Associação entre metabolismo do ferro e estresse oxidativo em pacientes com doeça de Parkinson

Medeiros, Márcio Schneider

January 2014

Introdução: A fisiopatologia da doença de Parkinson está associada a lesões por estresse oxidativo/nitrosativo. O ferro encontra-se acumulado na substância negra (SN) de pacientes com DP e está relacionado com esse dano através das espécies reagentes de oxigênio (EROs) e de nitrogênio (ERNs) na reação de Fenton. EROs e ERNs são produzidas normalmente em processos celulares e inflamatórios, e controladas por sistemas antioxidantes. Objetivo: Avaliar níveis periféricos de ferro em pacientes com DP para determinar se acúmulo na SN está relacionado com níveis elevados no sangue. Determinar biomarcadores periféricos confiáveis de estresse oxidativo/nitrosativo Métodos: Selecionados 40 pacientes com DP e 46 indivíduos controles para comparar níveis séricos de ferro, ferritina e transferrina, e de biomarcadores de estresse oxidativo/nitrosativo: superóxido dismutase (SOD), catalase, óxido nítrico (NOx), substâncias reativas ao ácido tiobarbitúrico (TBARS), tióis não-proteicos, “advanced oxidation protein products” (AOPP), “ferric reducing ability of plasma” (FRAP), NTPDases, ecto-5’-nucleotidase, adenosina deaminase (ADA), mieloperoxidase, albumina modificada pela isquemia (IMA) e vitamina C. Resultados: Níveis de ferro estavam diminuídos em pacientes com DP, enquanto ferritina e transferrina não mostraram diferença. Os biomarcadores de estresse oxidativo como TBARS, AOPP, NTPDases, IMA, mieloperoxidase, FRAP, vitamina C e tiois não-proteicos encontraram-se significativamente aumentados na DP. SOD, catalase, ecto-5’-nucleotidase não foram diferentes entre os grupos e os marcadores NOx e ADA foram significativamente aumentados nos controles. Nenhuma correlação foi encontrada entre os biomarcadores e dados sociodemográficos e de características da doença. Conclusão: Níveis plasmáticos de ferro encontram-se diminuídos em pacientes com DP comparados com controles saudáveis. Os biomarcadores TBARS, AOPP, NTPDases, IMA e mieloperoxidase mostraram-se confiáveis para lesão oxidativa, enquanto tióis não-proteicos, FRAP e vitamina C demonstram diminuição da capacidade antioxidante na DP. / Background: Parkinson’s disease (PD) pathophysiology is associated with oxidative/nitrosative stress damage. Iron accumulates in the substantia nigra (SN) of PD patients and is related to this damage along with oxygen and nitrogen reactive species (ROS, RNS) through Fenton reaction. ROS and RNS are normally produced in cell and inflammatory processes, controlled by antioxidant systems. Objective: To determine peripheral levels of iron, ferritin and transferrin in PD patients to evaluate whether iron accumulation in the SN could be related to serum levels. To determine reliable peripheral biomarkers of oxidative/nitrative stress. Methods: Forty PD patients and 46 controls were selected to compared serum levels of iron, ferritin, transferrin and oxidative/nitrative stress biomarkers: superoxide dismutase (SOD), catalase, nitric oxide (NOx), thiobarbituric acid reactive substances (TBARS), non-protein thiols, advanced oxidation protein products (AOPP), ferric reducing ability of plasma (FRAP), NTPDases, ecto-5’-nucleotidase, adenosine deaminase (ADA), myeloperoxidase, ischemic-modified albumin (IMA) and vitamin C. Results: Iron levels were decreased in patients with PD, while ferritin and transferrin were not different. Oxidative stress biomarkers, TBARS, AOPP, NTPDases, IMA, myeloperoxidase, FRAP, vitamin C and non-proteic thiols were significantly higher in PD. SOD, catalase, ecto-5’-nucleotidase were not different between the groups and biomarkers NOx and ADA were significantly increased in the controls. No correlation was found between biomarkers and sociodemographic and disease data. Conclusion: Plasmatic levels of iron are decreased in patients with PD compared to healthy controls. Biomarkers TBARS, AOPP, NTPDases, IMA and myeloperoxidase presented as reliable to measure oxidative/nitrative damage, while non-proteic thiols, FRAP and vitamin C show a decrease in the antioxidant capacity in PD.

Doença de Parkinson

Estresse oxidativo

Biomarcadores farmacológicos

Ferro

Parkinson’s disease

Iron

Oxidative stress

Nitrative stress

AOPP

FRAP

IMA

Myeloperoxidase

SOD

Catalase

NTPDase

Ecto-5’-nucleotidase

ADA

NO

Non-protein thiols

Vitamin C

TBARS

Biomarkers

Associação entre metabolismo do ferro e estresse oxidativo em pacientes com doeça de Parkinson

Medeiros, Márcio Schneider

January 2014

Introdução: A fisiopatologia da doença de Parkinson está associada a lesões por estresse oxidativo/nitrosativo. O ferro encontra-se acumulado na substância negra (SN) de pacientes com DP e está relacionado com esse dano através das espécies reagentes de oxigênio (EROs) e de nitrogênio (ERNs) na reação de Fenton. EROs e ERNs são produzidas normalmente em processos celulares e inflamatórios, e controladas por sistemas antioxidantes. Objetivo: Avaliar níveis periféricos de ferro em pacientes com DP para determinar se acúmulo na SN está relacionado com níveis elevados no sangue. Determinar biomarcadores periféricos confiáveis de estresse oxidativo/nitrosativo Métodos: Selecionados 40 pacientes com DP e 46 indivíduos controles para comparar níveis séricos de ferro, ferritina e transferrina, e de biomarcadores de estresse oxidativo/nitrosativo: superóxido dismutase (SOD), catalase, óxido nítrico (NOx), substâncias reativas ao ácido tiobarbitúrico (TBARS), tióis não-proteicos, “advanced oxidation protein products” (AOPP), “ferric reducing ability of plasma” (FRAP), NTPDases, ecto-5’-nucleotidase, adenosina deaminase (ADA), mieloperoxidase, albumina modificada pela isquemia (IMA) e vitamina C. Resultados: Níveis de ferro estavam diminuídos em pacientes com DP, enquanto ferritina e transferrina não mostraram diferença. Os biomarcadores de estresse oxidativo como TBARS, AOPP, NTPDases, IMA, mieloperoxidase, FRAP, vitamina C e tiois não-proteicos encontraram-se significativamente aumentados na DP. SOD, catalase, ecto-5’-nucleotidase não foram diferentes entre os grupos e os marcadores NOx e ADA foram significativamente aumentados nos controles. Nenhuma correlação foi encontrada entre os biomarcadores e dados sociodemográficos e de características da doença. Conclusão: Níveis plasmáticos de ferro encontram-se diminuídos em pacientes com DP comparados com controles saudáveis. Os biomarcadores TBARS, AOPP, NTPDases, IMA e mieloperoxidase mostraram-se confiáveis para lesão oxidativa, enquanto tióis não-proteicos, FRAP e vitamina C demonstram diminuição da capacidade antioxidante na DP. / Background: Parkinson’s disease (PD) pathophysiology is associated with oxidative/nitrosative stress damage. Iron accumulates in the substantia nigra (SN) of PD patients and is related to this damage along with oxygen and nitrogen reactive species (ROS, RNS) through Fenton reaction. ROS and RNS are normally produced in cell and inflammatory processes, controlled by antioxidant systems. Objective: To determine peripheral levels of iron, ferritin and transferrin in PD patients to evaluate whether iron accumulation in the SN could be related to serum levels. To determine reliable peripheral biomarkers of oxidative/nitrative stress. Methods: Forty PD patients and 46 controls were selected to compared serum levels of iron, ferritin, transferrin and oxidative/nitrative stress biomarkers: superoxide dismutase (SOD), catalase, nitric oxide (NOx), thiobarbituric acid reactive substances (TBARS), non-protein thiols, advanced oxidation protein products (AOPP), ferric reducing ability of plasma (FRAP), NTPDases, ecto-5’-nucleotidase, adenosine deaminase (ADA), myeloperoxidase, ischemic-modified albumin (IMA) and vitamin C. Results: Iron levels were decreased in patients with PD, while ferritin and transferrin were not different. Oxidative stress biomarkers, TBARS, AOPP, NTPDases, IMA, myeloperoxidase, FRAP, vitamin C and non-proteic thiols were significantly higher in PD. SOD, catalase, ecto-5’-nucleotidase were not different between the groups and biomarkers NOx and ADA were significantly increased in the controls. No correlation was found between biomarkers and sociodemographic and disease data. Conclusion: Plasmatic levels of iron are decreased in patients with PD compared to healthy controls. Biomarkers TBARS, AOPP, NTPDases, IMA and myeloperoxidase presented as reliable to measure oxidative/nitrative damage, while non-proteic thiols, FRAP and vitamin C show a decrease in the antioxidant capacity in PD.

Doença de Parkinson

Estresse oxidativo

Biomarcadores farmacológicos

Ferro

Parkinson’s disease

Iron

Oxidative stress

Nitrative stress

AOPP

FRAP

IMA

Myeloperoxidase

SOD

Catalase

NTPDase

Ecto-5’-nucleotidase

ADA

NO

Non-protein thiols

Vitamin C

TBARS

Biomarkers

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

Should Skin Biopsies Be Performed in Patients Suspected of Having Parkinson’s Disease?

Siepmann, Timo, Penzlin, Ana Isabel, Illigens, Ben Min-Woo, Reichmann, Heinz

06 June 2018

In patients with Parkinson’s disease (PD), the molecularly misfolded form of α-synuclein was recently identified in cutaneous autonomic nerve fibers which displayed increased accumulation even in early disease stages. However, the underlying mechanisms of synucleinopathic nerve damage and its implication for brain pathology in later life remain to be elucidated. To date, specific diagnostic tools to evaluate small fiber pathology and to discriminate neurodegenerative proteinopathies are rare. Recently, research has indicated that deposition of α-synuclein in cutaneous nerve fibers quantified via immunohistochemistry in superficial skin biopsies might be a valid marker of PD which could facilitate early diagnosis and monitoring of disease progression. However, lack of standardization of techniques to quantify neural α-synuclein deposition limits their utility in clinical practice. Additional challenges include the identification of potential distinct morphological patterns of intraneural α-synuclein deposition among synucleinopathies to facilitate diagnostic discrimination and determining the degree to which structural damage relates to dysfunction of nerve fibers targeted by α-synuclein. Answering these questions might improve our understanding of the pathophysiological role of small fiber neuropathy in Parkinson’s disease, help identify new treatment targets, and facilitate assessment of response to neuroprotective treatment.

info:eu-repo/classification/ddc/610

ddc:610

Cutaneous Autonomic Pilomotor Testing to Unveil the Role of Neuropathy Progression in Early Parkinson’s Disease (CAPTURE PD): Protocol for a Multicenter Study

Siepmann, Timo, Pintér, Alexandra, Buchmann, Sylvia J., Stibal, Leonie, Arndt, Martin, Kubasch, Anne Sophie, Kubasch, Marie Luise, Penzlin, Ana Isabel, Frenz, Elka, Zago, Wagner, Horváth, Tamás, Szatmári Jr., Szabolcs, Bereczki, Dániel, Takáts, Annamária, Ziemssen, Tjalf, Lipp, Axel, Freeman, Roy, Reichmann, Heinz, Barlinn, Kristian, Illigens, Ben Min-Woo

10 November 2017

Background: In Parkinson’s disease (PD), alpha-synuclein accumulation in cutaneous autonomic pilomotor and sudomotor nerve fibers has been linked to autonomic nervous system disturbances even in the early stages of the disease. This study aims to assess the association between alpha-synuclein-mediated structural autonomic nerve fiber damage and function in PD, elucidate the role of neuropathy progression during the early disease stages, and test reproducibility and external validity of pilomotor function assessment using quantitative pilomotor axon-reflex test and sudomotor function via quantitative direct and indirect test of sudomotor function. Methods/design: A prospective controlled study will be conducted at four study sites in Europe and the USA. Fifty-two male and female patients with idiopathic PD (Hoehn and Yahr 1–2) and 52 age- and sex-matched healthy controls will be recruited. Axon-reflex-mediated pilomotor erection will be induced by iontophoresis of phenylephrine on the dorsal forearm. Silicone impressions of the response will be obtained, scanned, and quantified for pilomotor muscle impressions by number, impression size, and area of axon-reflex spread. Axon-reflex-mediated sweating following acetylcholine iontophoresis will be quantified for number and size of droplets and axon-reflex spread. Sympathetic skin responses, autonomic and motor symptoms will be evaluated. Tests will be performed at baseline, after 2 weeks, 1, 2, and 3 years. Skin biopsies will be obtained at baseline and after 3 years and will be analyzed for nerve fiber density and alpha-synuclein accumulation. Discussion: We anticipate that progression of autonomic nerve dysfunction assessed via pilomotor and sudomotor axon-reflex tests is related to progression of autonomic symptom severity and alpha-synuclein deposition. Potential applications of the techniques include interventional studies evaluating disease-modifying approaches and clinical assessment of autonomic dysfunction in patients with PD.

info:eu-repo/classification/ddc/610

ddc:610

Akustická analýza vět složitých na artikulaci u pacientů s Parkinsonovou nemocí / Acoustic analysis of sentences complicated for articulation in patients with Parkinson's disease

Kiska, Tomáš

January 2015

This work deals with a design of hypokinetic dysarthria analysis system. Hypokinetic dysarthria is a speech motor dysfunction that is present in approx. 90 % of patients with Parkinson’s disease. Next there is described Parkinson's disease and change of the speech signal by this disability. The following describes the symptoms, which are used for the diagnosis of Parkinson's disease (FCR, VSA, VAI, etc.). The work is mainly focused on parameterization techniques that can be used to diagnose or monitor this disease as well as estimate its progress. A protocol of dysarthric speech acquisition is described in this work too. In combination with acoustic analysis it can be used to estimate a grade of hypokinetic dysarthria in fields of faciokinesis, phonorespiration and phonetics (correlation with 3F test). Regarding the parameterization, new features based on method RASTA. The analysis is based on parametrization sentences complicated for articulation. Experimental dataset consists of 101 PD patients with different disease progress and 53 healthy controls. For classification with feature selection have selected method mRMR.

Analýza Parkinsonovy nemoci pomocí segmentálních řečových příznaků / Analysis of Parkinson's disease using segmental speech parameters

Mračko, Peter

January 2015

This project describes design of the system for diagnosis Parkinson’s disease based on speech. Parkinson’s disease is a neurodegenerative disorder of the central nervous system. One of the symptoms of this disease is disability of motor aspects of speech, called hypokinetic dysarthria. Design of the system in this work is based on the best known segmental features such as coefficients LPC, PLP, MFCC, LPCC but also less known such as CMS, ACW and MSC. From speech records of patients affected by Parkinson’s disease and also healthy controls are calculated these coefficients, further is performed a selection process and subsequent classification. The best result, which was obtained in this project reached classification accuracy 77,19%, sensitivity 74,69% and specificity 78,95%.

Nástroj pro analýzu pohybu subjektů při měření funkční magnetickou rezonancí / Tool for analysis of subject's movements in functional magnetic resonance measurements.

Šejnoha, Radim

January 2016

This diploma thesis deals with an analysis of subject’s movement during measurements with funcional magnetic resonance imaging (fMRI). It focuses on methods of a movement artifacts detection and their removal in fMRI images. Thesis deals with metrics which are used for the movement rate of measured subjects evaluation. Metrics and a correction of movement are implemented into the programme in MATLAB. Comparison of subjects suffering from Parkinson’s disease with a group of healthy control was carried out. Tresholds of individual metrics were suggested and a criterion for the removal of subjects with high movement rate was determined.

Approche expérimentale de la physiopathologie des dyskinésies L-Dopa induites dans la maladie de Parkinson : comparaison de la cible classique, le striatum avec l’ensemble du cerveau / Multifunctional approach of L-Dopa induced dyskinesia pathophysiology in Parkinson’s disease : from the striatum to the whole brain

Bastide, Matthieu

18 September 2014

Le traitement de référence de la maladie de Parkinson (MP) reste l’utilisation du précurseurdirect de la dopamine: la L-3,4-dihydroxyphenylalanine (L-Dopa). Le traitement chroniquedes patients parkinsoniens à la L-Dopa induit, en revanche, systématiquement desmouvements involontaires anormaux que l’on qualifie de dyskinésies induites par la L-Dopa(DIL). L’étude de l’expression des dyskinésies s’est essentiellement focalisée sur lesdysfonctions neuronales engendrées dans les régions motrices des ganglions de la base et apermis de révéler une surexpression significative de gènes de réponse précoce (GRP) tels que: ΔFosB, ARC, Zif268 et FRA2 dans le striatum de rats dyskinétiques traités chroniquement à la L–Dopa. En revanche, plusieurs autres régions dopaminoceptives, probablement affectées par la dopamine exogène nouvellement synthétisée, ont été négligées alors qu’elles pourraient jouer un rôle clé dans l’expression des dyskinésies. Par conséquent, nous avons quantifié l’expression de ΔFosB, ARC, FRA2 et Zif268 dans l’ensemble du cerveau de rats dyskinétiques que nous avons comparée à des rats non-dyskinétiques. Cette approche nous a permis d’identifier 9 structures, localisées en dehors des ganglions de la base, présentant une surexpression d’au moins 3 des GRPs cités ci-dessus. Parmi ces structures, le domaine dorsolatéral du « bed nucleus of the stria terminalis » (dlBST) et l’habenula latérale (LHb) montrent une corrélation significative entre l’expression de ΔFosB et la sévérité des dyskinésies. Nous avons donc fait l’hypothèse que ces 2 structures pouvaient être impliquées dans l’expression des dyskinésies. Par conséquent, pour évaluer le rôle potentiel du dlBST et de la LHb dans les dyskinésies, nous avons inhibé l’activité électrique des neurones exprimant FosB/ΔFosB en utilisant la méthode d’inactivation sélective du Daun02/ß-galactosidase que nous avons précédemment validée dans une structure bien connue pour être impliquée dans les dyskinésies: le striatum. Nous avons démontré que l’inhibition de ces neurones, à la fois dans le dlBST et la LHb, diminuait la sévérité des dyskinésies sans affecter l’effet bénéfique de la L-Dopa chez les rats dyskinétiques. Nous avons ensuite pu confirmer l’implication du dlBST grâce au model de référence des dyskinésies: le macaque dyskinétique lésé au MPTP. L’ensemble de ces résultats nous a ainsi permis de montrer, pour la première fois, l’implication fonctionnelle de 2 structures externes aux ganglions de la base dans l’expression des dyskinésies, offrant de nouvelles perspectives thérapeutiques. / The gold standard treatment for Parkinson’s disease (PD) remains the dopamine precursor L- 3,4-dihydroxyphenylalanine (L-Dopa). Long-term L-Dopa treatment systematically leads to abnormal involuntary movements (AIMs) called L-Dopa-induced dyskinesia (LID). These manifestations first led to investigate the neuronal dysfunctions in the motor regions of thebasal ganglia and unravelled an overexpression of ΔFosB, ARC, Zif268 and FRA2 immediate-early genes (IEG) in the dopamine-depleted striatum of dyskinetic rats. However, other several dopaminoceptive structures, likely affected by the exogenously produced dopamine, have been neglected although they might play a key role in mediating LID. Hence, we assessed the expression of ΔFosB, ARC, FRA2 and Zif268 IEGs in the whole brain of dyskinetic rats compared to non-dyskinetic ones. Such approach shed light notably upon 9 structures located outside of the basal ganglia displaying an IEG overexpression. Among them, the dorsolateral bed nucleus of the stria terminalis (dlBST) and the lateralhabenula (LHb) displayed a significant correlation between ΔFosB expression and LID severity. We therefore postulated that these structures might play a role in LID manifestation. Therefore, to assess dlBST and LHb causal roles upon LID severity, we inhibited the electrical activity of FosB/ΔFosB-expressing neurons using the selective Daun02/β- galactosidase inactivation method that we previously validated in a well known structure involve in LID: the striatum. Interestingly, the inactivation of dlBST and LHb ΔfosBexpressing neurons alleviated LID severity and increased the beneficial effect of L-Dopa in dyskinetic rats. Remarkably, BST involvement in LID was confirmed in the gold standard model of LID, the dyskinetic MPTP-lesioned macaque. Altogether, our results highlight for the first time the functional involvement of 2 structures.

Maladie de Parkinson

Dyskinésies induites par la L-Dopa

Gènes de réponse précoce

Stéréologie

2-deoxyglucose

Électrophysiologie

Daun02

Rats

Macaques

Parkinson’s disease

L-Dopa induced dyskinesia

Immediate early genes

Stereology

2-deoxyglucose

Electrophysiology

Daun02

Rats

Macaques

Les systèmes monoaminergiques : implication dans la physiopathologie et la thérapie de la maladie de Parkinson / Monoaminergic systems : involvement in the pathophysiology and therapy of parkinson’s disease

Faggiani, Emilie

03 December 2014

La maladie de Parkinson est caractérisée par la manifestation de symptômes moteursprincipalement dus à la dégénérescence du système dopaminergique. Malgré l'accent mis surles déficits moteurs, la maladie de Parkinson est également caractérisée par des symptômesnon moteurs, incluant l'anxiété et la dépression, qui sont sous-étudiés et de ce fait pas bientraités. Alors que certaines études cliniques ont suggéré que l'anxiété et la dépressionpourraient être associées à la dégénérescence des neurones dopaminergiques, d'autres ontsuggéré l'implication de la dégénérescence des neurones noradrénergiques etsérotoninergiques dans les troubles observés mais également dans les effets induits par laLévodopa et la stimulation cérébrale profonde du noyau sous-thalamique.Dans un premier temps, nous avons étudié le rôle respectif de la dopamine, de lanoradrénaline et de la sérotonine dans la manifestation des déficits parkinsoniens moteurs etnon moteurs chez le rat. L’ensemble de nos résultats démontre que malgré l’importance dusystème dopaminergique, la perturbation des trois systèmes monoaminergiques joue un rôleimportant à la fois dans la manifestation des troubles moteurs et non moteurs.Nous avons également étudier l’impact des monoamines sur l’efficacité des traitementsantiparkinsoniens, à savoir, la Lévodopa et la stimulation cérébrale profonde du noyau sousthalamique,sur les troubles observés. Nos résultats montrent que la déplétion combinée dessystèmes monoaminergiques peut altérer l’efficacité de la Lévodopa ainsi que de lastimulation cérébrale profonde sur certains troubles. Ces résultats peuvent expliquer lemanque d’efficacité des traitements antiparkinsoniens chez certains patients et la difficulté àtraiter tous les symptômes.Pour finir, nous avons voulu mettre en évidence le lien entre le noyau sous-thalamique,structure excitatrice des ganglions de la base et les troubles moteurs, ainsi que l’amygdalebasolatérale et l’habénula latérale, structures impliquées dans les comportements émotionnels,et les troubles non moteurs. Nous avons mis en évidence le parallèle existant entre lesmodifications du mode de décharge des neurones du NST et les troubles moteurs, leschangements de l’amygdale basolatérale et les troubles anxieux ainsi que ceux de l’habénulalatérale et les troubles dépressifs.Les résultats de ces travaux de thèse ont donc permis d’apporter de nouvelles évidences surl’implication des trois systèmes monoaminergiques dans la physiopathologie et la thérapie dela maladie de Parkinson. / Parkinson’s disease is characterized by the manifestation of motor symptoms mostlyassociated with the degeneration of dopaminergic neurons. While Parkinson’s disease is oftenfocused on motor deficits, the disease is also characterized by non-motor deficits, includinganxiety and depression, which are under studied and consequently are not well treated.Whereas some clinical studies suggested that anxiety and depression could be linked to thedegeneration of dopaminergic neurons, others suggested the involvement of norepinephrineand serotonin in the observed symptoms and also in the efficacy of Levodopa and deep brainstimulation of the subthalamic nucleus.In a first time, we investigated the respective role of the neuronal degeneration of dopamine,noradrenaline and serotonin in the manifestation of motor and non-motor parkinsonian-likedisorders in the rat. Our results demonstrate that despite the importance of the dopaminergicsystem, the disturbances in the three-monoaminergic systems play a key role in themanifestation of motor and non-motor deficits.In a second time, we studied the impact of monoamine depletions on the efficacy ofantiparkinsonian treatments, the Levodopa and deep brain stimulation of the subthalamicnucleus. Our results showed that the combined depletions could deteriorate the efficacy of theLevodopa and of the deep brain stimulation on some deficits. Together, these results canexplain the lack of efficacy of the antiparkinsonian treatments in some patients and thedifficulty to treat all the symptoms.Finally, we investigated the link between the subthalamic nucleus, which is an excitatorystructure of the basal ganglia, and the motor deficits, as well as the involvement of thebasolateral amygdala and the lateral habenula in emotional control of the behavior, and nonmotordeficits. We showed the parallel between changes in the neuronal activity of thesubthalamic nucleus and the motor deficits, of the basolateral amygdala and anxiety and ofthe lateral habenula and depression.Results from this thesis provide new evidences on the involvement of the threemonoaminergicsystems in the pathophysiology and the therapy of Parkinson’s disease.

Maladie de Parkinson

Dopamine

Noradrénaline

Sérotonine

Moteur

Non moteur

Stimulation cérébrale profonde

Lévodopa

Noyau sous-thalamique

Amygdale basolatérale

Habénula latérale

Parkinson’s disease

Dopamine

Norepinephrine

Serotonin

Motor

Non-motor

Deep brain stimulation

Levodopa

Subthalamic nucleus

Basolateral amygdala

Lateral habenula