the behavioral indexes measured in the panic (escape in the ETM or after DPAG electrical stimulation), anxiety (ETM inhibitory avoidance or punished licking in the Vogel conflict test) or depression (time in immobility in the forced swimming test) models. On the other hand, rats submitted to maternal deprivation (24 hs in the 11th day after birth), although not differing from the control animals on escape expression in the ETM, showed a pronounced escape response during hypoxia, indicating a panicogenic-like response. Also, using this maternal deprivation protocol, we observed that systemic administration of a 5-HT synthesis inhibitor, p-chlrophenilalanine metylester (p-CPA - 100mg/Kg/day, for 4 days before the behavioral tests), facilitated escape expression during hypoxia in non-deprived animals to a level observed in non-pharmacologically treated deprived animals. We also observed that plasma corticosterone levels were increased 30 minutes after hypoxia exposure, independently of the previous condition of the animals (deprivation or drug treatment). Finally, we observed that the number of 5-HT1A receptors in the DPAG or amygdala, measured by Western Blotting, was not affect by previous maternal deprivation or exposure to hypoxia. Taken together, our results show that a single maternal deprivation episode facilitates the expression of escape behavior during hypoxia, suggesting a relationship between this ELS with the observation of a specific subtype of panic attack, the respiratory panic. Further studies are required in order to clarify the 5- HT involvement on these responses.

Dorsal periaqueductal gray matter

Early life stress

Estresse neonatal

Hipóxia

Hypoxia

Maternal deprivation

Maternal separation

Panic

Pânico

Pânico respiratório

Privação materna

Respiratory panic attacks

Separação materna

Serotonin

Serotonina

Substancia cinzenta periaquedutal

Analyse de profils d'expression génique dans des modèles murins d'anxiété/dépression / Gene expression profiles analyses in mouse models of anxiety / depression

Xia, Lin

28 June 2012

Dans le cadre de la modélisation des pathologies anxio-dépressives, notre équipe a créé par des approches génétiques et pharmacologiques deux modèles de souris, les souris privées des récepteurs 5-HT1A et 5-HT1B de la sérotonine (5-HT1A/1B-/-) et les souris CORT ayant reçu une exposition chronique de corticostérone exogène (modèle CORT). Ces modèles présentent respectivement un phénotype hyper anxieux et anxio-dépressif. A l’aide de la technique des puces à ADN, nous avons tenté de caractériser le phénotype moléculaire des troubles comportementaux observés dans les différentes régions cérébrales cortico-limbiques de ces modèles et de rechercher les effets des antidépresseurs sur le transcriptome. Nos études ont montré que les états anxio-dépressifs induisent des changements transcriptomiques spécifiques des différentes régions cérébrales du circuit cortico-limbique. Les traitements antidépresseurs ont non seulement inversé ces changements moléculaires, mais également induit des transcriptions génomiques régionales spécifiques. / In the goal of modeling anxio/depressive states, our group has created two mouse models for using different approaches: knockout mice for both 5-HT1A and 5-HT1B receptors (5-HT1A/1B-/-) and stressed mice induced by long-term exposure of exogenous corticosterone (CORT model). These models display a hyper-anxious and an anxio-depressive phenotype, respectively. Using advantage of microarrays, we aimed at characterizing the molecular phenotype in different cortico-limbic brain regions of these mice associated with the behavioral impairments observed in these mice and we investigate the effects of antidepressants on the transcriptome. Our studies showed that anxious/depressive states in mice induced specific transcriptome changes in different brain regions of cortico-limbic circuit. Chronic antidepressant treatment did not only reverse these changes in gene expression, but also induced region-specific genomic transcripts.

Sérotonine

Récepteurs 5-HT1A et 5-HT1B

Hippocampe

Amygdale

Cortex cingulaire

Puces à ADN

Neurogenèse

Tests comportementaux

Antidépresseurs

Serotonin

5-HT1A and 5-HT1B receptors

Hippocampus

Amygdala

Cingulate cortex

Microarray

Neurogenesis

Behavioral tests

Antidepressants

Evolution du système nerveux et du comportement chez le poisson cavernicole aveugle Astyanax mexicanus / Evolution of nervous system and behaviour in blind cavefish Astyanax mexicanus

Elipot, Yannick

17 April 2013

L’Astyanax mexicanus est un poisson téléostéen utilisé dans les études de microévolution. Au sein de la même espèce, il existe plusieurs populations. Des poissons de surface (SF), vivant en banc dans les rivières d’Amérique Centrale et plusieurs populations cavernicoles (CF), vivant dans l’obscurité des grottes mexicaines. La majorité des populations cavernicoles sont indépendantes et ont dérivé des populations de surface depuis environ un million d’années. Les CF sont aveugles et dépigmentés. D’un point de vue comportemental, les CF ont, entre autres, perdu l’agressivité qui est un caractère important des SF. Ce travail caractérise finement les différences comportementales entre poissons de surface et cavernicoles, et analyse les modifications des circuits neuronaux qui sont à l’origine de la perte du comportement agressif chez les poissons cavernicoles. Les tests d’agressivité montrent que deux SF s’attaquent dix fois plus que deux CF. La distribution temporelle des attaques diffère également entre les populations. En effet, la majorité des attaques entre CF ont lieu lors des premières minutes du test, alors que chez les SF la fréquence des attaques augmente au cours du temps. L’étude de l’agressivité de SF rendu aveugle ou dans le noir montre que la perte d’agressivité chez les CF n’est pas due au phénotype aveugle. De plus, l’agressivité des poissons hybrides suggère que le comportement agressif des SF est génétiquement codé. Après des expériences pharmacologiques utilisant des composés interférant avec le système sérotoninergique ou soumettant les SF et les CF à différents régimes alimentaires, nous faisons l’hypothèse selon laquelle la perte d’agressivité des CF est une adaptation à la vie cavernicole, ceux-ci recherchant en permanence de la nourriture. En revanche, l’agressivité des SF est étroitement reliée à la hiérarchie existant au sein du banc, la dominance étant elle-même liée en partie à la concentration de la sérotonine présente au niveau du raphé. La concentration de sérotonine est inversement corrélée à l’agressivité. D’un point de vue neuroanatomique, l’organisation du système sérotoninergique est similaire entre les populations. Cependant, l’un des noyaux hypothalamiques est plus large chez les CF et contient plus de neurones. Par ailleurs, l’agressivité et le taux de sérotonine sont connus pour être inversement corrélés chez les vertébrés. De fait, des traitements pharmacologiques augmentant le taux de sérotonine diminuent l’agressivité des SF et modifient leur profil d’agressivité, mimant celui des CF. Cependant, le système sérotoninergique n’est pas le seul à être modifié dans le système nerveux des CF. En réalité, les dosages HPLC montrent que l’ensemble des systèmes aminergiques est amplifié chez les CF, conduisant à l’apparition d’un phénotype « hyper-aminergique ». Les études neuro-anatomiques et enzymologiques des systèmes sérotoninergiques et catécholaminergiques montrent que des variations du nombre de neurones et de l’activité des enzymes de dégradation des neurotransmetteurs aminergiques convergent vers cette amplification et sont à l’origine de ce phénotype. Par ailleurs, et en parallèle, les méthodes de transgénèses stables ont été testées chez l’Astyanax. Cette étude montre que l’utilisation des méganucléases et des transposons sont utilisables chez notre poisson modèle et permettent l’établissement de lignées transgéniques. Cet outil permettra de tester à l’avenir l’importance et la fonction des gènes d’intérêt lors du développement du système nerveux, ainsi que lors de la mise en place des comportements. / Astyanax mexicanus is a teleost fish model used for evolution studies. Among the same species, there are several populations of sighted surface fish (SF) that live in Mexican rivers and at least twenty nine populations of blind cavefish (CF) that live in perpetual darkness. Several of these cave populations are independently-evolved, and they derived from surface fish-like ancestors. CF have lost their eyes and their pigmentation, and they have also evolved a number of behavioral traits. Most CF populations have lost the aggressive behavior that is a trademark of their SF counterparts. Here we characterized behavioural differences between SF and CF and we investigated the modifications of neural networks responsible for the loss of aggressiveness in cavefish. We first characterized aggressive behavior in Astyanax. Using an “intruder assay”, we found that SF not only attack ten times more during a one hour period, but also show a significantly different pattern in the temporal distribution of their attacks: while two CF attack mostly during the first minutes, SF attack more and more frequently as time goes by during the test. Then we demonstrated that the loss of aggressiveness in CF is not due to their blind phenotype, and using hybrids and independently-evolved populations of CF we could suggest that aggressive behavior in SF is genetically-encoded. After pharmacological experiments using compounds modulating serotonin levels or using SF and CF receiving different food regimes, we hypothesized that the loss of aggressiveness of CF may correspond to an adaptation to cave life, as they spend most of their time looking for food. On the other hand, the aggressiveness of SF is closely connected to the hierarchy within the school, dominance itself being mainly due to the levels of serotonin in the raphe. Thus, serotonin levels are inversely correlated with agonistic behavior. Neuroanatomical analyses on SF and CF brains showed an identical organization of their serotonin neuronal networks, but one of the serotonergic hypothalamic nucleus was significantly larger in CF and contained more neurons. Treatments of embryos with cyclopamine, an inhibitor of Sonic hedgehog (Shh) signaling, showed that this enlargement is induced by the Shh signaling pathway, itself known to be amplified during the development of the CF. In fact, the serotonergic system is not only one that is changed in the nervous system of CF. HPLC measurements showed that all aminergic systems are amplified in CF, which show a sort of “hyper-aminergic” phenotype. Studies comparing the neuroanatomy of aminergic systems and the activity of amine-degrading enzymes between SF and CF showed that variations in both the number of neurons and the activity of degrading enzymes converge towards an amplification of aminergic neurotransmission and are responsible for the phenotype. In parallel, we established transgenesis methods in Astyanax. We showed that techniques using meganuclease or transposons are valuable with our fish species to generate transgenic lines. This tool will be used to test the importance and function of genes of interest in the development of the nervous system and associated behaviors.

Astyanax

Poisson cavernicole

Comportement

Agressivité

Recherche de nourriture

Système nerveux

Sérotonine

Monoamine oxydase

Catécholamine

Système aminergique

Transgénèse

Cavefish

Astyanax

Behaviour

Aggressiveness

Foraging

Nervous system

Serotonin

Monoamine oxidase

Catecholamine

Aminergic system

Transgenesis