Effects of stress-induced depression on Parkinson’s disease symptomatology

Hemmerle, Ann M.

January 2011

No description available.

Neurology

chronic stress

glucocorticoid

neurodegeneration

neurotrophic factor

Parkinson's disease

substantia nigra

Aging, Stress and Inflammation in a Rat Model of Parkinson's Disease

Cassella, Sarah N.

11 September 2015

No description available.

Neurology

Parkinsons

aging

inflammation

neurotoxic model

stress depression

substantia nigra pars compacta

Organisationsprinzipien der extrazellulären Matrix in der Substantia nigra des Menschen und ihr Bezug zum Morbus Parkinson

Kanter, Marlene

24 November 2010

Der Morbus Parkinson ist durch den selektiven Zelltod der dopaminergen Neurone der Substantia nigra pars compacta gekennzeichnet. Hierbei sind die verschiedenen Populationen pigmentierter Neurone innerhalb der SNc unterschiedlich stark betroffen. Die Ursachen für diese unterschiedliche Schädigung sind noch nicht bekannt. Möglicherweise besteht aber ein Zusammenhang mit der Verteilung der extrazellulären Matrix innerhalb der Substantia nigra. Für die Untersuchung wurden immunhistochemische Methoden an Hirnschnittserien von menschlichen Kontrollgehirnen angewandt. Zur Darstellung von Komponenten der extrazellulären Matrix wurden drei verschiedene Antikörper genutzt. Dazu gehörten anti- CRTL-1, welcher das Link- Protein 1 von CSPGs detektiert, ein Aggrecan- Antikörper ( Klon HAG7D4), welcher an das Kern- Protein menschlichen Aggrecans bindet, sowie anti- Proteoglykan- Di-0S (Klon 1B5), der die Reste der Chondroitin- Sulfat- Seitenketten verschiedener Proteoglykane detektiert, die nach Verdau mit Chondroitinase ABC übrigbleiben. Zur räumlichen Orientierung und strukturellen Gliederung der Substantia nigra nach der von Damier et al. ( 1999) beschriebenen Calbindin- Methode, auf deren Grundlage die SNc in eine Calbindin-reiche Matrix und Calbindin- arme Bereiche, die sogenannten Nigrosomen, gegliedert wird, wurden benachbarte Hirnschnitte mit anti- Calbindin D₂₈K behandelt. Es zeigte sich, dass extrazelluläre Matrix in Form von perineuronalen Netzen nur an den nicht pigmentierten Neuronen der SNr und SNl vorkommt, während die pigmentierten Neurone der SNc keine perineuronalen Netze besitzen, aber von einer Vielzahl von ACs kontaktiert werden. Deren Dichte war an großen, stark Melanin- haltigen Neuronen am höchsten, sodass in der dorsalen Schicht der SNc, also in den Nigrosomen 3 und 4, besonders viel extrazelluläre Matrix detektiert werden konnte. Im ventralen Anteil der SNc war entsprechend der unterschiedlichen Zellgrößen, insbesondere in Nigrosom 1, eine heterogene Verteilung der extrazellulären Matrix festzustellen. Zur Untersuchung über mögliche Veränderungen der extrazellulären Matrix im Verlauf des Morbus Parkinson wurden Hirnschnitte menschlicher Gehirne mit diagnostiziertem Morbus Parkinson ebenfalls mit den drei Antikörpern zur Darstellung der extrazellulären Matrix behandelt. Dabei zeigte sich, dass insgesamt die Menge extrazellulärer Matrix verringert scheint. Eine Darstellung der perineuronalen Netze mit anti- Proteoglykan- Di-0S (Klon 1B5) war nicht mehr möglich. Wie bereits in früheren Studien verschiedener Autoren festgestellt, waren die stärksten Auswirkungen der neurodegenerativen Prozesse im ventralen Anteil der SNc, vor allem in Nigrosom 1, auszumachen, während die Neurone der Nigrosomen 3 und 4 im dorsalen Anteil weniger vulnerabel erscheinen. Diese Ergebnisse verstärken die Annahme, dass die extrazelluläre Matrix eine protektive Funktion für bestimmte Neuronengruppen besitzt. Bei der Parkinsonschen Erkrankung wird möglicherweise zuerst dieses Schutzsystem zerstört bevor es zum progressiven Neuronenverlust kommt. Ungeklärt bleibt weiterhin was die Ursachen dafür sind.

substantia nigrra

Morbus Parkinson

extrazelluläre Matrix

Nigrosomen

anti-CRTL-1

anti-Calbindin

anti- HAG

Neuroprotektion

parkinson´s disease

substantia nigra

extracellular matrix

nigrosomes

anti-crtl-1

anti-calbindin

neuroprotection

ddc:610

Neurodégénérescence et processus compensatoires dans le cerveau des rongeurs après lésion du système dopaminergique nigro-striée et effets de la stimulation à haute fréquence du noyau sous-thalamique

Khaindrava, Vitaly

24 February 2011

Les processus compensatoires qui accompagnent les atteintes du système dopaminergique (DA-ergic) nigrostrié illustrent les capacités adaptatives du cerveau adulte. Cette neuroplasticité permet le maintien de la transmission dopaminergique pendant un certain temps de sorte que les symptômes moteurs cardinaux de la Maladie de Parkinson (MP), qui se caractérise par une dégénérescence progressive des neurones DA-ergiques de la substantia nigra (SN), ne se manifestent qu'après une perte neuronale très importante. De ce fait, le diagnostic présymptomatique est une question cruciale pour le développement de traitements neuroprotecteurs. Un autre exemple de neuroplasticité est illustré par la production de nouveaux neurones dans le cerveau adulte (neurogenèse adulte). Cette neurogenèse s’observe principalement dans deux zones: le continuum zone sous-ventriculaire (SVZ)-bulbe olfactif (OB) et le gyrus denté (DG) de l'hippocampe, et se trouve altérée chez les patients parkinsoniens. Ces dernières années, le traitement chirurgical par la stimulation à haute fréquence (SHF) du noyau sous-thalamique (NST) s'est avéré être une option thérapeutique très efficace pour ces patients. Dans ce contexte, mon travail de thèse a été axé sur l’étude de la neuroplasticité dans différents modèles de la maladie de Parkinson et de son traitement avec les objectifs principaux: 1) Développer un modèle de MP présymptomatique; 2) étudier les mécanismes compensatoires impliquant le système nigrostrié; 3) Déterminer les effets de la SHF-NST sur la neurogenèse adulte dans la SVZ-OB et le DG.Dans la première étude, nous avons développé des modèles expérimentaux de la MP à différents stades, basés sur l’administration de MPTP chez la souris. Nous avons montré que le passage du stade avancé présymptomatique au stade symptomatique précoce correspondant au seuil d’atteinte des systèmes DA-ergiques associé à l’apparition des déficits moteurs, se caractérise par : (a) une diminution de DA dans les terminaisons striatales épargnées par la lésion; (b) une augmentation de DA et d’expression de la tyrosine hydroxylase dans les cellules de la SN; (c) une augmentation du renouvellement de la DA dans le striatum et une augmentation moindre dans la SN.La deuxième étude est basée sur un modèle de lésion DA-ergique extensive par injection intranigrale de 6-hydroxydopamine chez le rat, imitant les stades tardifs de la MP. Nous avons étudié séparément les étapes de prolifération et de survie des nouvelles cellules sur des animaux non lésés et des animaux lésés avec ou sans SHF subchronique (8 jours) du NST. Nous avons pu montrer une régulation spécifique des étapes de prolifération et de survie suite à la lésion dopaminergique, et des effets stimulateurs de la SHF du NST sur la survie des cellules néoformées, suggérant un effet neuroprotecteur de ce traitement. / The compensatory processes that accompany a lesion of the nigrostriatal dopaminergic (DA-ergic) system serve to maintain its function and illustrate adult brain neuroplasticity. The typical motor symptoms of Parkinson’s diseases (PD), characterized by progressive degeneration of DA-ergic neurons of substantia nigra (SN), appear only after substantial neuronal loss. Therefore presymptomatic diagnosis is a crucial issue for future neuroprotective therapies. Another good manifestation of neuroplasticity is adult neurogenesis, known to persist in two areas: the subventricular zone (SVZ) – the olfactory bulb (OB) continuum, and the dentate gyrus (DG) of the hippocampus, and to be altered in PD. In recent years, the surgical treatment by high frequency stimulation (HFS) of the subthalamic nucleus (STN) has proven to be an efficient therapeutic option for PD patients. In this context, my PhD work was focused on neuroplasticity under the functional deficiency of the nigrostriatal DA-ergic system (parkinsonism) and its treatment with the following main objectives: 1 - Develop a model of presymptomatic parkinsonism; 2 - study compensatory mechanisms in nigrostriatal system; 3 - Characterize the effects of subchronic STN HFS on adult neurogenesis. In the first part, we have developed models of presymptomatic parkinsonism based on MPTP administration in mice, as defined by sub-threshold DA depletion and degeneration of DA-ergic axons in the striatum followed by a loss of DA-ergic cell bodies in the SN (advanced presymptomatic stage). In the early symptomatic stage, these parameters reach a threshold that is associated with the appearance of motor deficiency. We have shown that the transition from the advanced presymptomatic stage to the early symptomatic stage is characterized by: (a) a decrease of DA content in surviving DA-ergic axons in the striatum; (b) an increase of DA content and TH-expression in surviving neuronal cell bodies in the SN; (c) an increase of DA turnover in the striatum and much less increase in the SN. The last part of my work is based on extensive DA lesion in rats, using intranigral 6-hydroxydopamine injection mimicking late PD stages, to determine a possible effect of STN-HFS on adult neurogenesis. We have completed series of animals with DA lesion either sham implanted or subsequently treated for 8 days by STN-HFS to be compared with unlesioned rats, and studied selective phases of neurogenesis: proliferation and survival. This study demonstrates selective regulation of cell proliferation and survival following DA depletion and provides the first evidence that prolonged STN-HFS might have a neuroprotective action as shown by the selective increase in survival of newly formed cells following this treatment.

La maladie de Parkinson

Parkinsonisme

La neurodégénérescence

La stimulation à haute fréquence

Des processus de compensation

La neurogenèse adulte

La substantia nigra

Noyau sous-thalamique

Parkinson’s disease, parkinsonism

Neurodegeneration

High frequency stimulation

Compensatory processes

Adult neurogenesis

Substantia nigra

Subthalamic nucleus

Organisationsprinzipien der extrazellulären Matrix in der Substantia nigra des Menschen und ihr Bezug zum Morbus Parkinson

Kanter, Marlene

23 September 2010

Der Morbus Parkinson ist durch den selektiven Zelltod der dopaminergen Neurone der Substantia nigra pars compacta gekennzeichnet. Hierbei sind die verschiedenen Populationen pigmentierter Neurone innerhalb der SNc unterschiedlich stark betroffen. Die Ursachen für diese unterschiedliche Schädigung sind noch nicht bekannt. Möglicherweise besteht aber ein Zusammenhang mit der Verteilung der extrazellulären Matrix innerhalb der Substantia nigra. Für die Untersuchung wurden immunhistochemische Methoden an Hirnschnittserien von menschlichen Kontrollgehirnen angewandt. Zur Darstellung von Komponenten der extrazellulären Matrix wurden drei verschiedene Antikörper genutzt. Dazu gehörten anti- CRTL-1, welcher das Link- Protein 1 von CSPGs detektiert, ein Aggrecan- Antikörper ( Klon HAG7D4), welcher an das Kern- Protein menschlichen Aggrecans bindet, sowie anti- Proteoglykan- Di-0S (Klon 1B5), der die Reste der Chondroitin- Sulfat- Seitenketten verschiedener Proteoglykane detektiert, die nach Verdau mit Chondroitinase ABC übrigbleiben. Zur räumlichen Orientierung und strukturellen Gliederung der Substantia nigra nach der von Damier et al. ( 1999) beschriebenen Calbindin- Methode, auf deren Grundlage die SNc in eine Calbindin-reiche Matrix und Calbindin- arme Bereiche, die sogenannten Nigrosomen, gegliedert wird, wurden benachbarte Hirnschnitte mit anti- Calbindin D₂₈K behandelt. Es zeigte sich, dass extrazelluläre Matrix in Form von perineuronalen Netzen nur an den nicht pigmentierten Neuronen der SNr und SNl vorkommt, während die pigmentierten Neurone der SNc keine perineuronalen Netze besitzen, aber von einer Vielzahl von ACs kontaktiert werden. Deren Dichte war an großen, stark Melanin- haltigen Neuronen am höchsten, sodass in der dorsalen Schicht der SNc, also in den Nigrosomen 3 und 4, besonders viel extrazelluläre Matrix detektiert werden konnte. Im ventralen Anteil der SNc war entsprechend der unterschiedlichen Zellgrößen, insbesondere in Nigrosom 1, eine heterogene Verteilung der extrazellulären Matrix festzustellen. Zur Untersuchung über mögliche Veränderungen der extrazellulären Matrix im Verlauf des Morbus Parkinson wurden Hirnschnitte menschlicher Gehirne mit diagnostiziertem Morbus Parkinson ebenfalls mit den drei Antikörpern zur Darstellung der extrazellulären Matrix behandelt. Dabei zeigte sich, dass insgesamt die Menge extrazellulärer Matrix verringert scheint. Eine Darstellung der perineuronalen Netze mit anti- Proteoglykan- Di-0S (Klon 1B5) war nicht mehr möglich. Wie bereits in früheren Studien verschiedener Autoren festgestellt, waren die stärksten Auswirkungen der neurodegenerativen Prozesse im ventralen Anteil der SNc, vor allem in Nigrosom 1, auszumachen, während die Neurone der Nigrosomen 3 und 4 im dorsalen Anteil weniger vulnerabel erscheinen. Diese Ergebnisse verstärken die Annahme, dass die extrazelluläre Matrix eine protektive Funktion für bestimmte Neuronengruppen besitzt. Bei der Parkinsonschen Erkrankung wird möglicherweise zuerst dieses Schutzsystem zerstört bevor es zum progressiven Neuronenverlust kommt. Ungeklärt bleibt weiterhin was die Ursachen dafür sind.

info:eu-repo/classification/ddc/610

ddc:610

Evidências de projeções indiretas da substância negra compacta para o núcleo retrotrapezóide por meio da substância cinzenta periaquedutal e as alterações respiratórias observadas nesta via em um modelo da doença de Parkinson. / Evidence of indirect projections of the substantia nigra to the retrotrapezoid nucleus through the periaqueductal gray matter and the changes observed in this pathway in a model of Parkinson\'s disease.

Lima, Juliana Cristina de

31 January 2018

A doença de Parkinson (DP) é uma desordem neurodegenerativa caracterizada clinicamente por tremor, rigidez, acinesia (ou bradicinesia) e instabilidade postural. Patofisiologicamente, a DP é classificada como uma sinucleinopatia associada à perda de neurônios dopaminérgicos na substância negra (SN), mas outros neurônios do tronco encefálico podem estar degenerados na DP, contribuindo não só para as alterações motoras, mas também não motoras observadas. Dentre as alterações não motoras, as alterações respiratórias estão presentes tais como obstrução das vias aéreas superiores, pneumonia e ainda a apnéia obstrutiva do sono uma das principais causas de morte na DP. Os mecanismos que levam à degeneração de neurônios envolvidos no controle respiratório ainda não estão bem esclarecidos, mas dados recentes do nosso laboratório mostraram que no modelo de DP induzido pela injeção no caudado-putâmen (CPu) de 6-hidroxidopamina (6-OHDA), um agente neurotóxico seletivo para células catecolaminérgicas, observou-se intensa redução na frequência respiratória e ventilação basais e induzidas pela ativação do quimiorreflexo central por hipercapnia. Além disso, observou-se também intensa redução do número de neurônios bulbares envolvidos no controle neural da respiração, como os neurônios Phox2b+ da região do núcleo retrotrapezóide (RTN), que estão envolvidos com a inspiração e o quimiorreflexo central. Dessa forma, o objetivo do presente trabalho foi investigar se a existência de uma via entre os neurônios da SN e do RTN poderia ser responsável por essa neurodegeneração. Realizamos injeções de traçadores anterógrados e retrógrados na SN e no RTN de ratos para verificar a existência de projeções diretas entre essas regiões, entretanto observamos que não há projeções diretas entre a SN e o RTN, mas há projeções indiretas entre essas duas regiões, utilizando a Substância Cinzenta Periaquedutal (PAG) como região intermediária. Além disso, observamos que no modelo de DP induzido pela injeção bilateral de 6-OHDA no CPu ocorre uma redução no número de varicosidades catecolaminérgicas na PAG e de neurônios que são ativados pelo quimiorreflexo central que se projetam da PAG para o RTN. Nossos experimentos eletrofisiológicos mostraram que a inibição bilateral da PAG pela injeção de muscimol não gera alterações respiratórias basais como ocorre no modelo da DP; entretanto, nesses animais, pudemos também observar, apesar de ser menor do que ocorre com animais submetidos ao modelo da DP, inibição de alterações respiratórias induzidas por hipercapnia. Nossos dados anatômicos mostraram que a comunicação entre os neurônios da SN e do RTN envolve neurônios da PAG e que essa via pode estar reduzida no modelo da DP, o que pode contribuir para a redução de neurônios do RTN; e que a redução neuronal desta via pode alterar as respostas respiratórias frente à ativação do quimiorreflexo central. / Parkinson\'s disease (PD) is a neurodegenerative disorder characterized clinically by tremor, rigidity, akinesia (or bradykinesia) and postural instability. Pathophysiologically, PD is classified as a synucleinopathy predominantly associated with loss of dopaminergic neurons in the substantia nigra (SN), but other brainstem neurons may also be degenerate in PD, contributing not only to the motor but also non-motor alterations observed in this pathology. Among the non-motor changes observed respiratory changes are present and can be characterized as upper airway obstruction, pneumonia and obstructive sleep apnea are one of the main causes of death in PD. The mechanisms that lead to the degeneration of neurons involved in respiratory control are still not well understood but data in the literature have demonstrated the loss of receptors in a region considered to be the respiratory rate generator in postmortem brains of humans. In the model animal DP of 6-hydroxydopamine (6-OHDA), a selective neurotoxic agent for catecholaminergic cells, there was an intense reduction in basal respiratory rate and ventilation, in addition to a intense reduction of neurons involved in neural control of breathing: Phox2b+ neurons in the retrotrapezoid nucleus (RTN) region. Thus, the aim of the present study was to investigate whether the existence of a pathway between SN and RTN neurons could be responsible for this bulbar neurodegeneration. We performed experiments using the injection of anterograde and retrograde tracers in the SN and the RTN to verify the existence of direct projections between these regions in rats. However, our results showed that there are no direct projections between the SN and the RTN, but there are indirect projections between these two regions, using Periaquedutal Gray Substance (PAG) as the intermediate region. In addition, we observed that in the PD model induced by the bilateral injection of 6-OHDA in CPu, a reduction of the projections PAG neurons for RTN and that are activated by the central chemoreflex. Our electrophysiological experiments have shown that in the 6-OHDA PD model there is a reduction of the cardiorespiratory responses induced by the activation of the central chemoreflex, since the bilateral inhibition of the PG of control animals does not alter these cardiorespiratory responses. Therefore, our anatomical results showed that the communication between SN and RTN neurons involves PAG neurons and that this pathway may be reduced in the PD model, which may contribute to the reduction of RTN neurons; and that the neuronal reduction of this pathway may alter respiratory responses to activation of the central chemoreflex.

Doença de Parkinson

Núcleo retrotrapezóide

Parkinson´s disease

Periaqueductal grey

Respiração

Respiration

Retrotrapezoid nucleus

Substância cinzenta periaquedutal

Substância negra

Substantia nigra

Characterization of the glutamatergic inputs in rat substantia nigra pars reticulata neurones: a patch clamp study.

January 1999

by Cheng Wai Ming. / Thesis submitted in: October, 1998. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1999. / Includes bibliographical references (leaves 54-68 (2nd gp.)). / Abstracts in English and Chinese. / ACKNOWLEDGEMENTS --- p.iv / ABSTRACT --- p.v / ABSTRACT (Chinese) --- p.vii / Chapter CHAPTER 1 --- LITERATURE REVIEW --- p.1 / Chapter 1.1 --- Ionotropic glutamate receptors --- p.1 / Chapter 1.1.1 --- AMP A receptor --- p.3 / Chapter 1.1.1.1 --- Structure of AMP A receptor --- p.3 / Chapter 1.1.1.2 --- Electrophysiological properties of AMPA receptor --- p.4 / Chapter 1.1.1.3 --- Pharmacology of AMPA receptors --- p.6 / Chapter 1.1.1.4 --- Kinetics of AMPA receptors --- p.8 / Chapter 1.1.2 --- NMDA receptor --- p.9 / Chapter 1.1.2.1 --- Structure of NMDA receptor --- p.9 / Chapter 1.1.2.2 --- Electrophysiological properties of NMDA receptor --- p.10 / Chapter 1.1.2.3 --- Pharmacology of NMDA receptor --- p.11 / Chapter 1.1.2.4 --- Kinetics of NMDA receptor --- p.12 / Chapter 1.2. --- The basal ganglia and the SNR --- p.12 / Chapter 1.3 --- Excitatory glutamatergic inputs on SNR --- p.16 / Chapter 1.4 --- Aim of study --- p.17 / Chapter CHAPTER 2 --- Electrophysiological properties of SNR neurones --- p.18 / Chapter 2.1 --- Introduction --- p.18 / Chapter 2.2 --- Methods --- p.19 / Chapter 2.2.1 --- In vitro slice preparation and maintenance --- p.19 / Chapter 2.2.2 --- Whole-cell patch-clamp recording --- p.20 / Chapter 2.2.3 --- Solutions and drugs --- p.21 / Chapter 2.2.4 --- Histological methods --- p.21 / Chapter 2.2.5 --- Data analysis --- p.22 / Chapter 2.3 --- Results --- p.22 / Chapter 2.3.1 --- Passive membrane properties of SNR neurones --- p.22 / Chapter 2.3.2 --- Firing rate and action potential characteristics --- p.23 / Chapter 2.3.3 --- Firing patterns --- p.23 / Chapter 2.3.4 --- Weak hyperpolarization activated inward rectification --- p.24 / Chapter 2.3.5 --- Slow aflerhyperpolarization --- p.25 / Chapter 2.3.6 --- Current-frequency relationship --- p.25 / Chapter 2.3.7 --- Morphology of labelled SNR neurones --- p.25 / Chapter 2.4 --- Discussion and conclusion --- p.26 / Chapter CHAPTER 3 --- AMPA and NMDA induced membrane responses --- p.30 / Chapter 3.1 --- Introduction --- p.30 / Chapter 3.2 --- Methods --- p.31 / Chapter 3.2.1 --- In vitro slice preparation and maintenance --- p.31 / Chapter 3.2.2 --- Whole-cell patch-clamp recording --- p.31 / Chapter 3.2.3 --- Solutions and drugs --- p.31 / Chapter 3.2.4 --- Drug application --- p.32 / Chapter 3.2.5 --- Immunocytochemistry --- p.32 / Chapter 3.2.6 --- Data analysis --- p.33 / Chapter 3.3 --- Results --- p.33 / Chapter 3.3.1 --- AMPA induced responses in SNR GABA neurones --- p.33 / Chapter 3.3.1.1 --- AMPA induced membrane depolarization --- p.33 / Chapter 3.3.1.2 --- AMPA induced membrane current --- p.34 / Chapter 3.3.1.3 --- Current-voltage relationship --- p.34 / Chapter 3.3.1.4 --- Effect of NBQX --- p.35 / Chapter 3.3.1.5 --- Effects of JSTX and spermine --- p.35 / Chapter 3.3.2 --- NMDA-induced response in SNR GABA neurones --- p.36 / Chapter 3.3.2.1 --- NMDA induced membrane depolarization --- p.36 / Chapter 3.3.2.2 --- NMDA induced membrane current --- p.36 / Chapter 3.3.2.3 --- APV blocked NMDA-induced current --- p.36 / Chapter 3.3.2.4 --- Effect of glycine on NMDA induced response --- p.37 / Chapter 3.3.2.5 --- Mg2+-sensitivity --- p.37 / Chapter 3.3.2.6 --- Current-voltage relationship --- p.38 / Chapter 3.3.3 --- GluR2 subunit immunostaining --- p.38 / Chapter 3.4 --- Discussion and conclusion --- p.39 / Chapter 3.4.1 --- AMPA receptors in SNR neurones --- p.39 / Chapter 3.4.2 --- NMDA receptors in SNR neurones --- p.41 / Chapter 3.4.3 --- Functional significance --- p.41 / Chapter CHAPTER 4 --- Glutamate-mediated synaptic currents in SNR --- p.43 / Chapter 4.1 --- Introduction --- p.43 / Chapter 4.2 --- Methods --- p.44 / Chapter 4.2.1 --- In vitro slice preparation and maintenance --- p.44 / Chapter 4.2.2 --- Electrophysiological recordings --- p.44 / Chapter 4.2.3 --- Electrical stimulation --- p.45 / Chapter 4.2.4 --- Solutions and drugs --- p.45 / Chapter 4.2.5 --- Data analysis --- p.46 / Chapter 4.3 --- Results --- p.46 / Chapter 4.3.1 --- Characteristics of spontaneous EPSCs --- p.46 / Chapter 4.3.1.1 --- General characteristics --- p.46 / Chapter 4.3.1.2 --- Kinetics --- p.47 / Chapter 4.3.1.3 --- Pharmacology --- p.47 / Chapter 4.3.2 --- Characteristics of evoked EPSCs --- p.48 / Chapter 4.3.2.1 --- General characteristics --- p.48 / Chapter 4.3.2.2 --- Pharmacological characterization --- p.49 / Chapter 4.3.2.3 --- Effects of bicuculline --- p.50 / Chapter 4.4 --- Discussion and conclusion --- p.50 / Chapter 4.4.1 --- Excitatory transmission onto SNR neurones --- p.50 / Chapter 4.4.2 --- Source of excitatory drive --- p.51 / Chapter 4.4.3 --- Interaction with GABA inputs --- p.52 / Chapter 4.4.4 --- Functional significance --- p.52 / REFERENCES --- p.54

Neurons--physiology

Substantia Nigra--physiology

Glutamates--physiology

Receptors, AMPA--physiology

Receptors, N-Methyl-D-Aspartate

Patch-Clamp Techniques

Caracterização da substância negra humana durante o envelhecimento / Caracterização da substância negra humana durante o envelhecimento

Alho, Ana Tereza Di Lorenzo

05 September 2011

INTRODUÇÃO: A presença e extensão da perda neuronal no encéfalo dos idosos ainda é controversa. A substância negra (SN) é uma região localizada no mesencéfalo e caracterizada macroscopicamente pela coloração escura, devido à presença neuromelanina. O envelhecimento da SN ainda é um mistério, mas existem grandes quantidades de estudos relativos às modificações sofridas por essa região com o passar dos anos. Alguns estudos detectaram perda neuronal na SN durante o envelhecimento, enquanto outros afirmam que não há alteração significativa durante esse processo. OBJETIVO: Caracterizar as alterações que ocorrem na SN durante o envelhecimento humano, em indivíduos sem sintomas da doença de Parkinson, do ponto de vista citoarquitetônico em 3D. CASUÍSTICA E METODOLOGIA:O presente projeto faz parte do Projeto Envelhecimento Cerebral (PEC) do Grupo de Estudos em Envelhecimento Cerebral (GEEC) da Faculdade de Medicina da Universidade de São Paulo (FMUSP). Foram utilizados 18 casos, classificados em quatro faixas etárias. Quinze casos foram analisados estereológicamente e recontruídos tridimensionalmente. Para estes, foram determinados número de neurônios, volume da SN e densidade neuronal e submetidos à testes estatísticos não paramétricos. Três casos foram imunocorados com quatro diferentes anticorpos: anti tirosina-hidroxilase (TH), anti proteína tau hiperfosforilada, anti proteína alfa-sinucleína e anti calbindina D28k (Calb) e analisados qualitativamente. RESULTADOS: As lâminas imunocoradas com anticorpo anti -sinucleína e anti-tau, foram negativas. As lâminas imunocoradas com anticorpo anti- TH e anti-Calb D28k foram positivas. Dos quinze casos analisados estereologicamente, Para o número de neurônios, encontrou-se: mediana de 504.575 células, valor mínimo de 348.662 células e valor máximo de 672.172 células. Para o volume, encontrou-se mediana de 190,8mm3; valor mínimo de 134,1 mm3 e valor máximo de 267,3mm3. Para a densidade total média, encontrou-se a mediana de 2.517,4 cel/mm3, valor mínimo de 1.603,1 cel/mm3 e valor máximo de 5.015,7 cel/mm3. Realizou-se o teste de correlação de Spearman para as três variáveis neuronais, correlacionando hemisfério direito e esquerdo, encontrou-se uma correlação moderada para número de neurônios e volume, e correlação forte para densidade. Com o mesmo teste, realizou-se análise das variáveis neuronais em função da idade, e não houve alteração estatisticamente significativa. Apenas uma tendência à diminuição no volume total da SN em relação à idade. Também verificou-se a relação entre as variáveis neuronais, por gênero em função da idade e não houve alteração estatisticamente significativa. Nas reconstruções tridimensionais, verificou-se uma grande variabilidade interpessoal entre as 15 SN reconstruídas. DISCUSSÃO: Diversos estudos estereológicos foram feitos, mas poucos deles com análise estereológica sem viés e a maior parte deles demonstra diminuição no número de neurônios, discordando dos achados atuais. A reconstrução tridimensional também não descreve alterações decorrentes do envelhecimento, mas aparentemente modificações interpessoais. CONCLUSÃO: As características da substância negra se mantém ao longo dos anos, porém, ainda devem ser muito mais estudadas / INTRODUTION: Some aspects about maco and micro braischanges are suffering modifications along the years. The presence and extension of neuronal lost in elderly still a big and polemic issue. The SUBSTANTIA NIGRA (SN) is located at the midbrain and characterized by the dark color due to the pigmented neurons, which contain neuromelanin. The SNs aging is still a mystery, nevertheless, there are great researches related to these changes suffered in this region by the years. Some of the researches noticed that neuronal lost in SN during the aging, while others claim that there are no significant modifications through this process.OBJECTIVE: Describing SN changes during the human aging in individuals with no Parkinsons disease symptoms, from the 3D cytoarchitectonic point of view. METHODS: This project is part of the Brain Aging Project of Brain Aging Study Group, in University of São Paulo Medical School. Eighteen cases had been analyzed and classified into four ages groups. Fifteen cases had been analyzed with stereological methos and 3D reconstructed. During the stereological analysis, were determinate the neuronal number, SN volume, neuronal density and submitted to nonparametric statistics test. Three cases had been immunostained with 4 different antibodies anti tyrosine-hydroxylase (TH), anti hyperphosphorylated tau (anti-tau), anti alfa-synuclein (alpha-syn) e anti calbindin D28k (Calb) and qualitatively analyzed. RESULTS: The immunostained slices with the anti alpha-syn and anti-tau antibodies were negative. The immunostained slices with anti TH and anti calb D28K antibodies were positive. From the 15 cases estereologically analyzed, 53,3% were female and 46,7% male. Had been analyzed neuron numbers, SN volume and neuronal density. For the neural numbers were found median of 504.575 cells, minimum value of 348.662 cells and maximum value of 672.172 cells. For the volume were found median of 190,8mm³; minimum value of 134,1mm³ and maximum value of 267,3mm³. For the total density, was found median of de 2.517,4 cel/mm³, minimum value of 1603,1 cel/mm³ , maximum value of 5015,7 cel/mm³. The Spearmans correlation test had been done to the three neuronal variable correlating the right and left hemispheres and was a moderated correlation between neuron numbers and neuron volume and strong correlation to density. Using the same test, the rate neuron by the age analysis had been concluded and there was no significant change.There was noticed just one trend to the reduction in the SN total volume related to aging. It was also checked the relation between the neurons variety by gender considering aging and there was no significant changes. In the 3D reconstruction, was possible to notice a great interpersonal variability between the 15 SN rebuilt. DISCUSSION: Many stereological researches had been done, however, a few of them used the unbiased stereological analysis and most of them show a reduction in the neuron number, disagreeing from the current conclusions. The 3D reconstruction also dont describe changes as aging result, but apparently interpersonal changes. CONCLUSION: The Substantia Nigra maintain the same characteristics along the years, however, it must be much more explored

3D reconstruction

Aging

Doença de Parkinson

Envelhecimento

Parkinson's disease

Reconstrução tridimensional

Substância negra

Substantia nigra

Tronco encefálico

Tronco encefálico

Mathematical Modeling Of Gate Control Theory

Agi, Egemen

01 December 2009

The purpose of this thesis work is to model the gate control theory, which explains the modulation of pain signals, with a motivation of finding new possible targets for pain treatment and to find novel control algorithms that can be used in engineering practice. The difference of the current study from the previous modeling trials is that morphologies of neurons that constitute gate control system are also included in the model by which structure-function relationship can be observed. Model of an excitable neuron is constructed and the response of the model for different perturbations are investigated. The simulation results of the excitable cell model is obtained and when compared with the experimental findings obtained by using crayfish, it is found that they are in good agreement. Model encodes stimulation intensity information as firing frequency and also it can add sub-threshold inputs and fire action potentials as real neurons. Moreover, model is able to predict depolarization block. Absolute refractory period of the single cell model is found as 3.7 ms. The developed model, produces no action potentials when the sodium channels are blocked by tetrodotoxin. Also, frequency and amplitudes of generated action potentials increase when the reversal potential of Na is increased. In addition, propagation of signals along myelinated and unmyelinated fibers is simulated and input current intensity-frequency relationships for both type of fibers are constructed. Myelinated fiber starts to conduct when current input is about 400 pA whereas this minimum threshold value for unmyelinated fiber is around 1100 pA. Propagation velocity in the 1 cm long unmyelinated fiber is found as 0.43 m/s whereas velocity along myelinated fiber with the same length is found to be 64.35 m/s. Developed synapse model exhibits the summation and tetanization properties of real synapses while simulating the time dependency of neurotransmitter concentration in the synaptic cleft. Morphometric analysis of neurons that constitute gate control system are done in order to find electrophysiological properties according to dimensions of the neurons. All of the individual parts of the gate control system are connected and the whole system is simulated. For different connection configurations, results of the simulations predict the observed phenomena for the suppression of pain. If the myelinated fiber is dissected, the projection neuron generates action potentials that would convey to brain and elicit pain. However, if the unmyelinated fiber is dissected, projection neuron remains silent. In this study all of the simulations are preformed using Simulink.

TP Biotechnology 248.13-248.65

Μηχανισμοί νευροεκφύλισης και νευροπροστασίας στο γενετικό μοντέλο ντοπαμινεργικής απονεύρωσης μυός weaver

Θεοδωρίτση, Διονυσία

28 July 2008

Η νόσος του Πάρκινσον χαρακτηρίζεται από την προοδευτική εκφύλιση της μελαινοραβδωτής ντοπαμινεργικής οδού που οδηγεί σε κινητικές διαταραχές. Θεωρείται πολυπαραγοντική νόσος, η αιτιολογία της οποίας παραμένει άγνωστη. Με δεδομένο ότι η διαθέσιμη φαρμακευτική αγωγή της νόσου στηρίζεται στη συμπτωματολογία της και έχει σοβαρές παρενέργειες, η νευροπροστασία από τα πρώϊμα στάδια της νόσου αποτελεί τομέα έντονης έρευνας. Τα τελευταία χρόνια, ένα ευρύ φάσμα παραγόντων ερευνήθηκε ως προς το νευροπροστατευτικό τους ρόλο σε νευροτοξικά μοντέλα οξείας ντοπαμινεργικής εκφύλισης. Ο μεταλλαγμένος μυς “weaver” αποτελεί ένα μοναδικό γενετικό μοντέλο μελαινοραβδωτής νευροεκφύλισης, η οποία λαμβάνει χώρα ενδογενώς και προοδευτικά, αρχίζοντας μετά την 7η μετεμβρυϊκή ημέρα (Ρ7) και προσεγγίζοντας το 50% την 21η μετεμβρυϊκή ημέρα (Ρ21). Στην παρούσα μελέτη, προκειμένου να διερευνηθούν νευροπροστατευτικοί μηχανισμοί κατά τα πρώτα στάδια της νευροεκφυλιστικής διαδικασίας στο μυ “weaver”, και να επιτευχθεί μία πλειοτροπική θεραπευτική δράση, χορηγήθηκαν τρεις φαρμακευτικοί νευροπροστατευτικοί παράγοντες με διαφορετικούς μηχανισμούς δράσης καθώς και ένα σχήμα συνδυασμού τους. Συγκεκριμένα, χορηγήθηκαν, μεμονωμένα και σε συνδυασμό, στους μυς “weaver” N-ακετυλοκυστεΐνη (ΝAC) (αντιοξειδωτική δράση), ασπιρίνη (αντιφλεγμονώδης δράση) και 17β οιστραδιόλη [Ε2] (αντιοξειδωτική, αντιαποπτωτική, νευροτροφική δράση) σε καθημερινή βάση από την Ρ1 μέχρι την Ρ21. Το νευροπροστατευτικό αποτέλεσμα αξιολογήθηκε με ανοσοϊστοχημικό προσδιορισμό των ντοπαμινεργικών νευρώνων της συμπαγούς μοίρας της μέλαινας ουσίας (SNpc) των μυών στους οποίους χορηγήθηκαν τα παραπάνω φάρμακα. Η χορήγηση των NAC και ασπιρίνης δεν επηρέασε την επιβίωση των ντοπαμινεργικών νευρώνων (DA) των weaver μυών. Αντίθετα η χορήγηση της 17β οιστραδιόλης οδήγησε σε σημαντική επιβίωση των DA νευρώνων της SNpc, της τάξης του 48%, στους weaver μυς που έλαβαν την αγωγή, συγκριτικά με τους weaver μυς που έλαβαν φυσιολογικό ορό. Επιπλέον η χορήγηση του συνδυασμού των τριών φαρμάκων (cocktail) προώθησε σε ακόμα μεγαλύτερο βαθμό την επιβίωση των DA νευρώνων της SNpc, σε ποσοστό 86%. Οι weaver μύες που έλαβαν το cocktail εμφάνισαν 26% περισσότερους DA νευρώνες σε σύγκριση με τους weaver μυς που έλαβαν μεμονωμένα 17β οιστραδιόλη προτείνοντας πιθανή συνεργιστική δράση μεταξύ 17β οιστραδιόλης και NAC. Η διερεύνηση του μηχανισμού της νευροεκφύλισης στην SNpc και της παρεχόμενης νευροπροστασίας από τη χορήγηση της 17β οιστραδιόλης και του cocktail πραγματοποιήθηκε σε δύο επίπεδα. Αρχικά με τον προσδιορισμό μιας σειράς δεικτών οξειδωτικού στρες όπως η υπεροξείδωση λιπιδίων και δείκτες της θειολικής κατάστασης του κυττάρου (GSH, GSSG, CSH NPSSC, PSH, PSSP, NPSH, NSPSSR). Ο προσδιορισμός της υπεροξείδωση λιπιδίων πραγματοποιήθηκε στο μεσεγκέφαλο και το ραβδωτό σώμα των φυσιολογικών και weaver μυών που έλαβαν φυσιολογικό ορό (saline +/+ και saline wv/wv), 17 β οιστραδιόλη (17β +/+ και 17β wv/wv) cocktail (cocktail +/+ και cocktail wv/wv). Τα επίπεδα της υπεροξείδωσης λιπιδίων, στο μεσεγκέφαλο, αυξήθηκαν περίπου κατά 98% στους saline wv/wv μυς συγκριτικά με τους saline +/+ δείχνοντας παρουσία έντονου οξειδωτικού στρες στην παθολογική κατάσταση των weaver μυών. Ήταν ενδιαφέρον όμως το γεγονός ότι η λιπιδική υπεροξείδωση ανεστάλη σε ποσοστό 27% στους 17β wv/wv ενώ επανήλθε στα φυσιολογικά επίπεδα στους cocktail wv/wv μύες. Από τους υπόλοιπους δείκτες που εξετάστηκαν μόνο το NPSSC έδειξε διαφορές μεταξύ saline +/+ και saline wv/wv, ενώ οι GSSG, PSSP και PSH ακολούθησαν παρόμοια αύξηση στους cocktail +/+ και cocktail wv/w. Οι παρατηρήσεις αυτές δείχνουν ότι οι συγκεκριμένοι δείκτες από μόνοι τους δεν μπορούν να δώσουν σαφή εικόνα της οξειδωτικής κατάστασης, καθώς αποτελούν ταχέως μεταβαλλόμενα συστατικά αντιοξειδωτικών κύκλων. Στη συνέχεια διερευνήθηκε η έκφραση των γονιδίων Lasp1, Supt14h, Nr4a2 (nurr1), Dlg4 και του γονιδίου του μεταφορέα της σεροτονίνης (SERT), τα οποία φαίνονται να εμπλέκονται στα μονοπάτια της νευροεκφύλισης, στη μεσεγκεφαλική περιοχή και στο ραβδωτό σώμα των weaver μυών. Δεν παρατηρήθηκαν διαφορές στα επίπεδα έκφρασής τους με χρήση της τεχνικής RT-PCR σε καμία από τις υπό εξέταση περιοχές. Τα αποτελέσματα της παρούσας εργασίας οδηγούν στο συμπέρασμα ότι η 17β-οιστραδιόλη παρείχε σημαντική νευροπροστασία στους ντοπαμινεργικούς νευρώνες, για πρώτη φορά, ενός μοντέλου in vivo, ενδογενούς, προοδευτικής μελαινοραβδωτής νευροεκφύλισης, του μοντέλου weaver. Στο μηχανισμό της νευροπροστατευτικής δράσης της Ε2 φαίνεται να παίζει σημαντικό ρόλο η αντιοξειδωτική της δράση αφού η χορήγησή της αναστέλλει τη λιπιδική υπεροξείδωση. Επιπλέον η νευροπροστατευτική δράση της Ε2 ενδυναμώθηκε σημαντικά κατά τη συγχορήγηση του NAC, προτείνοντας την ύπαρξη συνέργειας μεταξύ της Ε2 και της GSH, για πρώτη φορά σε ένα in vivo μοντέλο νευροεκφύλισης. Η ενίσχυση του νευροπροστατευτικού αποτελέσματος από το cocktail δίνει ένα πρόσθετο επιχείρημα στην υπόθεση του αντιοξειδωτικού τρόπου δράσης της Ε2 αφού παράλληλα το cocktail επαναφέρει την υπεροξείδωση των λιπιδίων στα φυσιολογικά επίπεδα. Οι παρατηρήσεις αυτές προτείνουν την Ε2 ως μια μελλοντική υποψήφια φαρμακευτική αγωγή για νευροεκφυλιστικές καταστάσεις, όπως είναι η νόσος του Πάρκινσον, για τα θηλυκά βέβαια άτομα. Eπιπλέον προτείνουν ότι ο συνδυασμός της Ε2 και του NAC μπορεί να οδηγήσει σε εφαρμογή μικρότερων και κατά συνέπεια λιγότερο επιβαρυντικών, από άποψη παρενεργειών, δόσεων που θα οδηγεί σε ίδιο ή και μεγαλύτερο νευροπροστατευτικό αποτέλεσμα με τη μεμονωμένη χορήγηση της 17β-οιστραδιόλης. / Parkinson’s disease (PD) is characterized by the progressive degeneration of the nigrostriatal dopaminergic innervation that leads to motor disturbances. It is considered to be a multifactor disease, the etiology of which still remains unknown. Since currently available treatments are only symptomatic, having severe side-effects, neuroprotection from the early stages of the disease has been given much attention as a promising approach to PD management. Indeed, a broad range of agents has been investigated for their neuroprotective role in neurotoxical models of acute dopaminergic degeneration. “Weaver” mutant mouse represents a unique genetic model, in which the nigrostriatal neurodegeneration occurs endogenously and progressively, starting after postnatal day 7 (P7) and reaching 50% at P21. In the present study, aiming to identify neuroprotective mechanisms in the early progression of the “weaver” degenerative process and to achieve a potentially pleiotropic therapeutic action, we applied three pharmaceutical agents with different mechanisms of action, as well as a scheme combining them. Specifically, “weaver” mice were treated, individually and in combination, with N-acetylcysteine (NAC) (antioxidant), aspirine (anti-inflammatory) and 17b-estradiol [E2] (antioxidant, antiapoptotic, neurotrophic) daily, from P1 to P21. The neuroprotective effect was evaluated by immunohistochemical detection of dopaminergic (DA) neurons in the substantia nigra (SNpc) of treated animals. The administration of ΝΑC and aspirine did not influence the survival of (DA) neurons of weaver mice. On the contrary, the administration of 17b estradiol led to significant survival of DA neurons of SNpc, approximately 48%, in weaver mice that received E2, comparatively with weaver mice that received saline. Moreover the administration of the combination of the three drugs (cocktail) promoted the survival of DA neurons of SNpc, approximately 86% to a higher degree. Weaver mice that received cocktail had 26% more DA neurons compared to weaver mice that received individually 17b estradiol, proposing a possible synergistic action between 17b estradiol and NAC. The investigation of mechanism of neurodegeneration in SNpc and provided neuroprotection by 17b estradiol and cocktail, was realised in two levels. Initiall, by determination of oxidative stress markers, like lipid peroxidation and markers of cellular thiol redox (GSH, GSSG, CSH NPSSC, PSH, PSSP, NPSH, NSPSSR). The determination of lipid peroxidation was realised in the midbrain and striatum of normal and weaver mice that received saline (saline +/+ and saline wv/wv), 17 b estradiol (17b +/+ and 17b wv/wv) cocktail (cocktail +/+ and cocktail wv/wv). Lipid peroxidation levels in the midbrain were increased about 98% in saline wv/wv mice comparatively with the saline +/+, showing the presence of intense oxidative stress in the weaver mutant mouse. It was interesting, however, the fact that lipid peroxidation was inhibited approximately 27% in 17b wv/wv mice, while it was reverted at the normal levels in cocktail wv/wv mice. Regarding to the other oxidative markers that were examined, only NPSSC showed differences between saline +/+ and saline wv/wv, while the GSSG, PSSP and PSH followed similar increasement in both cocktail +/+ and cocktail wv/w animals. This observation indicates that these markers alone cannot give a clear figure of oxidative situation, as they constitute rapidly altered components of antioxidant cycles. Afterwards, we investigated the expression of genes Lasp1, Supt14h, Nr4a2 (nurr1), Dlg4 and serotonin transporter’s gene (SERT), which appear to be involved in neurodegeneration pathways, in the midbrain ant striatum of normal and weaver mice. There were not observed differences in their expression levels (using the RT-PCR technique) in both regions investigated. The results of the present study, lead to the conclusion that 17b-estradiol provided important neuroprotection in the DA neurons, for the first time, in a model of in vivo, endogenous, progressive dopaminergic degeneration, the weaver model. The mechanism of E2’s neuroprotective effect appears to be antioxidant as the administration of E2 suspends lipid peroxidation. Moreover the E2’s neuroprotective effect was strengthened significantly by the co-treatment of NAC, proposing the existence of synergy between E2 and GSH, for the first time in an in vivo model of neurodegeneration. The reinforced cocktail’s result gives an additional argument in the hypothesis of antioxidant mechanism of E2’s action, as cocktail, at the same time, restores lipid peroxidation in normal levels. These observations propose E2 as a future candidate pharmaceutic treatment for neurodegenerative situations, like PD, of course for female individuals. Moreover they propose that the combined treatment of E2 and NAC, can lead to the application of lower and, in consequence, less aggravating doses, concerning the side effects, that will lead to same or even higher neuroprotective result with the individual administration of 17b-estradiol

Πάρκινσον

Weaver

Μέλαινα ουσία

Οιστρογόνα

Νευροεκφύλιση

Νευροπροστασία

Μύες

Εγκέφαλος

616.804 27

Parkinson

Weaver

Substantia nigra

Estrogens

Neurodegeneration

Neuroprotection

Mice

Brain