Informační hodnota a akceptabilita předpovědi počasí / Information value and acceptability in weather forecast

Bělohlávková, Kateřina

January 2013

7. SUMMARY This diploma thesis The information value and acceptability of forecasting is divided into a theoretical and a practical part. In the theoretical part the forecasting is described as a product of television newscast. I deal with the fact of forecasting entering the media communication. I deal with the information value that forecasts bring and show the way a piece of information is transferred from a producer to an addressee relating to the process of coding and decoding. I describe the acceptability of forecasts and its elements influencing comprehension. In relation to acceptability, textual linguistics is discussed in a separated subchapter. The last theoretical part deals with semiotics and semantics. These disciplines deal mainly with meaning and sings and that is the reason why they are not important only in the theoretical part but also in an analyzing part of this thesis. The analyzing part is based on semiotic survey analysis dealing with individual components of forecasts (visual, audio and audio-visual). The aim of this thesis is to find out which of components of forecasting brings the highest information value to respondents and which is best comprehensible for addressees. The survey results demonstrate that it is the audio forecasting that has a high information value and brings...

Role of cortical parvalbumin interneurons in fear behaviour / Rôle des interneurones corticaux parvalbuminergiques dans les comportements de peur

Courtin, Julien

13 December 2013

Les processus d'apprentissage et de mémoire sont contrôlés par des circuits et éléments neuronaux spécifiques. De nombreuses études ont récemment mis en évidence que les circuits corticaux jouent un rôle important dans la régulation des comportements de peur, cependant, leurs caractéristiques anatomiques et fonctionnelles restent encore largement inconnues. Au cours de ma thèse, en utilisant des enregistrements unitaires et des approches optogénétiques chez la souris libre de se comporter, nous avons pu montrer que les interneurones inhibiteurs du cortex auditif et du cortex préfrontal médian forment un microcircuit désinhibiteur permettant respectivement l'acquisition et l'expression de la mémoire de peur conditionnée. Dans les deux cas, les interneurones parvalbuminergiques constituent l'élément central du circuit et sont inhibés de façon phasique. D’un point de vue fonctionnel, nous avons démontré que cette inhibition était associée à la désinhibition des neurones pyramidaux par un mécanisme de réduction de l'inhibition continue exercée par les interneurones parvalbuminergiques. Ainsi, les interneurones parvalbuminergiques peuvent contrôler temporellement l'excitabilité des neurones pyramidaux. En particulier, nous avons montré que l'acquisition de la mémoire de peur conditionnée dépend du recrutement d'un microcircuit désinhibiteur localisé dans le cortex auditif. En effet, au cours du conditionnement de peur, la présentation du choc électrique induit l'inhibition des interneurones parvalbuminergiques, ce qui a pour conséquence de désinhiber les neurones pyramidaux du cortex auditif et de permettre l’apprentissage du conditionnement de peur. Dans leur ensemble, ces données suggèrent que la désinhibition est un mécanisme important dans l'apprentissage et le traitement de l'information dans les circuits corticaux. Dans un second temps, nous avons montré que l'expression de la peur conditionnée requière l'inhibition phasique des interneurones parvalbuminergiques du cortex préfrontal médian. En effet, leur inhibition désinhibe les cellules pyramidales préfrontales et synchronise leur activité en réinitialisant les oscillations thêta locales. Ces résultats mettent en évidence deux mécanismes neuronaux complémentaires induits par les interneurones parvalbuminergiques qui coordonnent et organisent avec précision l’activité neuronale des neurones pyramidaux du cortex préfrontal pour contrôler l'expression de la peur conditionnée. Ensemble, nos données montrent que la désinhibition joue un rôle important dans les comportements de peur en permettant l’association entre des informations comportementalement pertinentes, en sélectionnant les éléments spécifiques du circuit et en orchestrant l'activité neuronale des cellules pyramidales. / Learning and memory processes are controlled by specific neuronal circuits and elements. Numerous recent reports highlighted the important role of cortical circuits in the regulation of fear behaviour, however, the anatomical and functional characteristics of their neuronal components remain largely unknown. During my thesis, we used single unit recordings and optogenetic manipulations of specific neuronal elements in behaving mice, to show that both the auditory cortex and the medial prefrontal cortex contain a disinhibitory microcircuit required respectively for the acquisition and the expression of conditioned fear memory. In both cases, parvalbumin-expressing interneurons constitute the central element of the circuit and are phasically inhibited during the presentation of the conditioned tone. From a functional point of view, we demonstrated that this inhibition induced the disinhibition of cortical pyramidal neurons by releasing the ongoing perisomatic inhibition mediated by parvalbumin-expressing interneurons onto pyramidal neurons. Thereby, this disinhibition allows the precise temporal regulation of pyramidal neurons excitability. In particular, we showed that the acquisition of associative fear memories depend on the recruitment of a disinhibitory microcircuit in the auditory cortex. Fear-conditioning-associated disinhibition in auditory cortex is driven by foot-shock-mediated inhibition of parvalbumin-expressing interneurons. Importantly, pharmacological or optogenetic blockade of pyramidal neuron disinhibition abolishes fear learning. Together, these data suggest that disinhibition is an important mechanism underlying learning and information processing in cortical circuits. Secondly, in the medial prefrontal cortex, we demonstrated that expression of fear behaviour is causally related to the phasic inhibition of prefrontal parvalbumin-expressing interneurons. Inhibition of parvalbumin-expressing interneuron activity disinhibits prefrontal pyramidal neurons and synchronizes their firing by resetting local theta oscillations, leading to fear expression. These results identify two complementary neuronal mechanisms both mediated by prefrontal parvalbumin-expressing interneurons that precisely coordinate and enhance the neuronal efficiency of prefrontal pyramidal neurons to drive fear expression. Together these data highlighted the important role played by neuronal disinhibition in fear behaviour by binding behavioural relevant information, selecting specific circuit elements and orchestrating pyramidal neurons activity.

Interneurones parvalbuminergiques

Cortex préfrontal médian

Cortex auditif

Peur conditionnée

Oscillations thêta

Désinhibition neuronale

Parvalbumin interneuron

Medial prefrontal cortex

Auditory cortex

Conditioned fear

Theta oscillations

Neuronal disinhibition

Klinische Ergebnisse der medialen Raffung und der MPFL-Plastik zur Therapie der Patellaluxation unter Berücksichtigung individuellerprädisponierender Faktoren / Clinical Outcome After Medial Reefing and MPFL-Plasty For Treatment Of Patellar Instability Regarding Individual Predisposing Factors

Hopfensitz, Stephanie

19 October 2016

No description available.

610

MPFL-Plastik

Patellaluxation

mediale Raffung

patellar instability

operative treatment

medial reefing

MPFL-plasty

Medizin (PPN619874732)

Os receptores CB1 e TRPV1 da porção ventral do córtex pré-frontal medial modulam a resposta emocional condicionada: participação das neurotransmissões colinérgica, glutamatérgica e nitrérgica / The medial prefrontal cortex TRPV1 and CB1 receptors modulate the conditioned emotional response: involment of cholinergic, glutamatergic and nitrergic neurotransmissions

Uliana, Daniela Lescano Martins

15 March 2018

Os receptores canabinoides do tipo 1 (CB1) e vaniloides de potencial transitório 1 (TRPV1) presentes no córtex pré-frontal medial ventral (CPFMv) modulam de maneira oposta a resposta emocional condicionada (REC) no modelo do medo condicionado contextual (MCC). Enquanto a ativação de receptores CB1 reduz as respostas comportamental e cardiovascular da REC, a ativação de TRPV1 aumenta tais parâmetros. Além destes receptores, receptores de glutamato do tipo NMDA e o sistema nitrérgico no CPFMv estão envolvidos na modulação da REC. Possivelmente, tanto a resposta modulada pelo receptor CB1 quanto pelo TRPV1 estão ligadas à modulação da liberação de glutamato e produção de óxido nítrico (NO). Outro neurotransmissor que também possui papel importante na REC é a acetilcolina (ACh) e que provavelmente atua via NO e eCBs. O favorecimento desta neurotransmissão no CPFMv aumenta a REC por meio da ativação de receptores muscarínicos M3. É descrito que a ativação de receptores muscarínicos induz a produção de NO, o qual pode aumentar a liberação de glutamato e, assim, aumentar a REC. Além disso, a ativação de receptores muscarínicos também podem induzir a produção de endocanabinoiodes (eCBs), como a anandamida (AEA), neuromoduladores que podem influenciar a liberação de glutamato, via CB1 ou TRPV1 e, consequentemente, podem afetar a REC. Portanto, o objetivo do trabalho foi avaliar se um antagonista CB1 (NIDA41020) e um agonista TRPV1 (capsaicina) atuam através da via NMDA/NO e se o aumento dos níveis de ACh modula a neurotransmissão gluatamatérgicapor meio de eCBs e NO. Ratos wistars com cânulas direcionadas para o CPFMv foram submetidos ao protocolo de medo condicionado ao contexto. No dia seguinte, cateter de polietileno foi implantado na artéria femoral para posterior registro cardiovascular. 24h após, as drogas foram administradas no CPFMv e o tempo de congelamento e a resposta autonômica foram avaliados durante a reexposição ao contexto. Tanto o NIDA quanto a capsaicina aumentaram a expressão da REC, independentemente de a administração ser na porção PL ou IL. A resposta do antagonismo de CB1 parece depender da ativação de TRPV1 e a resposta do antagonismo TRPV1 depende da ativação de CB1. O aumento da REC induzida por antagonista CB1 ou agonista TRPV1 foi prevenida com a administração prévia de antagonista NMDA ou inibidor da enzima nNOS. A administração de um sequestrador de NO ou de um inibidor da enzima guanilato ciclase solúvel (GCs) preveniu apenas a resposta do antagonismo CB1. O aumento da REC evocado pelo agonista TRPV1 foi prevenido com a microinjeção de antioxidante/sequestrador de radicais livres. Desta maneira, os resultados demonstram que no CPFMv o receptor CB1 modula a expressão da REC através da via NMDA/NO/GCs e o receptor TRPV1 através da via NMDA/NO/Estresse nitrosativo. Além disso, a administração de um inibidor da enzima acetilcolinesterase (AChE) aumentou a REC, sendo este efeito prevenido com a administração prévia de antagonista NMDA, inibidor da nNOS, sequestrador de NO, inibidor da GCs e antagonista de receptores TRPV1. O aumento da REC evocado pelo antagonista CB1 e agonista TRPV1 não foi prevenido pela administração local prévia de antagonista de receptores M3. Este resultado indica que a resposta promovida pela ACh modula a neurotransmissão glutamatérgica possivelmente através da produção de NO e ativação de TRPV1pela AEA e que os eCBs não modulam a transmissão colinérgica no CPFMv. Portanto, podemos sugerir que a re-exposição ao contexto aversivo aumenta os níveis de ACh no CPFMv e, assim, ativa receptores M3 que, por sua vez, induzem a produção de eCBs, possivelmente AEA, e NO. O NO atuaria pré- sinapticamente aumentando a liberação de glutamato, e a AEA ativaria receptores TRPV1 pós-sinápticos que ativaria mecanismos de estresse nitrosativo decorrentes da produção do NO. / CB1 and TRPV1 receptors present in the ventromedial prefrontal cortex (vmPFC) have been related in the modulation of defensive behavior, as fear conditioning response. In contextual fear conditioning, CB1 and TRPV1 antagonism increase and decrease, respectively, the behavior and autonomic response during the reexposure to aversive context. CB1 and TRPV1 activation lead to decrease and increase of glutamate release, respectively. Glutamate is an important neurotransmitter in vmPFC involve in cardiovascular and behavioral response. NMDA activation can promote nitric oxide (NO) production, and this mediator could regulate the pre-synaptic and post-synaptic signaling. Another important neurotransmission related to REC and eCBs/NO is Acetylcholine (ACh). AChE inhibitor in vmPFC increase conditioned response expression through M3 receptor activation. Muscarinic activation leads to NO production and this event can increase the glutamate release. Moreover, muscarinic activation also can induce endocannabinoid (eCBs) production and modulation of glutamatergic neurotransmission by CB1 and TRPV1 receptors. Thus, NO and eCBs production by muscarinic activation probably affect conditioned response through glutamate release. Our aim in this study was to investigate if CB1 antagonism and TRPV1 agonism promote an increase in conditioned response by NMDA/NO pathway. In addition, AChE inhibitor inject in vmPFC modulate glutamatergic neurotransmission by NO and eCBs. Male wistars rats with guide cannulas invmPFC were submitted to contextual fear conditioning. 1 day after conditioning, a polyethylene catheter was implanted in the femoral artery for cardiovascular recording. Following 24h, drugs were administrated in vmPFC and freezing behavior and autonomic response was recorded during context reexposure. CB1 antagonism and TRPV1 agonism increased the expression of conditioned emotional response and the response was not different when injected in PL or IL subareas. The response of CB1 antagonism depends on TRPV1 activation and response of TRPV1 antagonism depends on CB1 activation, demonstrating the relation of these receptors. The effect induced by CB1 antagonism and TRPV1 agonism were prevented by an NMDA antagonism and preferential neuronal NO synthase inhibitor. In case of CB1 antagonism, NO scavenger and a soluble guanylate cyclase inhibitor (sGC) also prevented this response, but not response induced by TRPV1 agonism. Effect of TRPV1 agonism was prevented by administration of antioxidant/free radical scavenger. In addition, inhibition of AChE in vmPFC increased the conditioned response and this effect was prevented by NMDA antagonist, nNOS inhibitor, NO scavenger, sGC inhibitor and TRPV1 antagonist. CB1 antagonist and TRPV1 agonist increased conditioned response and M3 antagonist was not able to prevent this effect. Our results demonstrated that the response promoted by ACh modulate glutamatergic neurotransmission through NO and TRPV1 activation (by AEA). Moreover, endocannabinoid system did not affect cholinergic neurotransmission. Therefore, we suggest that reexposure to aversive context increase ACh concentration in vmPFC and thus induce activation of the M3 receptor. M3 receptor promote NO and eCBs production. NO act in pre-synaptic terminalenhancing glutamate release and AEA activate the TRPV1 receptor in the postsynaptic terminal that act by nitrosative stress in NO pathway.

Aacetylcholine

Acetilcolina

CB1 receptor

Córtex pré-frontal medial

Glutamate

Glutamato

M3 receptor

Nitric oxide

Óxido nítrico

Prefrontal cortex

Receptor CB1

Receptor TRPV1

Receptores M3

TRPV1 receptor

Fatores preditivos de resultados desfavoráveis da meniscectomia medial artroscópica em pacientes com mais de 50 anos de idade / Predictors of poor outcomes of arthroscopic medial meniscectomy in patients over 50 years old

Viegas, Alexandre de Christo

19 February 2015

A evolução do conhecimento acerca das funções dos meniscos e do tratamento das suas lesões, impulsionada pelo advento da cirurgia artroscópica, consagrou e popularizou a meniscectomia por esta via, por ser uma técnica menos invasiva, com menor morbidade e menores custos hospitalares, a ponto de torná-la, atualmente, a cirurgia ortopédica mais frequentemente realizada no mundo. Embora a maior parte dos pacientes submetidos a esta intervenção cirúrgica tenha resultados favoráveis e resolução rápida dos sintomas, percebe-se que parte considerável dos pacientes, especialmente os mais idosos, não apresenta uma evolução póscirúrgica satisfatória, apresentando piora dos sintomas e, eventualmente, necessitando de nova cirurgia. Partindo da hipótese que em determinados pacientes a meniscectomia, em vez de tratar, precipita e acentua um desequilíbrio biomecânico do joelho, o autor realizou estudo observacional prospectivo não-controlado com 86 pacientes de ambos os gêneros, com idade superior a 50 anos (média de 60,2 ± 7,1 anos), submetidos à meniscectomia artroscópica para tratamento de lesão do menisco medial de natureza degenerativa, com o objetivo de determinar variáveis demográficas, clínicas, anatômicas e cirúrgicas relacionadas aos resultados desfavoráveis. As avaliações funcionais pré e pós-operatórias foram realizadas utilizandose o Índice do KOOS (Knee Injury and Osteoarthritis Outcome Score), aplicado a todos os pacientes antes da cirurgia e 60 meses depois. Após análise estatística dos resultados obtidos, o autor verificou que 10 fatores podem ser considerados preditivos das meniscectomias mediais artroscópicas neste grupo etário, sendo quatro fatores fortemente associados aos resultados desfavoráveis: lesão da raiz posterior do menisco medial, dor pré-operatória intensa, claudicação antes da cirurgia e tempo decorrido entre o início dos sintomas e a cirurgia; dois fatores foram considerados moderadamente associados aos resultados desfavoráveis: presença de edema de medula óssea na ressonância magnética (RM) préoperatória e duração da cirurgia; quatro fatores foram considerados associados de modo fraco aos resultados desfavoráveis: Índice de Massa Corporal (IMC) >= 30 kg/m2 , varismo do joelho, presença de cisto poplíteo na RM pré-operatória e extensão da ressecção do menisco medial / The evolution of knowledge concerning meniscal functions and the treatment of their injuries, boosted by the development of arthroscopic surgery, has established and popularized arthroscopic meniscectomy due to its less invasiveness, less post-operative morbidity and lower hospital costs, to the point it has become, nowadays, the most frequently performed orthopedic procedure in the world. Although the majority of patients undergoing this operation is quite pleased with the outcomes and with the prompt resolution of their symptoms, it is noticeable that a considerable amount of patients with meniscal injuries, mainly the older, does not have a satisfactory postoperative outcome, with worsening of symptoms after being operated on and occasionally requiring another surgery. Based on observations of his medical practice and on the assumption that meniscectomy, rather than treat, can hasten and accentuate a biomechanical imbalance of the knee in those patients, the author conducted an observational prospective uncontrolled study with 86 patients of both genders, aged over 50 years old (average 60.2 ± 7.1 years), who underwent arthroscopic meniscectomy for the treatment of degenerative medial meniscal lesions, aiming to determine demographic, anatomical, clinical and surgical variables related to poor outcomes. The functional pre and post-operative evaluations were performed using the KOOS index (Knee Injury and Osteoarthritis Outcome Score) applied to all patients before surgery and 60 months later. After statistical analysis of the results, the author found that 10 factors can be considered predictors of arthroscopic medial meniscectomy in this age group: four factors were strongly associated with unfavorable results - posterior root lesion of the medial meniscus, intense pre-operative pain, claudication before surgery and time elapsed between onset of symptoms and surgery; two factors were moderately associated with unfavorable results - bone marrow edema in preoperative magnetic resonance imaging (MRI) and surgery time length; four factors that were weakly associated with poor results - bone mass index (BMI) >= 30 kg/m2, varus knee, poplyteal cyst in pre-operative MRI and extension of meniscal ressection

Aged

Arthroscopy

Artroscopia

Estudos prospectivos

Fatores de risco

Idoso

Joelho

Knee

Medial menisci

Meia-idade

Meniscos mediais

Middle-aged

Prospective studies

Resultado de tratamento

Risk factors

Treatment outcome

Large-scale circuit reconstruction in medial entorhinal cortex

Schmidt-Helmstaedter, Helene

28 May 2018

Es ist noch weitgehend ungeklärt, mittels welcher Mechanismen die elektrische Aktivität von Nervenzellpopulationen des Gehirns Verhalten ermöglicht. Die Orientierung im Raum ist eine Fähigkeit des Gehirns, für die im Säugetier der mediale entorhinale Teil der Großhirnrinde als entscheidende Struktur identifiziert wurde. Hier wurden Nervenzellen gefunden, die die Umgebung des Individuums in einer gitterartigen Anordnung repräsentieren. Die neuronalen Schaltkreise, welche diese geordnete Nervenzellaktivität im medialen entorhinalen Kortex (MEK) ermöglichen, sind noch wenig verstanden. Die vorliegende Dissertation hat eine Klärung der zellulären Architektur und der neuronalen Schaltkreise in der zweiten Schicht des MEK der Ratte zum Ziel. Zunächst werden die Beiträge zur Entdeckung der hexagonal angeordneten zellulären Anhäufungen in Schicht 2 des MEK sowie zur Beschreibung der Dichotomie der Haupt-Nervenzelltypen dargestellt. Im zweiten Teil wird erstmalig eine konnektomische Analyse des MEK beschrieben. Die detaillierte Untersuchung der Architektur einzelner exzitatorischer Axone ergab das überraschende Ergebnis der präzisen Sortierung von Synapsen entlang axonaler Pfade. Die neuronalen Schaltkreise, in denen diese Neurone eingebettet sind, zeigten eine starke zeitliche Bevorzugung der hemmenden Neurone. Die hier erhobenen Daten tragen zu einem detaillierteren Verständnis der neuronalen Schaltkreise im MEK bei. Sie enthalten die erste Beschreibung überraschend präziser axonaler synaptischer Ordnung im zerebralen Kortex der Säugetiere. Diese Schaltkreisarchitektur lässt einen Effekt auf die Weiterleitung synchroner elektrischer Populationsaktivität im MEK vermuten. In zukünftigen Studien muss insbesondere geklärt werden, ob es sich bei den hier berichteten Ergebnissen um eine Besonderheit des MEK oder ein generelles Verschaltungsprinzip der Hirnrinde des Säugetiers handelt. / The mechanisms by which the electrical activity of ensembles of neurons in the brain give rise to an individual’s behavior are still largely unknown. Navigation in space is one important capacity of the brain, for which the medial entorhinal cortex (MEC) is a pivotal structure in mammals. At the cellular level, neurons that represent the surrounding space in a grid-like fashion have been identified in MEC. These so-called grid cells are located predominantly in layer 2 (L2) of MEC. The detailed neuronal circuits underlying this unique activity pattern are still poorly understood. This thesis comprises studies contributing to a mechanistic description of the synaptic architecture in rat MEC L2. First, this thesis describes the discovery of hexagonally arranged cell clusters and anatomical data on the dichotomy of the two principle cell types in L2 of the MEC. Then, the first connectomic study of the MEC is reported. An analysis of the axonal architecture of excitatory neurons revealed synaptic positional sorting along axons, integrated into precise microcircuits. These microcircuits were found to involve interneurons with a surprising degree of axonal specialization for effective and fast inhibition. Together, these results contribute to a detailed understanding of the circuitry in MEC. They provide the first description of highly precise synaptic arrangements along axons in the cerebral cortex of mammals. The functional implications of these anatomical features were explored using numerical simulations, suggesting effects on the propagation of synchronous activity in L2 of the MEC. These findings motivate future investigations to clarify the contribution of precise synaptic architecture to computations underlying spatial navigation. Further studies are required to understand whether the reported synaptic specializations are specific for the MEC or represent a general wiring principle in the mammalian cortex.

Großhirnrinde

Elektronenmikroskopie

Gitterzellen

Konnektomik

Medialer Entorhinaler Kortex

cerebral cortex

electron microscopy

grid cells

connectomics

medial entorhinal cortex

570 Biowissenschaften; Biologie

WT 2500

WW 2518

ddc:570

Principles of local computation in the entorhinal cortex

Reifenstein, Eric

21 October 2016

Lebewesen sind jeden Tag Sequenzen von Ereignissen ausgesetzt, die sie sich merken wollen. Es ist jedoch ein allgemeines Problem, dass sich die Zeitskalen des Verhaltens und der Induzierung von neuronalem Lernen um mehrere Größenordnungen unterscheiden. Eine mögliche Lösung könnte "Phasenpräzession" sein - das graduelle Verschieben von Aktionspotential-Phasen relativ zur Theta-Oszillation im lokalen Feldpotential. Phasenpräzession ermöglicht es, Verhaltens-Sequenzen zeitlich zu komprimieren, herunter bis auf die Zeitskala von synaptischer Plastizität. In dieser Arbeit untersuche ich das Phasenpräzessions-Phänomen im medialen entorhinalen Kortex der Ratte. Ich entdecke, dass entorhinale Gitterzellen auf der für das Verhalten relevanten Einzellaufebene Phasenpräzession zeigen und dass die Phasenpräzession in Einzelläufen stärker ist als in zusammengefassten Daten vieler Läufe. Die Analyse von Einzelläufen zeigt zudem, dass Phasenpräzession (i) in Zellen aus allen Schichten des entorhinalen Kortex existiert und (ii) von den komplexen Bewegungsmustern der Ratten in zweidimensionalen Umgebungen abhängt. Zum Abschluss zeige ich, dass Phasenpräzession zelltyp-spezifisch ist: Sternzellen in Schicht II des medialen entorhinalen Kortex weisen klare Phasenpräzession auf, wohingegen Pyramidenzellen in der selben Schicht dies nicht tun. Diese Ergebnisse haben weitreichende Implikationen sowohl für das Lokalisieren des Ursprungs als auch für die m"oglichen Mechanismen von Phasenpräzession. / Every day, animals are exposed to sequences of events that are worth recalling. It is a common problem, however, that the time scale of behavior and the time scale for the induction of neuronal learning differ by multiple orders of magnitude. One possible solution could be a phenomenon called "phase precession" - the gradual shift of spike phases with respect to the theta oscillation in the local field potential. Phase precession allows for the temporal compression of behavioral sequences of events to the time scale of synaptic plasticity. In this thesis, I investigate the phase-precession phenomenon in the medial entorhinal cortex of the rat. I find that entorhinal grid cells show phase precession at the behaviorally relevant single-trial level and that phase precession is stronger in single trials than in pooled-trial data. Single-trial analysis further revealed that phase precession (i) exists in cells across all layers of medial entorhinal cortex and (ii) is altered by the complex movement patterns of rats in two-dimensional environments. Finally, I show that phase precession is cell-type specific: stellate cells in layer II of the medial entorhinal cortex exhibit clear phase precession whereas pyramidal cells in the same layer do not. These results have broad implications for pinpointing the origin and possible mechanisms of phase precession.

Hippokampus

Phasenpräzession

medialer entorhinaler Kortex

Einzelläufe

hippocampus

phase precession

medial entorhinal cortex

single trials

570 Biowissenschaften, Biologie

32 Biologie

CP 5000

ddc:570

Rolle der Kaliumkanäle und des cGMP bei der Dilatation der perfundierten A. cerebri media der Ratte auf Azidose

Vogt, Johannes Andreas

15 September 2003

Die Azidose gehört zu den stärksten dilatatorischen Stimuli zerebraler Arterien. Obwohl schon 1890 von Roy und Sherrington beschrieben, sind die Faktoren, die die Vasodilatation zerebraler Arterien auf Azidose vermitteln, bis heute nicht bekannt. Untersuchungen über die Rolle des schnell flüchtigen Bioradikals Stickstoffmonoxid (NO) haben gezeigt, daß NO bei der azidotischen Vasodilatation zerebraler Arterien als Modulator agiert. Darüber hinaus nimmt NO in der neurovaskulären Kopplung, d.h. bei der Vermittlung der regionalen Blutflußantwort nach neuronaler Stimulation, eine permissive Funktion ein. Die Vasodilatation auf Azidose wurde in der vorliegenden Arbeit als Modellstimulus zur Untersuchung der NO-abhängigen Dilatation zerebraler Arterien verwendet. Dabei wurde die Rolle der Kaliumkanäle und die Funktion des cGMP an der Vasodilatation auf Azidose mittels spezifischer Inhibitoren untersucht. Die Experimente erfolgten an der isolierten und perfundierten A. cerebri media der Ratte. Bei der Untersuchung der Signaltransduktion von NO auf Ebene des cGMP wurde eine ausgeprägte Abhängigkeit der azidotischen Vasodilatation von cGMP beobachtet. Durch Restitution des basalen cGMP-Spiegels nach vorheriger Inhibition der löslichen Guanylatzyklase wurde gezeigt, daß NO über cGMP bei der Vermittlung dieser Reaktion als Modulator wirkt. Unter Blockade der einzelnen Kaliumkanalfamilien konnte eine Beteiligung der KCa an der Vasodilatation auf Azidose sowie am Gefäßtonus unter Ruhebedingungen beobachtet werden. Für eine Beteiligung der KATP, der KV und der Kir an diesen Reaktionen wurden dagegen keine Hinweise gefunden. Ebenso sprechen die Untersuchungen unter Blockade der Na+/K+-ATPase gegen eine Beteiligung dieses Enzyms an der Azidosereaktivität zerebraler Arterien. Um ein mögliches Zusammenwirken der Kaliumkanäle zu erfassen, wurde die Vasodilatation auf Azidose unter Blockade von jeweils zwei Kaliumkanaltypen untersucht. Unter Hemmung der KCa und der KATP, sowie unter Hemmung der BKCa und der KATP wurde keine Vasodilatation mehr auf Azidose beobachtet. Die Ergebnisse sprechen dafür, daß die Vasodilatation der A. cerebri media auf Azidose durch BKCa und KATP in redundanter Weise vermittelt wird. Dabei scheinen KCa die Funktion der KATP vollständig substituieren zu können. Die Resultate dieser Arbeit bilden den Ausgangspunkt für derzeit laufenden Untersuchungen über die funktionelle Modulation der KATP und der BKCa durch das NO/cGMP-System. Weiterhin bilden die vorliegenden Untersuchungen eine wichtige Grundlage zur Überprüfung der zentralen Rolle der KCa und der KATP auf weitere, durch das NO/cGMP-System modulierten Stimuli, wie z.B. der funktionellen Stimulation. Die in dieser Arbeit vorgestellten Experimente wurden mit Mitteln der Deutschen Forschungsgemeinschaft (SFB 507), der Hermann und Lilly Schilling Stiftung, sowie der Humboldt Universität zu Berlin gefördert. / Acidosis is one of the most potent vasodilators in the cerebral circulation. Although first described 1890 by Roy and Sherrington the mechanisms of vasodilation to acidosis are still unknown. Experimental data show, that nitric oxide (NO) is a modulator but not a mediator of cerebral arterial pH reactivity. NO also acts as a modulator of neurovascular coupling in the rat somatosensory cortex. We used the experimental in vitro model of the isolated and perfused middle cerebral artery (MCA) to elucidate the general mechanisms of NO-modulated dilations. The present study was performed to clarify the role of cGMP and potassium channels for mediation of acidosis-induced dilation of cerebral arteries. The results indicate, that vasodilation to acidosis is mediated by cGMP. Restoring the basal cGMP-level we could demonstrate a permissive role of cGMP in the vasodilation to acidosis. We could also show that KCa are active under resting conditions and are able to contribute to the relaxation of the MCA to acidosis. Other potassium channels like KATP, Kir, KV and the Na+/K+ATPase appeared not to be involved in the process of dilation to acidosis. After administration of a selective inhibitor of KATP in addition to an inhibitor of KCa the relaxation to acidosis was completely abolished. Simultaneous application of selective inhibitors of KATP and BKCa also prevented from vasodilation to acidosis. These results indicate, that relaxation to acidosis is mediated by activation of KATP and BKCa. This potassium channels seem to have a redundant activity, in such a way that KCa could substitute for KATP. The present findings are a starting point for further studies concerning the modulation of KATP and BKCa by the NO/cGMP-System. This studies are a basis for coming experiments to determine the role of KATP and BKCa in the neurovascular coupling.

zerebraler Blutfluss

Arteria cerebri media

Azidose

Vasodilatation

cGMP

Kaliumkanäle

cerebral blood flow

medial cerebral artery

acidosis

vasodilation

cGMP

potassium channels

610 Medizin

33 Medizin

ddc:610

Okulomotorische Studien zum räumlichen Arbeitsgedächtnis des Menschen

Ploner, Christoph Johannes

06 November 2001

In der vorliegenden Habilitationsschrift wurde eine Serie von Studien zusammengefasst, die menschliches räumliches Arbeitsgedächtnis, den "Visuospatialen Skizzenblock", untersucht haben. Dieses Kurzzeitgedächtnissystem ist häufig im Rahmen von Erkrankungen des frontalen Kortex und seiner mit ihm verbundenen Hirnareale, z.B. dem Morbus Parkinson, dem Morbus Alzheimer oder der Schizophrenie, beeinträchtigt und für einen relevanten Teil der kognitiven Defizite dieser Patienten verantwortlich. Wir untersuchten sowohl Gesunde als auch Patienten mit fokalen Läsionen des Gehirns mit Varianten des "Gedächtnissakkaden"-Paradigmas, einem etablierten okulomotorischen Verfahren zur Untersuchung von Raumgedächtnis. Es wurden sowohl behaviorale Aspekte von Arbeitsgedächtnis als auch mögliche anatomische Substrate dieses Gedächtnissystems sowie zeitstabilerer "Langzeit"-Gedächtnissysteme untersucht. Ziel war es, klarere Korrelationen zwischen messbarem Verhalten einerseits und Anatomie/Physiologie von Raumgedächtnis andererseits zu etablieren. Wir konnten erstmals zeigen, dass menschliches räumliches Arbeitsgedächtnis selektiv für aktuelles Verhalten relevante Wahrnehmungsinhalte repräsentiert. Der Zugang verhaltensirrelevanter Rauminformationen zu räumlichem Arbeitsgedächtnis wird offenbar durch effiziente (Aufmerksamkeits-) Filtermechanismen verhindert. Für die Existenz solcher Filtermechanismen gab es bislang nur elektrophysiologische Belege im Tiermodell. Da die Speicherkapazität von Arbeitsgedächtnis gering ist, erlauben diese Filtermechanismen möglicherweise einen effizienteren Umgang mit der Fülle und Komplexität unserer Umwelt. Umgekehrt lässt die in unserem Experiment sichtbar gewordene enge Verzahnung von Arbeitsgedächtnis und Aufmerksamkeit die Hypothese zu, dass eine gestörte Arbeitsgedächtniskapazität sowohl durch eine primäre Beeinträchtigung der Speichermechanismen selbst als auch durch Störungen der attentionalen Kontrolle derselben zustande kommen kann. Des weiteren konnten wir erstmals zeigen, dass menschliches räumliches Arbeitsgedächtnis eine klare Zeitgrenze hat, die für einzelne räumliche items bei ungefähr 20 Sekunden liegt. Jenseits dieser Zeitgrenze scheint eine vom Arbeitsgedächtnis unabhängige Raumrepräsentation für menschliches Verhalten bedeutsam zu werden. Der Begriff "Arbeitsgedächtnis" sollte also für Gedächtnisaufgaben reserviert bleiben, deren Gedächtnisphase 20 Sekunden nicht überschreitet. Unsere Befunde zeigen weiterhin, dass bei ansonsten konstantem Design einer Gedächtnisaufgabe, die Dauer der Gedächtnisphase bereits wesentlich darüber entscheidet, welches Gedächtnissystem untersucht wird. Die von uns durchgeführten Läsionsstudien an Patienten und neurophysiologischen Studien an Gesunden bestätigen, dass räumliches Arbeitsgedächtnis durch ein Netzwerk kortikaler Areale kontrolliert wird, das unter anderem den Dorsolateralen Präfrontalen Kortex, den Posterioren Parietalen Kortex und das Frontale Augenfeld umfasst. Innerhalb dieses Netzwerks nehmen diese Areale jedoch klar verschiedene kognitive Partialfunktionen wahr. Der Dorsolaterale Präfrontale Kortex und der Posteriore Parietale Kortex scheinen in erster Linie der Repräsentation von Raum in perzeptuellen Koordinaten, d.h. einem räumlichen "Wahrnehmungsbild" zu dienen, mit einer nur kurzfristigen Rolle des Posterioren Parietalen Kortex und einer dominierenden Rolle des Dorsolateralen Präfrontalen Kortex während der Gedächtnisphase einer Arbeitsgedächtnisaufgabe. Das Frontale Augenfeld scheint der Repräsentation von Raum in okulomotorischen Koordinaten zu dienen, d.h. der kurzzeitigen Speicherung einer geplanten okulomotorischen Antwort auf einen räumlichen Wahrnehmungsinhalt. Schließlich sprechen unsere Ergebnisse dafür, dass es mit dem Wechsel von Arbeitsgedächtnis zu einer zeitstabileren Raumrepräsentation bei Gedächtnisphasen von mehr als 20 Sekunden Länge auch zu einem Wechsel der anatomischen Substrate von Raumgedächtnis kommt. Die von uns durchgeführten Läsionsstudien zeigen, dass jenseits der Zeitgrenzen von räumlichem Arbeitsgedächtnis neokortikale Areale des Medialen Temporallappens eine aktive Rolle für Raumgedächtnis spielen. Hier konnten wir erstmals zeigen, dass der menschliche Parahippokampale Kortex eigenständige und vom Hippokampus unabhängige Raumgedächtnisfunktionen wahrnimmt. Möglicherweise ist diese Region das Substrat eines intermediären Gedächtnissystems zwischen räumlichem Arbeitsgedächtnis und Hippokampus-abhängigem Langzeitgedächtnis. Es wird ferner deutlich, dass in einer Gedächtnisaufgabe allein durch die Wahl verschiedener Dauern der Gedächtnisphase verschiedene anatomische Substrate von Gedächtnis untersucht werden können. Die in dieser Habilitationsschrift zusammengefassten Studien zeigen am Beispiel des räumlichen Arbeitsgedächtnisses, dass es möglich ist, mit einfachen physiologischen Paradigmen Gedächtnissysteme am Menschen zu untersuchen. Bestimmte mnestische Subfunktionen lassen sich mit den hier verwandten Paradigmen präzise quantifizieren und bestimmten Hirnregionen zuordnen. Wir glauben, dass dieser methodische Ansatz sowohl eine präzisere Diagnostik von kognitiven Defiziten bei Hirnerkrankungen erlaubt, als auch die Möglichkeit eröffnet, die Therapie von Gedächtnisstörungen effektiv zu kontrollieren. / This publication summarizes a series of experimental studies examining spatial working memory, the "visuospatial scratch pad", in humans. This short-term memory system is frequently affected in disorders involving the frontal cortex and connected subcortical structures, e.g. in Parkinson's disease, Alzheimer's disease or schizophrenia. Healthy human subjects and patients with focal cerebral lesions were tested with a series of "memory-guided saccade" paradigms, i.e. oculomotor spatial memory tasks. We examined both behavioural aspects and possible anatomical substrates of spatial working memory and more stable "long-term" memory systems. Our aim was to clarify the relationship between behavioural measures of spatial memory and its neuronal substrates. In a first experiment, we were able to show that visuospatial working memory selectively represents behaviourally relevant information. Access of irrelevant visuospatial information to working memory appears to be prevented by efficient attentional filters. Facing the limited storage capacity of spatial working memory, these filters may allow for successful behaviour in perceptually complex environments. Furthermore, the tight coupling of spatial attention and spatial working memory allows for the conclusion, that spatial working memory deficits in patients may likewise result from deficient storage systems and deficient attentional control. In a second experiment, we were able to demonstrate a clear temporal limit of about 20 seconds for spatial working memory. Beyond this temporal limit, an independent and more stable spatial memory system, less susceptible to the passage of time, becomes behaviourally relevant. Thus, the term "working memory" should be confined to spatial memory tasks where the memory delay does not exceed 20 seconds. In addition, these results show that selection of a certain memory delay in a given spatial memory task is a decisive factor when examining spatial memory systems. A third series of lesion studies in patients and neurophysiological experiments in healthy subjects confirmed that cortical control of spatial working memory involves dorsolateral prefrontal cortex, posterior parietal cortex and frontal eye field. Within this network, the dorsolateral prefrontal cortex and posterior parietal cortex appear to store spatial information in perceptual coordinates, with a transient role of the posterior parietal cortex at the very beginning of the memory delay and a dominating role of the dorsolateral prefrontal cortex for most of the delay. By contrast, the frontal eye field appears to store spatial information in oculomotor coordinates, i.e. to maintain a prepared eye movement to a remembered target location across a delay. A fourth series of lesion studies in patients showed that spatial memory for delays longer than 20 seconds is controlled by anatomical substrates distinct from those controlling spatial working memory. Beyond the temporal limits of spatial working memory, neocortical regions of the medial temporal lobe appear to contribute significantly to spatial memory. Within these neocortical regions, the parahippocampal cortex may carry spatial memory functions independent of the hippocampal formation and distinct from spatial working memory. We propose that this region is the neuronal substrate of an intermediate memory system, linking spatial working memory and spatial long-term memory both functionally and anatomically. Moreover, these results show that selection of a certain memory delay in a given spatial memory task is a decisive factor when examining neuronal substrates of spatial memory. Taken together, our experiments show that human memory can effectively be investigated with simple physiological paradigms. Spatial memory functions can precisely be quantified with oculomotor paradigms and related to defined anatomical substrates. This approach may allow for precise diagnosis of cognitive deficits and efficient monitoring of treatment of memory disorders.

Arbeitsgedächnis

Augenbewegungen

Frontaler Kortex

Medialer Temporallappen

Working Memory

Eye Movements

frontal cortex

Medial temporal lobe

610 Medizin

33 Medizin

WW 4200

ddc:610

Os receptores CB1 e TRPV1 da porção ventral do córtex pré-frontal medial modulam a resposta emocional condicionada: participação das neurotransmissões colinérgica, glutamatérgica e nitrérgica / The medial prefrontal cortex TRPV1 and CB1 receptors modulate the conditioned emotional response: involment of cholinergic, glutamatergic and nitrergic neurotransmissions

Daniela Lescano Martins Uliana

15 March 2018

Os receptores canabinoides do tipo 1 (CB1) e vaniloides de potencial transitório 1 (TRPV1) presentes no córtex pré-frontal medial ventral (CPFMv) modulam de maneira oposta a resposta emocional condicionada (REC) no modelo do medo condicionado contextual (MCC). Enquanto a ativação de receptores CB1 reduz as respostas comportamental e cardiovascular da REC, a ativação de TRPV1 aumenta tais parâmetros. Além destes receptores, receptores de glutamato do tipo NMDA e o sistema nitrérgico no CPFMv estão envolvidos na modulação da REC. Possivelmente, tanto a resposta modulada pelo receptor CB1 quanto pelo TRPV1 estão ligadas à modulação da liberação de glutamato e produção de óxido nítrico (NO). Outro neurotransmissor que também possui papel importante na REC é a acetilcolina (ACh) e que provavelmente atua via NO e eCBs. O favorecimento desta neurotransmissão no CPFMv aumenta a REC por meio da ativação de receptores muscarínicos M3. É descrito que a ativação de receptores muscarínicos induz a produção de NO, o qual pode aumentar a liberação de glutamato e, assim, aumentar a REC. Além disso, a ativação de receptores muscarínicos também podem induzir a produção de endocanabinoiodes (eCBs), como a anandamida (AEA), neuromoduladores que podem influenciar a liberação de glutamato, via CB1 ou TRPV1 e, consequentemente, podem afetar a REC. Portanto, o objetivo do trabalho foi avaliar se um antagonista CB1 (NIDA41020) e um agonista TRPV1 (capsaicina) atuam através da via NMDA/NO e se o aumento dos níveis de ACh modula a neurotransmissão gluatamatérgicapor meio de eCBs e NO. Ratos wistars com cânulas direcionadas para o CPFMv foram submetidos ao protocolo de medo condicionado ao contexto. No dia seguinte, cateter de polietileno foi implantado na artéria femoral para posterior registro cardiovascular. 24h após, as drogas foram administradas no CPFMv e o tempo de congelamento e a resposta autonômica foram avaliados durante a reexposição ao contexto. Tanto o NIDA quanto a capsaicina aumentaram a expressão da REC, independentemente de a administração ser na porção PL ou IL. A resposta do antagonismo de CB1 parece depender da ativação de TRPV1 e a resposta do antagonismo TRPV1 depende da ativação de CB1. O aumento da REC induzida por antagonista CB1 ou agonista TRPV1 foi prevenida com a administração prévia de antagonista NMDA ou inibidor da enzima nNOS. A administração de um sequestrador de NO ou de um inibidor da enzima guanilato ciclase solúvel (GCs) preveniu apenas a resposta do antagonismo CB1. O aumento da REC evocado pelo agonista TRPV1 foi prevenido com a microinjeção de antioxidante/sequestrador de radicais livres. Desta maneira, os resultados demonstram que no CPFMv o receptor CB1 modula a expressão da REC através da via NMDA/NO/GCs e o receptor TRPV1 através da via NMDA/NO/Estresse nitrosativo. Além disso, a administração de um inibidor da enzima acetilcolinesterase (AChE) aumentou a REC, sendo este efeito prevenido com a administração prévia de antagonista NMDA, inibidor da nNOS, sequestrador de NO, inibidor da GCs e antagonista de receptores TRPV1. O aumento da REC evocado pelo antagonista CB1 e agonista TRPV1 não foi prevenido pela administração local prévia de antagonista de receptores M3. Este resultado indica que a resposta promovida pela ACh modula a neurotransmissão glutamatérgica possivelmente através da produção de NO e ativação de TRPV1pela AEA e que os eCBs não modulam a transmissão colinérgica no CPFMv. Portanto, podemos sugerir que a re-exposição ao contexto aversivo aumenta os níveis de ACh no CPFMv e, assim, ativa receptores M3 que, por sua vez, induzem a produção de eCBs, possivelmente AEA, e NO. O NO atuaria pré- sinapticamente aumentando a liberação de glutamato, e a AEA ativaria receptores TRPV1 pós-sinápticos que ativaria mecanismos de estresse nitrosativo decorrentes da produção do NO. / CB1 and TRPV1 receptors present in the ventromedial prefrontal cortex (vmPFC) have been related in the modulation of defensive behavior, as fear conditioning response. In contextual fear conditioning, CB1 and TRPV1 antagonism increase and decrease, respectively, the behavior and autonomic response during the reexposure to aversive context. CB1 and TRPV1 activation lead to decrease and increase of glutamate release, respectively. Glutamate is an important neurotransmitter in vmPFC involve in cardiovascular and behavioral response. NMDA activation can promote nitric oxide (NO) production, and this mediator could regulate the pre-synaptic and post-synaptic signaling. Another important neurotransmission related to REC and eCBs/NO is Acetylcholine (ACh). AChE inhibitor in vmPFC increase conditioned response expression through M3 receptor activation. Muscarinic activation leads to NO production and this event can increase the glutamate release. Moreover, muscarinic activation also can induce endocannabinoid (eCBs) production and modulation of glutamatergic neurotransmission by CB1 and TRPV1 receptors. Thus, NO and eCBs production by muscarinic activation probably affect conditioned response through glutamate release. Our aim in this study was to investigate if CB1 antagonism and TRPV1 agonism promote an increase in conditioned response by NMDA/NO pathway. In addition, AChE inhibitor inject in vmPFC modulate glutamatergic neurotransmission by NO and eCBs. Male wistars rats with guide cannulas invmPFC were submitted to contextual fear conditioning. 1 day after conditioning, a polyethylene catheter was implanted in the femoral artery for cardiovascular recording. Following 24h, drugs were administrated in vmPFC and freezing behavior and autonomic response was recorded during context reexposure. CB1 antagonism and TRPV1 agonism increased the expression of conditioned emotional response and the response was not different when injected in PL or IL subareas. The response of CB1 antagonism depends on TRPV1 activation and response of TRPV1 antagonism depends on CB1 activation, demonstrating the relation of these receptors. The effect induced by CB1 antagonism and TRPV1 agonism were prevented by an NMDA antagonism and preferential neuronal NO synthase inhibitor. In case of CB1 antagonism, NO scavenger and a soluble guanylate cyclase inhibitor (sGC) also prevented this response, but not response induced by TRPV1 agonism. Effect of TRPV1 agonism was prevented by administration of antioxidant/free radical scavenger. In addition, inhibition of AChE in vmPFC increased the conditioned response and this effect was prevented by NMDA antagonist, nNOS inhibitor, NO scavenger, sGC inhibitor and TRPV1 antagonist. CB1 antagonist and TRPV1 agonist increased conditioned response and M3 antagonist was not able to prevent this effect. Our results demonstrated that the response promoted by ACh modulate glutamatergic neurotransmission through NO and TRPV1 activation (by AEA). Moreover, endocannabinoid system did not affect cholinergic neurotransmission. Therefore, we suggest that reexposure to aversive context increase ACh concentration in vmPFC and thus induce activation of the M3 receptor. M3 receptor promote NO and eCBs production. NO act in pre-synaptic terminalenhancing glutamate release and AEA activate the TRPV1 receptor in the postsynaptic terminal that act by nitrosative stress in NO pathway.

Acetilcolina

Córtex pré-frontal medial

Glutamato

Óxido nítrico

Receptor CB1

Receptor TRPV1

Receptores M3

Aacetylcholine

CB1 receptor

Glutamate

M3 receptor

Nitric oxide

Prefrontal cortex

TRPV1 receptor