Modulation of amphetamine-induced behaviors in mice by the atypical vesicular glutamate transporter type 3 (VGLUT3) / Modulation des comportements induits par l'amphétamine chez la souris par le transporteur vésiculaire atypique de type 3 du glutamate (VGLUT3)

Mansouri Guilani, Nina

05 December 2017

Toutes les drogues entrainent une libération accrue de dopamine dans une structure cérébrale nommée striatum. Cette structure est impliquée à la fois dans le contrôle moteur et dans les comportements motivés par les récompenses. Localement, les neurones striataux sont modulés par des interneurones cholinergiques (CINs). Les CINs ont pour particularité d’exprimer le transporteur vésiculaire du glutamate de type 3 (VGLUT3) en plus de celui de l’acétylcholine (VAChT). Par conséquent, ces interneurones sont capables de libérer du glutamate et de l’acétylcholine. Dans le striatum, VGLUT3 est également retrouvé dans certaines fibres sérotoninergiques. Chez des patients toxicomanes, le taux de mutation du gène codant VGLUT3 est augmenté. De plus, les souris qui n’expriment pas VGLUT3 (VGLUT3—/—) sont pré-sensibilisées à la cocaïne, et présentent des changements fonctionnels dans le striatum. VGLUT3 apparaît donc comme un régulateur de l’abus de drogue. Mes travaux de recherche ont consisté à caractériser l’effet d’un autre psychostimulant, l’amphétamine (AMPH), chez les souris VGLUT3—/—. Cela a permis de montrer que ces souris présentent une sensibilisation à l’AMPH, plus forte que les contrôles. A forte dose, les psychostimulants entrainent l’apparition de mouvements anormaux appelés stéréotypies. Nous avons observé que les souris VGLUT3—/— sont plus résistantes aux stéréotypies induites par l’AMPH. Une étude plus approfondie a montré que le glutamate libéré par les CINs semble intervenir dans ces stéréotypies. Ces résultats révèlent un rôle jusque-là insoupçonné du glutamate libéré par les CINs dans les mouvements anormaux, qui sont la signature de diverses pathologies. / All drugs of abuse yield a greater release of dopamine in a cerebral structure called striatum. This structure is involved in motor control, but also in behaviors motivated by reward. Locally, striatal neurons are modulated by cholinergic interneurons (CINs). CINs have the particularity to express the vesicular glutamate transporter type 3 (VGLUT3) on top of the one for acetylcholine (VAChT). Therefore, these interneurons have the ability to release both glutamate and acetylcholine. In the striatum, VGLUT3 is also found in some serotonergic fibers. A genetic study revealed that the mutation rate of the gene encoding VGLUT3 is increased in human addicts. Moreover, mice lacking VGLUT3 (VGLUT3—/—) are pre-sensitized to cocaine, and present functional alterations in the striatum. Thus, VGLUT3 appears as a regulator of drug abuse. My work consisted in characterizing the effects of another psychostimulant, amphetamine (AMPH), on VGLUT3—/— mice. This study revealed that VGLUT3—/— mice have a sensitization to AMPH, to a higher extent than control mice. At high dose, psychostimulants produce abnormal movements called stereotypies. We observed that VGLUT3—/— mice are more resistant to AMPH-induced stereotypies. Further investigation showed that the glutamate released by CINs seems involved in these stereotypies, but not the serotonergic source. Our result reveals a hitherto unsuspected role of the glutamate released by CINs in abnormal movements that are the hallmark of several pathologies.

Vglut3

Striatum

Amphétamine

Stéréotypies

Sensibilisation locomotrice

Vglut3

Amphetamine

Striatum

573.8

Differential expression of regeneration relevant molecules in neurons of adult rat brain after injury and the implantation of peripheral nerve grafts

Chaisuksunt, Vipavadee

January 1999

No description available.

612

Striatum; Thalamus; Cerebellum; Axons

In-vivo-Untersuchungen der Wirkung von Neurotoxinen auf das nigrostriatale System der Ratte /

Grote, Christoph.

January 1994

Universiẗat, Diss.--Marburg, 1994.

Corynebacterium Striatum: An Underappreciated Community and Nosocomial Pathogen

Lee, Prescott P., Ferguson, Donald A., Sarubbi, Felix A.

01 January 2005

Corynebacterium striatum (CS) is an underappreciated human pathogen that has been associated with serious infections in both immunocompetent and immunocompromised hosts. CS infections tend to be more frequent in males and major infection sites have included blood stream, lung, and central nervous system. Most are nosocomially acquired and there is a significant association with medical devices ranging from intravascular catheters to central nervous system drainage devices. Empiric therapy with vancomycin is advisable as susceptibility to other agents is variable. Treatment may also include removal of foreign material such as an intravascular catheter. The present review describes the wide spectrum of infections associated with CS and we add a unique case of CS pancreatic abscess where treatment included linezolid.

corynebacterium striatum

infections

nosocomial

resistance

Characterization of a Novel Circling Mouse (Cr) Generated in a transgenic growth hormone mouse breeding colony

Chaudhry, Alanna Mary

03 1900

Numerous genetic variants displaying stereotypic circling behaviour have been described in rodents. The majority are recessive mutants expressing dopaminergic alterations in the striatum- often with associated vestibular defects. We describe a novel circling mouse (Cr) with intact vestibular function frequently obtained from crosses of non-transgenic wild type mice (WT) and transgenic growth hormone mice (TGM). We have characterized Cr with stereotypic circling, head bobbing, hyperkinesia, aggressiveness, and elevated dopamine when compared to the transgenic growth hormone mouse. The Cr also demonstrates self-mutilating behaviour found in mice with dysregulated striatal dopamine levels. Cr oppositely mirrors most traits of the TGM including alterations in sleep, activity, eating, and drinking. TGM displayed superior performance than WT in novel object recognition, but this decreased with aging. Comparatively, Cr performed poorly in this test. The memory of young TGM exceeded controls, whereas young Cr displayed poorer memory with an age related improvement. In a stepdown test of emotionality, TGM step down more readily, while Cr are more hesitant than WT. TGM and Cr also demonstrate opposite alterations in striatal dopamine. Further analysis demonstrated differential responsiveness of TGM and Cr under dopaminergic drugs, and potentially sexually dimorphic differences in behaviour associated with elevated GH in TGM. TGM are characterized by increased levels of circulating growth hormone and alterations in sleep and activity. We hypothesize that frequent generation of Cr may reflect unintended selection of modifier genes that counterbalance negative consequences of elevated GH in TGM. / Thesis / Master of Science (MSc)

Computergestützte 3D-Rekonstruktionen und stereologische Untersuchungen an Thalamus und Striatum von normalen und pathologisch veränderten Gehirnen des Menschen / Computer assisted 3D-reconstructions and stereological investigations of thalamus and striatum of normal and pathological changed human brains

Müller, Kerstin Anni

January 2007

Es wurden insgesamt sieben Gallozyanin-gefärbte Schnittserien durch die rechte oder linke Hemisphäre von zwei Kontrollfällen (männlich, 28 Jahre, rechte Hemisphäre, weiblich, 65 Jahre, linke Hemisphäre), einem Fall mit Megalenzephalie (männlich, 48 Jahre, linke Hemisphäre), einem Fall von M. Little (65 Jahre, männlich, linke Hemisphäre), einem Fall von Alzheimerscher Krankheit (85 Jahre, weiblich, linke Hemisphäre) und einem Fall mit Huntingtonscher Krankheit (männlich, 49 Jahre, beide Hemisphären) verwendet. Die zentralen Anteile der Hemisphären mit den kompletten Schnittserien durch Thalami und Corpora striata wurden mit einer digitalen Kamera in Nahaufnahmetechnik aufgenommen, mit einem kommerziellen Bildbearbeitungs-programm (Adobe Photoshop 6.0®) aufbereitet und die derart aufbereiteten Bilder am Computer mit einer Computer gestützten 3D-Rekonstruktionssoftware (Amira®) verar-beitet. Ein wesentlicher Schritt in der Bearbeitung besteht in der Abgrenzung von Thalamus und Striatum von den benachbarten Strukturen. Die hohe Schnittdicke von 440 µm erleichterte dabei die zytoarchitektonische Abgrenzung beider Kerngebiete. Anders als erwartet unterliegen auch Serienschnitte mit einer Dicke von 440 µm Schrumpfungsartefakten, die nicht immer auf den ersten Blick erkennbar sind. Aus diesem Grund beschränken sich die 3D-Rekonstruktionen nicht auf das manuelle Abgrenzen von Strukturen. Vielmehr müssen alle Schnitte sorgfältig den Koordinaten des Raumes angepasst, hintereinander in der z-Achse angeordnet und bei Bedarf gedreht und verschoben werden. Die Rekonstruktionssoftware bietet für diese Prozedur eine halbautomatische Unterstützung. Einzelne stark verformte Schnitte mussten aber dennoch teilweise aufwändig der Serie angepasst werden. Amira® bietet vielseitige Möglichkeiten in der Darstellung der räumlich rekonstruierten Schnitte. Durch Interpolation werden die Rohdaten zum Teil stark verändert und die ursprünglich kantigen und eckigen Formen zunehmend geglättet. Diese Glättung ist der Erfahrung/Willkür des Untersuchers anheim gestellt und folglich werden die Grenzen zwischen einer realistischen 3D-Rekonstruktion und einer Fiktion fließend. Neben 3D-Rekonstruktionen lassen sich mit Amira auch die Volumina von Striatum und Thalamus berechnen. Diese Daten wurden mit den stereologisch bestimmten Kernvolumina und Nervenzellzahlen verglichen. Grundsätzlich liegen die mit Amira erhobenen Volumenwerte zwischen 1,4 und 6,65% unter den stereologisch geschätzten Werten. Diese Diskrepanz ist bei der bekannten biologischen Variabilität des menschlichen ZNS akzeptabel und im Vergleich mit Literaturangaben und -abbildungen dürften Form und Größe der rekonstruierten Thalami und Corpora striata der Wirklichkeit weitgehend entsprechen. Die Nervenzellzahlen schwanken dabei in einem weiten Bereich zwischen rund 71 Millionen im Striatum bei Megalenzephalie und weniger als 7 Millionen bei Chorea Huntington. Im Thalamus liegt die Nervenzellzahl zwischen rund 18 Millionen (Kontrollfall) und etwas mehr als 6 Millionen bei dem untersuchten Fall mit M. Little. Berücksichtigt man die vielfältigen physiologischen Verbindungen zwischen Thalamus und Striatum, so lassen die Schwankungen in den Nervenzellzahlen auf komplexe Interaktionen und Defizite bei den untersuchten Fällen schließen. Im Ergebnis unerwartet ist die weitgehende Konstanz in Form und Aussehen von Thalamus und Striatum im Endstadium von Alzheimerscher Demenz und bei einem Fall von M. Little. Offensichtlich stehen globale Atrophie- bzw. Degenerationsprozesse bei der Alzheimerschen Krankheit im Vordergrund mit der Folge, dass Thalamus und Striatum trotz deutlicher Nervenzellausfälle bei erhöhter Zahl von Gliazellen insgesamt nur wenig kleiner werden. Allerdings tat sich bei dem Fall mit M. Alzheimer an der Ventralseite des Thalamus eine Rinne auf, die bei den anderen untersuchten Fällen nicht gefunden und deren Ursache nicht geklärt werden konnte. Dramatisch erschienen die Größen- und Formveränderung des Striatum beim Chorea-Huntington-Fall. Nervenzell- und Gliazellausfälle im Striatum bei Chorea Huntington dürften die ausgeprägten makroskopischen Veränderungen erklären. Die Kombination von Serienschnitttechnik mit hoher Schnittdicke und einer Computer gestützten 3D-Rekonstruktion bietet bisher nie da gewesene und faszinierende Aspekte vom Bau des menschlichen ZNS. Nach Import in spezielle Computersoftware zur Animation von 3D-Modellen eröffnen die 3D-Rekonstruktionen auch neue Aspekte in der Präsentation der vermuteten Funktionsweise des ZNS. Dabei sollte aber in Anbetracht der komplexen methodischen Faktoren immer eine kritische Distanz zu vielfältigen Darstellungsformen am Bildschirm gewahrt bleiben. / In total we investigated seven gallocyanin stained slice series through the right and left hemisphere of two control cases (man, age 28, right hemisphere, female, age 65, left hemisphere), one case of Megalencephaly (man, age 48, left hemisphere), one case of M. Little (man, age 65, left hemisphere), one case of Alzheimers Disease (female, age 85, left hemisphere) and one case of Huntingtons Disease (man, age 49, both hemispheres). The central parts of the hemispheres with the complete slice series through thalamus and striatum were captured with a digital camera and processed with a commercial picture-processing-programme (Adobe Photoshop 6.0®) and the result was further processed to 3D-models with another software (Amira®). One fundamental step in this procedure is the demarcation between thalamus and striatum and their sourrounding cell groups. The high slice thickness of 440 µm makes this much easier. Different from our expactation we found shrinking artefacts even in slices with a thickness of 440 µm, which were not always visible at first sight. For this reason we had to do more than manual demarcation of the structures, e.g. arrangement of all slices in a row in z-axes and rotation of the slices when needed. The reconstruction software can do this semiautomatically, but in some cases we had to do this on our own in a very difficult procedure. Amira® has a lot of possibilities to show the reconstructed slices. The original database is transformated during the reconstruction procedure so that the models are influenced subjective. Besides 3D-reconstructions we can measure the volume of striatum and thalamus with Amira®. We compared this data with the volumes determined with stereological methods and can say that the volumes measured with Amira® lay 1,4-6,65% under the volumes determined with stereological methods. This different is acceptabel in the face of biological variability. The amount of neurons extend from 71 millions in striatum with Megalencephaly to 7 millions in striatum with Huntingtons Disease. In the thalamus it extends from18 millions in a control case to 6 millions in a M.Little case. Unexpected was the constant form and shape of thalamus and striatum in the late stages of neurodegenerative diseases like Alzheimers Disease. We suggest that the undergoing neurons are replaced by glia and so the macroscopical form remains nearly constant. On the other hand we could see dramatically changes in form and size of the striatum in the Huntingtons Disease case. The combination of serial slice technique with high sliche thickness and computer supported 3D-reconstruction offers new and fascinating aspects of the human central nervous system. Knowing the complex methods to get to this reconstructions one should always observe these models critical.

Dreidimensionale Rekonstruktion

Corpus striatum

Thalamus

ddc:610

Activités développementales et pathologiques des microcircuits GABAergiques du striatum / Developmental and pathological activites of the GABAergic microcircuits of the stratium

Dehorter, Nathalie

08 November 2010

Nous avons identifié comment les propriétés fonctionnelles des microcircuits GABAergiques dustriatum se mettent en place depuis la période embryonnaire jusqu’à l’adulte, et comment elles sont modifiées dans un modèle adulte pharmacologique (6-hydroxydopamine) ou génétique(PINK1 KO) de la maladie de Parkinson. Les neurones de projection (MSNs) immatures du striatum génèrent une séquence d’activités spontanées : des spikes calciques isolés et des plateaux calciques dans des petites assemblées de neurones connectés par des jonctions gap(E14-P8) puis des bouffées de spikes synchronisées d’origine synaptique (P6-P7). Ensuite les MSNs deviennent silencieux in vitro juste avant l’apparition de la locomotion du fait de l’expression du courant K de la rectification entrante et de la perte de la composante NR2C/Ddes réponses synaptiques cortico-striatales. Enfin dans les deux modèles murins de Parkinson,les courants synaptiques GABAergiques spontanés des MSNs deviennent géants ou en bouffées du fait du dysfonctionnement d’un seul type d’interneurone GABAergique. Ces résultats montrent l’importance de déterminer l’impact des altérations précoces du système dopaminergique sur le développement des microcircuits GABAergiques du striatum / We investigated how the functional properties of the mouse GABAergic microcircuits of the striatum mature from embryonic to adult stages and how they are altered in a pharmacological(6-OHDA) or genetic (PINK 1 KO) adult model of Parkinson’s disease (PD). The dominant population of immature projection neurons, the medium spiny neurons (MSNs) generates asequence of spontaneous calcium activities: calcium spikes and synchronized gap junction driven calcium plateaus (E14-P8) followed by synapse-driven synchronized calcium spikes (P6-P7). Then they become silent in vitro (P8-P10) just before the onset of locomotion (P10-P12), because of the parallel expression of the K+ rectifying current and loss of the NR2C/Dcomponent of NMDA receptor-mediated cortico-striatal responses. In addition, we show that thetonic low frequency, spontaneous GABAergic activity of MSNs switches to a gigantic or bursting pattern in both PD models. This switch is due to only one subtype of GABAergic interneuron which entrains the striatal microcircuits in abnormal GABAergic oversynchrony. This study reflects the need for developmental investigations on the impact of early alteration of the dopaminergic system on striatal GABAergic microcicuits

Developpement

Striatum

Microcircuits

Gaba

Maladie de Parkinson

Determination of the Role of Synapse Associated Protein 97 (SAP97) in the Normal and Parkinsonian Striatum

Chatalov, Vitali

13 January 2010

Parkinson’s disease (PD) is a debilitating movement disorder associated with the death of dopaminergic nigrostriatal neurons. In addition to dopamine deficiency, abnormalities in glutamate and other receptors at striatal synapses have been reported. Synapse associated protein 97 (SAP97) is involved in regulation of glutamate receptor function. In the striatum of unilaterally-lesioned 6-OHDA rat model of PD, SAP97 levels are decreased in post synaptic density fraction, as well as in the whole striatum. I hypothesize that changes in striatal levels and subcellular distribution of SAP97 are responsible for abnormal neurotransmission in striatum and the motor symptoms of PD. GFP-tagged wild type SAP97 and SAP97 mutants were over-expressed in the striatum of 6-OHDA-lesioned rat model of PD. A single 6.5 mg/kg dose of L-DOPA eliminated parkinsonism in 6-OHDA-lesioned rats over-expressing SAP97-GFP, whereas, three 6.5 mg/kg doses of L-DOPA negated parkinsonism in 6-OHDA-lesioned rats over-expressing SAP97-GFP and SAP97∆1-65-GFP. The over-expression of SAP97∆1-65-GFP enhanced parkinsonism in 6-OHDA-lesioned rats and blocked the antiparkinsonian effect of L-DOPA.

Parkinson's

SAP97

6-OHDA-lesioned

striatum

0472

Determination of the Role of Synapse Associated Protein 97 (SAP97) in the Normal and Parkinsonian Striatum

Chatalov, Vitali

13 January 2010

Parkinson’s disease (PD) is a debilitating movement disorder associated with the death of dopaminergic nigrostriatal neurons. In addition to dopamine deficiency, abnormalities in glutamate and other receptors at striatal synapses have been reported. Synapse associated protein 97 (SAP97) is involved in regulation of glutamate receptor function. In the striatum of unilaterally-lesioned 6-OHDA rat model of PD, SAP97 levels are decreased in post synaptic density fraction, as well as in the whole striatum. I hypothesize that changes in striatal levels and subcellular distribution of SAP97 are responsible for abnormal neurotransmission in striatum and the motor symptoms of PD. GFP-tagged wild type SAP97 and SAP97 mutants were over-expressed in the striatum of 6-OHDA-lesioned rat model of PD. A single 6.5 mg/kg dose of L-DOPA eliminated parkinsonism in 6-OHDA-lesioned rats over-expressing SAP97-GFP, whereas, three 6.5 mg/kg doses of L-DOPA negated parkinsonism in 6-OHDA-lesioned rats over-expressing SAP97-GFP and SAP97∆1-65-GFP. The over-expression of SAP97∆1-65-GFP enhanced parkinsonism in 6-OHDA-lesioned rats and blocked the antiparkinsonian effect of L-DOPA.

Parkinson's

SAP97

6-OHDA-lesioned

striatum

0472

Multiple memory systems and extinction: the neurobiological basis of latent extinction

Gabriele, Amanda

15 May 2009

Understanding the neural mechanisms underlying the extinction of maladaptive behaviors has become increasingly relevant. Extinction, or the reduction of a response due to lack of reinforcement, is believed to be “new learning.” Most extinction paradigms involve the performance of the previously reinforced response in the absence of reinforcement in order for extinction to occur. Conversely, latent extinction is a cognitive form of learning in which the previously rewarded response is not made during extinction training. However, until now the neurobiological basis of latent extinction has remained unknown. This dissertation has three aims to examine the neurobiological basis of latent extinction. Previous research has shown latent extinction to be impaired following hippocampal inactivation and the goal of Aim 1 was to examine other neural systems potentially involved in latent extinction through examination of brain structures such as the dorsal striatum, medial prefrontal cortex, and basolateral amygdala. Additionally, the neurochemical basis of latent extinction is unidentified; therefore Aim 2 addressed this question, specifically investigating the glutamatergic system through both NMDA receptor agonism and antagonism. Finally, understanding latent extinction may be useful for the extinction of drug addiction. Aim 3 was to examine some clinical implications for the extinction of drug addiction utilizing latent extinction following maze running for an oral cocaine reward. Reversible neural inactivation studies using the sodium channel blocker bupivacaine demonstrated a selective impairment of response extinction following dorsal striatum inactivation, but no effect on either latent or response extinction following medial prefrontal cortex or basolateral amygdala inactivation. These results, coupled with previous data from our lab demonstrate a double dissociation for extinction behavior. Further, peripheral NMDA receptor agonism with D-cyloserine enhances latent extinction and intra-hippocampal NMDA receptor antagonism with AP5 impairs latent extinction, identifying a role for the glutamatergic system in latent extinction. Finally, oral cocaine administration during acquisition selectively impairs latent extinction indicating that drug use affects the relive use of multiple memory systems during extinction. Overall, the multiple memory systems theory and latent extinction provide a framework with which to further understand the neural mechanisms of extinction behavior.

latent extinction

hippocampus

dorsal striatum

extinction

cocaine