An analysis of antidepressant noncompliance in the private health sector of South Africa / Francois Naude Slabbert

Slabbert, Francois Naude

January 2014

The main aim of the thesis was to measure antidepressant (AD) non-compliance, to determine which factors are closely associated with AD non-compliance and the consequences of prolonged AD non-compliance in the private health sector of South Africa. The empirical study followed an observational, prospective, cohort study using longitudinal medicine claims data provided by a nationally representative Pharmaceutical Benefit Management company (PBM) from 1 January 2006 to 31 December 2011. Failure to respond to AD treatment and achieving remission has severe neurobiological and clinical consequences. The clinical consequences include increased social and functional impairment, higher risk for recurrence and relapse of a depressive episode, a weak treatment outcome, significant increase in treatment cost, over-utilization of health care systems, and ultimately an increased suicide risk. However, the neurobiological consequences are much more far reaching. One of the more serious yet under-recognized neurobiological complications of AD non-compliance is the development of antidepressant discontinuation syndrome (ADS), which is the result of non-compliance or the abrupt discontinuation of AD treatment. Altered serotonergic dysfunction appears central to ADS so that how an antidepressant targets serotonin will determine its relative risk for inducing ADS and thereby affect later treatment outcome. Low ADS risk with agomelatine versus other antidepressants can be ascribed to its unique pharmacokinetic characteristics as well as its distinctive actions on serotonin, including melatonergic, monoaminergic and glutamatergic-nitrergic systems. After the first four months only 34% (n=12 397) of patients were compliant. What’s more a statistically significant association was found between active ingredient consumed and compliance (p < 0.0001). Only 26.2% of patients who received amitriptyline-containing products were complaint compared to 38.8% and 38.7% in the cases of venlafaxine and duloxetine, respectively. The current study found that females have a significantly higher prevalence of MDD and HIV/AIDS when compared to males. The co-morbidity between HIV/AIDS and major depressive disorder (MDD) had a significant effect on AD treatment compliance as patients diagnosed with both HIV/AIDS and MDD (74.43. ± 32.03, 95%Cl: 71.51-77.34) displayed a lower compliance vs. MDD patients (80.94% ± 29.44, 95%Cl: 80.56-81.33). Noteworthy, observations were that 75% (p < 0.0217; Cramer’s V = 0.0388) of venlafaxine and 28.6% (p < 0.0197; Cramer’s V = -0.0705) of the paroxetine items were compliant in patients diagnosed with both HIV/AIDS and MDD. The overall compliance (35.19% acceptable compliance; n = 42 869) of patients taking both ADs and GDs was weak. In the group receiving both AD and GDs, an increased AD treatment period was associated with a significant increase (p < 0.0001) in AD compliance (406.60 days; 95%Cl: 403.20 – 409.90 vs. 252.70 days; 95%Cl: 250.20 – 255.20). In this cohort amitriptyline (29.57%), mirtazapine (31.36%) and fluoxetine (32.29%) were associated with the lowest levels of compliance, while duloxetine (40.67%) was found to have the highest compliance. Lastly, ADs with highest non-compliance were associated with an increase use in GDs. Alprazolam (n = 10 201) and zolpidem (n = 9 312) were the most frequently dispensed GDs in combination with AD treatment. In conclusion the current study confirms that AD non-compliance is as big an obstacle in developing countries as it is in developed countries. Antidepressant treatment non-compliance has far reaching consequences especially with the development of ADS which further complicates MDD and might be a precursor for the development of TRD. Several factors were found to be closely associated with AD treatment non-compliance which include; pharmacological class of AD, gender, chronic co-morbid illnesses and a short treatment period. / PhD (Pharmacy Practice), North-West University, Potchefstroom Campus, 2015

Antidepressants

Compliance

Medicine possession ratio

Major depressive disorder

South Africa

Half-life

Anhedonia

Anxiety

Serotonin transporter

Phasic receptor occupancy

Neuroplasticity

HIV/AIDS

Venlafaxine

An analysis of antidepressant noncompliance in the private health sector of South Africa / Francois Naude Slabbert

Slabbert, Francois Naude

January 2014

The main aim of the thesis was to measure antidepressant (AD) non-compliance, to determine which factors are closely associated with AD non-compliance and the consequences of prolonged AD non-compliance in the private health sector of South Africa. The empirical study followed an observational, prospective, cohort study using longitudinal medicine claims data provided by a nationally representative Pharmaceutical Benefit Management company (PBM) from 1 January 2006 to 31 December 2011. Failure to respond to AD treatment and achieving remission has severe neurobiological and clinical consequences. The clinical consequences include increased social and functional impairment, higher risk for recurrence and relapse of a depressive episode, a weak treatment outcome, significant increase in treatment cost, over-utilization of health care systems, and ultimately an increased suicide risk. However, the neurobiological consequences are much more far reaching. One of the more serious yet under-recognized neurobiological complications of AD non-compliance is the development of antidepressant discontinuation syndrome (ADS), which is the result of non-compliance or the abrupt discontinuation of AD treatment. Altered serotonergic dysfunction appears central to ADS so that how an antidepressant targets serotonin will determine its relative risk for inducing ADS and thereby affect later treatment outcome. Low ADS risk with agomelatine versus other antidepressants can be ascribed to its unique pharmacokinetic characteristics as well as its distinctive actions on serotonin, including melatonergic, monoaminergic and glutamatergic-nitrergic systems. After the first four months only 34% (n=12 397) of patients were compliant. What’s more a statistically significant association was found between active ingredient consumed and compliance (p < 0.0001). Only 26.2% of patients who received amitriptyline-containing products were complaint compared to 38.8% and 38.7% in the cases of venlafaxine and duloxetine, respectively. The current study found that females have a significantly higher prevalence of MDD and HIV/AIDS when compared to males. The co-morbidity between HIV/AIDS and major depressive disorder (MDD) had a significant effect on AD treatment compliance as patients diagnosed with both HIV/AIDS and MDD (74.43. ± 32.03, 95%Cl: 71.51-77.34) displayed a lower compliance vs. MDD patients (80.94% ± 29.44, 95%Cl: 80.56-81.33). Noteworthy, observations were that 75% (p < 0.0217; Cramer’s V = 0.0388) of venlafaxine and 28.6% (p < 0.0197; Cramer’s V = -0.0705) of the paroxetine items were compliant in patients diagnosed with both HIV/AIDS and MDD. The overall compliance (35.19% acceptable compliance; n = 42 869) of patients taking both ADs and GDs was weak. In the group receiving both AD and GDs, an increased AD treatment period was associated with a significant increase (p < 0.0001) in AD compliance (406.60 days; 95%Cl: 403.20 – 409.90 vs. 252.70 days; 95%Cl: 250.20 – 255.20). In this cohort amitriptyline (29.57%), mirtazapine (31.36%) and fluoxetine (32.29%) were associated with the lowest levels of compliance, while duloxetine (40.67%) was found to have the highest compliance. Lastly, ADs with highest non-compliance were associated with an increase use in GDs. Alprazolam (n = 10 201) and zolpidem (n = 9 312) were the most frequently dispensed GDs in combination with AD treatment. In conclusion the current study confirms that AD non-compliance is as big an obstacle in developing countries as it is in developed countries. Antidepressant treatment non-compliance has far reaching consequences especially with the development of ADS which further complicates MDD and might be a precursor for the development of TRD. Several factors were found to be closely associated with AD treatment non-compliance which include; pharmacological class of AD, gender, chronic co-morbid illnesses and a short treatment period. / PhD (Pharmacy Practice), North-West University, Potchefstroom Campus, 2015

Antidepressants

Compliance

Medicine possession ratio

Major depressive disorder

South Africa

Half-life

Anhedonia

Anxiety

Serotonin transporter

Phasic receptor occupancy

Neuroplasticity

HIV/AIDS

Venlafaxine

長期安非他命對老鼠活動量與 BH4 濃度的週律性影響及其相關

胡延薇, HU, YAN-WEI

Unknown Date

No description available.

安非他命

血壓胺

生化機轉

BH4 濃度

精神病

多巴胺

AMPHETAMIN

SEROTONIN

BIOCHEMICAL-MECHANISM

AMPHETAMINE-PSYCHOSES

DOPAMINE

The effect of early-life exposure of rats to venlafaxine on behaviour and neurological markers of antidepressant action in adulthood / Renier Kruger

Kruger, Renier

January 2014

Major depression is a serious mood disorder affecting more than 120 million people worldwide, irrespective of their race or socio-economic status. This psychiatric disorder is predicted to become the second leading cause of disability by the year 2020, second only to heart diseases in the global population, without distinguishing differences in the incidence within defined age groups. Depression is known to affect people across all age groups, including children, adolescents, adults and geriatrics, although older age is associated with an increased susceptibility to major depression and other psychiatric conditions. Until the 1970‘s depression during childhood and adolescence was thought to be uncommon or non-existent. Recent epidemiological studies have demonstrated that there is a persistent escalation in the prevalence of depression in children and adolescents. Accordingly, the number of prescriptions for drugs to treat this disorder in juveniles has escalated significantly. With our current limited understanding of the safety and long-term effects of treatment with antidepressants, the clinician is left making decisions without sound evidence of safety. In addition, psychotropic drugs may affect neurodevelopment during childhood and adolescence and may consequently modulate susceptibility to psychiatric disorders later in life. The objective of the current study was to investigate the effects of early-life (pre-natal and postnatal) chronic treatment with venlafaxine, a dual action serotonin-noradrenalin reuptake inhibitor, during the developmental phase of the serotonin and norepinephrine pathways in stress-sensitive rats on measures of cognition, anxiety-like and depressive-like behaviour later in life. The study also investigated which age shows optimal behavioural changes later in life, following the above mentioned administration of venlafaxine. In addition we also determined the effects that the administration of venlafaxine has on the levels of monoamines l-norepinephrine (l-NE) and serotonin (5-HT) in the prefrontal cortex and the hippocampus. A number of translational animal models of psychiatric disorders have been described and validated, and is suitable for such investigations. For the current study we used stress-sensitive Flinders Sensitive Line (FSL) rats and their controls, Flinders Resistant Line (FRL) rats. Pregnant dams were injected subcutaneously for 14 days with 10 mg/kg venlafaxine or saline from pre-natal day 15 (ND-15) to ND-01. New-born pups were then injected subcutaneously with 3 mg/kg venlafaxine or saline for 14 days from postnatal day 3 (ND+03) to ND+17. These doses were determined from previous studies reported in literature. Four rat treatment groups of both FSL and FRL rats received injections during pre-natal + postnatal ages as follows: saline + saline, venlafaxine + saline, saline + venlafaxine and venlafaxine + venlafaxine. Following the drug treatments, all rat groups were housed under normal conditions until the indicated time to be subjected to a battery of behavioural tests, including the novel object recognition test (nORT), locomotor activity test (Digiscan®), elevated plus maze (EPM) and forced-swim test (FST), scheduled on either ND+35, ND+60 or ND+90. Separate treatment groups were used for each age group. After the behavioural tests animals were decapitated, the brains removed and the prefrontal cortex and hippocampus dissected out. These were analysed at a later stage using an HPLC with electrochemical detection to determine the levels of the monoamines l-NE and 5-HT. All animal procedures were approved by the Ethics Committee of the North-West University (approval number: NWU-00045-10-S5), and are in accordance with the recommendations of the National Institutes of Health guide for the care and use of laboratory animals. The data from the current study suggest that in general FRL rats were not influenced by the early-life treatment with venlafaxine, as observed in the nORT, EPM or FST on ND+35, ND+60 or ND+90. There was minimal changes seen in the immobile behaviour in the FST of FRL rats that received prenatal venlafaxine. As expected, depressive-like behaviour in the FST was significantly enhanced in FSL rats relative to corresponding FRL rat groups as observed at ND+35 and ND+60, but not ND+90. Importantly, depressive-like behaviour was reversed following pre- and postnatal treatment with venlafaxine in FSL rats at ND+60, relative to the corresponding FRL rat groups. Reversal of depressive-like behaviour in FSL rats were not observed at ND+35 or ND+90, suggesting a delayed response that is reversed later in adulthood. The data from the nORT, Digiscan® or EPM did not reveal any significant differences between the various FSL treatment groups, including at ND+60. The current study therefore demonstrated that the treatment regimen employed had a transient effect on depressive-like behaviour later in life and suggested that genetic susceptibility plays an important role in the treatment of depression. This was suggested by the venlafaxine-induced decrease in immobile behaviour exhibited by FSL rats at ND+60 in the FST, and the subsequent increase in immobile behaviour at ND+90. In general, the most significant venlafaxine-induced effects were seen in FSL rats, suggesting genetic susceptibility plays an important role. / MSc (Pharmacology), North-West University, Potchefstroom Campus, 2014

Depression

Children and adolescents

5-HT

Serotonin

l-NE

Norepinephrine

Venlafaxine

Behaviour

Forced swim test

Depressie

Kinders en adolessente

Serotonien

Norepinifrien

Venlafaksien

Gedrag

Geforseerde swem toets

Effets neurophysiologiques de la stimulation du nerf vague : implication dans le traitement de la dépression résistante et optimisation des paramètres de stimulation

Manta, Stella

01 1900

La dépression est une pathologie grave qui, malgré de multiples stratégies thérapeutiques, demeure résistante chez un tiers des patients. Les techniques de stimulation cérébrale sont devenues une alternative intéressante pour les patients résistants à diverses pharmacothérapies. La stimulation du nerf vague (SNV) a ainsi fait preuve de son efficacité en clinique et a récemment été approuvée comme traitement additif pour la dépression résistante. Cependant, les mécanismes d’action de la SNV en rapport avec la dépression n’ont été que peu étudiés. Cette thèse a donc eu comme premier objectif de caractériser l’impact de la SNV sur les différents systèmes monoaminergiques impliqués dans la pathophysiologie de la dépression, à savoir la sérotonine (5-HT), la noradrénaline (NA) et la dopamine (DA), grâce à l’utilisation de techniques électrophysiologiques et de la microdialyse in vivo chez le rat. Des études précliniques avaient déjà révélé qu’une heure de SNV augmente le taux de décharge des neurones NA du locus coeruleus, et que 14 jours de stimulation sont nécessaires pour observer un effet comparable sur les neurones 5-HT. Notre travail a démontré que la SNV modifie aussi le mode de décharge des neurones NA qui présente davantage de bouffées, influençant ainsi la libération terminale de NA, qui est significativement augmentée dans le cortex préfrontal et l’hippocampe après 14 jours. L’augmentation de la neurotransmission NA s’est également manifestée par une élévation de l’activation tonique des récepteurs postsynaptiques α2-adrénergiques de l’hippocampe. Après lésion des neurones NA, nous avons montré que l’effet de la SNV sur les neurones 5-HT était indirect, et médié par le système NA, via l’activation des récepteurs α1-adrénergiques présents sur les neurones du raphé. Aussi, tel que les antidépresseurs classiques, la SNV augmente l’activation tonique des hétérorécepteurs pyramidaux 5-HT1A, dont on connait le rôle clé dans la réponse thérapeutique aux antidépresseurs. Par ailleurs, nous avons constaté que malgré une diminution de l’activité électrique des neurones DA de l’aire tegmentale ventrale, la SNV induit une augmentation de la DA extracellulaire dans le cortex préfrontal et particulièrement dans le noyau accumbens, lequel joue un rôle important dans les comportements de récompense et l’hédonie. Un deuxième objectif a été de caractériser les paramètres optimaux de SNV agissant sur la dépression, en utilisant comme indicateur le taux de décharge des neurones 5-HT. Des modalités de stimulation moins intenses se sont avérées aussi efficaces que les stimulations standards pour augmenter l’activité électrique des neurones 5-HT. Ces nouveaux paramètres de stimulation pourraient s’avérer bénéfiques en clinique, chez des patients ayant déjà répondu à la SNV. Ils pourraient minimiser les effets secondaires reliés aux périodes de stimulation et améliorer ainsi la qualité de vie des patients. Ainsi, ces travaux de thèse ont caractérisé l’influence de la SNV sur les trois systèmes monoaminergiques, laquelle s’avère en partie distincte de celle des antidépresseurs classiques tout en contribuant à son efficacité en clinique. D’autre part, les modalités de stimulation que nous avons définies seraient intéressantes à tester chez des patients recevant la SNV, car elles devraient contribuer à l’amélioration des bénéfices cliniques de cette thérapie. / Depression is a severe psychiatric disorder, in which a third of patients do not achieve remission, despite the wide variety of therapeutic strategies that are currently available. Brain stimulation has emerged as a promising alternative therapy in cases of treatment resistance. Vagus nerve stimulation (VNS) has shown promise in treating resistant-depressed patients, and it has been approved as an adjunctive treatment for resistant depression. However, the mechanism of action by which VNS exerts its antidepressant effects has remained elusive. The first goal of this thesis was therefore to characterize the impact of VNS on monoaminergic systems known to be implicated in the pathophysiology of depression such as serotonin (5-HT), norepinephrine (NE) and dopamine (DA), by means of electrophysiologic techniques and microdialysis in the rat brain. Previous research has indicated that one hour of VNS increased the basal firing activity of locus coeruleus NE neurons and, secondarily, that of 5-HT neurons, but only after 14 days of stimulation. Our work demonstrated that VNS also modified the firing pattern of NE neurons towards a bursting mode of discharge. This mode of firing was shown to lead to enhanced NE release in the prefrontal cortex and hippocampus after 14 days. Increased NE neurotransmission was also evidenced by enhanced tonic activation of postsynaptic α2-adrenoceptors in the hippocampus. Selective lesioning of NE neurons was then used to demonstrate that the effects of VNS on the 5-HT system were indirect, and mediated by the activation of α1-adrenoceptors located on the dorsal raphe 5-HT neurons. Similar to classical antidepressants, VNS also enhanced the tonic activation of pyramidal 5-HT1A heteroreceptors, which are known to play a key role in the antidepressant response. We also found that in spite of a diminished firing activity of ventral tegmental area DA neurons after VNS, extracellular DA levels were significantly elevated in the prefrontal cortex, and particularly in the nucleus accumbens which plays an important role in reward behavior and hedonia. A second objective was to characterize the optimal VNS parameters to treat depression using the firing activity of 5-HT neurons as an indicator. It was found that less stimulation was as effective as the standard levels to increase 5-HT neurons firing rate. These novel parameters could be helpful for clinical application in VNS responsive patients, to potentially minimize and/or even prevent stimulation-related side effects, thus improving their quality of life. In brief, these studies reveal an influence of VNS on all three central monoamine systems, which differs in part from that of classical antidepressants while contributing to the clinical efficacy of this approach. It will also be interesting to determine whether the proposed lower stimulation parameters are as effective in providing antidepressant response in patients receiving VNS, which should contribute to improve the clinical benefits of that therapy.

Dépression

Depression

Stimulation du nerf vague

Vagus nerve stimulation

Sérotonine

Serotonin

Noradrénaline

Norepinephrine

Dopamine

Dopamine

Electrophysiologie

Electrophysiology

Microdialyse

Microdialysis

Rat

Rat

Mécanismes cellulaires de l'induction du facteur de transcription Nur77 après un traitement aux antipsychotiques

Maheux, Jérôme

02 1900

Les antipsychotiques sont utilisés en clinique depuis plus de 50 ans pour pallier aux symptômes de la schizophrénie. Malgré une recherche intensive, les mécanismes cellulaires et moléculaires responsables de l’effet clinique de cette médication demeurent encore nébuleux. Ces drogues sont reconnues comme des antagonistes des récepteurs D2 de la dopamine et peuvent moduler la transcription génique dans le striatum. Au cours des recherches qui ont mené à l'écriture de cette thèse, nous avons exploré l’expression de Nur77, un facteur de transcription de la famille des récepteurs nucléaires, afin de caractériser le rôle de la dopamine, la sérotonine, l’adénosine et le glutamate dans la régulation génique contrôlée par les antagonistes D2. En premier lieu, nous avons examiné l’impact de la co-administration d’agents sérotonergiques et adrénergiques sur l’expression de l’ARNm de Nur77 induite par l’halopéridol, un antipsychotique de première génération. Nous avons observé que le 8-OH-DPAT et le MDL11939 préviennent partiellement l’induction de Nur77 dans le striatum. Au contraire, l’idazoxan potentialise l’effet de l’halopéridol sur l’expression de Nur77 alors que le prazosin reste sans effet. Ces résultats démontrent que l’expression striatale de Nur77 induite par l’halopéridol peut être modulée à la baisse avec un agoniste 5-HT1A ou un antagoniste 5-HT2A. Par la suite, nous avons évalué dans divers paradigmes expérimentaux l’effet de l’éticlopride, un antagoniste spécifique D2, afin d’explorer davantage le mécanisme de l’effet transcriptionnel des antagonistes D2. Étonnamment, la suppression de l’isoforme D2L chez la souris D2L KO ne réduit pas la réponse de l’éticlopride dans le striatum. Par contre, une lésion corticale avec l’acide iboténique bloque l’effet de l’éticlopride sur la transcription de Nur77, suggérant un rôle du glutamate. La combinaison d’un antagoniste des récepteurs métabotropes du glutamate de types 5 (mGluR5) et d’un antagoniste des récepteurs de l’adénosine A2A abolit complètement l’augmentation de la transcription de Nur77 induit par l’éticlopride dans le striatum. La modulation directe de l’expression striatale de Nur77 par les récepteurs mGluR5 et A2A a été confirmée dans un modèle de cultures organotypiques de tranches cérébrales. Ces résultats démontrent clairement que la modulation de l’expression génique dans le striatum, à la suite d’un traitement avec un antagoniste D2 pourrait être indépendante d’une interaction directe avec les récepteurs D2 post-synaptiques, et reposerait plutôt sur son interaction avec les récepteurs D2 hétérosynaptiques des afférences corticostriées et l’activation subséquente des récepteurs post-synaptiques du glutamate et de l’adénosine. En résumé, nos résultats suggèrent que l’interaction des antipsychotiques atypiques avec les récepteurs 5-HT2A et 5-HT1A pourrait expliquer la différence dans le patron d’expression génique induit par ces drogues en comparaison avec les antipsychotiques typiques. De plus, nos résultats révèlent un nouveau mécanisme d’action des antagonistes D2 et supportent un rôle primordial du glutamate et de l’adénosine dans les effets des antipsychotiques de première génération. / Antipsychotic drugs have been used to alleviate schizophrenia symptoms for more than 50 years. Despite extensive research, little is known about the molecular and cellular mechanism responsible for their clinical outcome. These drugs are usually recognized as dopamine D2 antagonists and are known to modulate gene expression in the striatum. In the present thesis, we used the expression of Nur77, a transcription factor of the orphan nuclear receptor family, to explore the role of dopamine, serotonin, glutamate and adenosine receptors in the effect of a dopamine D2 antagonist in the striatum. First, we examined the abilities of serotoninergic and adrenergic receptor drugs to modify the pattern of Nur77 mRNA expression induced by haloperidol, a first generation antipsychotic drug. We observed that 8-OH-DPAT and MDL11939 partially prevent haloperidol-induced Nur77 upregulation. On the contrary, idazoxan consistently potentiated haloperidol-induced Nur77 mRNA levels in the striatum whereas prazosin remained without effect. Taken together, these results show the ability of a 5-HT1A agonist or a 5-HT2A antagonist to reduce haloperidol-induced Nur77 striatal expression. Subsequently, we evaluated in different experimental designs the effect of eticlopride, a specific D2 antagonist, to provide additional information on the mechanism by which D2 antagonist controls transcriptional activity in the striatum. Surprisingly, deletion of the D2L receptor isoform did not reduce eticlopride-induced upregulation of Nur77 mRNA levels in the striatum. However, cortical lesions with ibotenic acid strongly reduced eticlopride-induced upregulation of Nur77 mRNA, suggesting a role for glutamate neurotransmission. A combination of a metabotropic glutamate type 5 (mGluR5) antagonist with an antagonist of its synergistic partner adenosine A2A receptor abolished eticlopride-induced upregulation of Nur77 mRNA levels in the striatum. Direct modulation of striatal Nur77 expression by glutamate and adenosine receptors was confirmed using corticostriatal organotypic cultures. Taken together, these results indicate that modulation of gene expression in the striatum, following a D2 antagonist, might not involve a direct interaction of the drug at postsynaptic D2 receptors, but rather relies on its interaction with corticostriatal presynaptic D2 receptors and subsequent activation of postsynaptic glutamate and adenosine receptors in the striatum. In summary, our results suggest that interaction of atypical antipsychotic drugs with 5-HT2A and 5-HT1A receptors participate in the differential pattern of gene expression induced by these drugs when compared with typical antipsychotic drugs. Moreover, our results uncover a new mechanism of action of D2 antagonists and support a prominent role of glutamate and adenosine in the effect of classic antipsychotic drugs.

Schizophrénie

antipsychotique

striatum

dopamine

sérotonine

D2

mGluR5

A2A

5-HT2A

5-HT1A

voie corticostriée

Schizophrenia

Antipsychotic drugs

serotonin

corticostriatal pathway

Le rôle de la méthylation de l’ADN dans les fonctions cérébrales fronto-limbiques et la réactivité au stress quotidien

Verner, Marie-Pier V.

02 1900

La sérotonine (5-HT) joue un rôle crucial dans l'étiologie des troubles mentaux comme la dépression majeure, les troubles de comportement et les troubles anxieux. Des études ont montré que des altérations précoces du système 5-HT peuvent potentiellement influencer le développement du cerveau et le fonctionnement du système fronto-limbique, engendrant des conséquences pour la régulation émotionnelle. Il existe aussi des évidences que le stress précoce peut affecter la méthylation de l'ADN résultant d'une altération de l'expression génique. Toutefois, le lien entre la méthylation de l'ADN et la réactivité comportementale à des facteurs de stress de la vie quotidienne est inconnu. La méthylation du gène transporteur 5-HT (SLC6A4) est d'un intérêt particulier, étant donné le rôle de SLC6A4 dans le développement du cerveau, les troubles mentaux et la régulation du stress. L'objectif de cette thèse est d'étudier l'association entre (1) les niveaux périphériques de méthylation de l'ADN dans le gène SLC6A4 et les réponses neurales aux stimuli émotionnels dans les circuits fronto-limbiques du cerveau, ainsi qu’entre (2) la méthylation périphérique de SLC6A4 et la réactivité comportementale au stress de la vie quotidienne. Nous explorons également l'association entre les réponses neuronales fronto-limbique à des stimuli émotionnels et la réactivité comportementale au stress de la vie quotidienne (3). À cette fin, vingt-deux personnes (11 femmes) d’âge moyen de 34,0 ans (SD : 1,5) avec différents niveaux de méthylation au gène SLC6A4 ont été recrutés à partir de deux études longitudinales. Les participants ont subi une analyse IRMf qui comprenait une tâche de traitement émotionnel. Un questionnaire en ligne sur la réactivité au stress quotidien de la vie a été réalisé pendant 5 jours consécutifs. Des analyses corrélationnelles et de régression ont été effectuées pour examiner les associations entre les variables primaires. Les résultats préliminaires de cette étude ont montré que la méthylation de l'ADN est associée à la désactivation significative du gyrus précentral et gyrus fusiforme respectivement face à des stimuli de peur et de tristesse. Aucune association significative n'a été observée entre les niveaux de méthylation et l'activation de l'amygdale. En outre, les scores obtenus aux variables de stress de la vie quotidienne tels que la détresse chronique ont été associées à la désactivation du précuneus et du cortex cingulaire postérieur face à la tristesse. Ces résultats suggèrent l'implication potentielle des processus épigénétiques dans l'activation cérébrale spécifique et la sensibilité au stress de la vie courante. / Serotonin (5-HT) plays a crucial role in mental disorders etiology such as major depression, conduct disorders and anxiety disorders. Studies have shown that early alterations in the 5-HT system can potentially influence frontal-limbic brain development and functioning, with consequences for emotional regulation. There is also evidence that early stress can affect DNA methylation resulting in an alteration in gene expression; however the link between DNA methylation and behavioural reactivity to current daily life stressors is not known. DNA methylation in the 5-HT transporter (SLC6A4) is of particular interest, given the role of SLC6A4 in brain development, mental disorders and stress regulation. The aim of the present thesis is to study the association between (1) peripheral levels of DNA methylation inthe SLC6A4 gene and the neural responses to emotional stimuli in the frontal-limbic brain circuitry (2) peripheral SLC6A4 methylation and behavioural reactivity to daily life stress. We also explore the association between frontal-limbic neural responses to emotional stimuli and behavioural reactivity to daily life stress (3). To this end, twenty-two individuals (11 females) with mean age of 34.0 years old (SD: 1.5) with various levels of SLC6A4 methylation gene were recruited from two longitudinal studies. Participants underwent an fMRI scan that included an emotional processing task. An online questionnaire on daily life stress reactivity was performed during 5 consecutive days. Correlations and regressions analyses were performed to investigate the associations among the primary variables. Results of this pilot study showed that DNA methylation is associated with the significant deactivation of the precentral gyrus and fusiform gyrus when respectively facing fearful and sad stimuli. No significant association was observed between levels of methylation and amygdala activation. Also, obtained scores todaily life stress variables such as chronic distress were associated with the deactivation of the precuneus and posterior cingulate cortex when facing sadness. Those results suggest the potential implication of epigenetic processes in specific brain activation and daily life stress sensitivity.

Sérotonine

Méthylation

Cerveau

Imagerie cérébrale

Stress

Psychopathologie

Serotonin

Methylation

Brain

fMRI

Psychopathology

Plasticité du cortex visuel: «homéodynamie» des connexions neuronales et modèle d’effets d’antidépresseurs

Bachatene, Lyes

04 1900

Les informations sensorielles sont traitées dans le cortex par des réseaux de neurones co-activés qui forment des assemblées neuronales fonctionnelles. Le traitement visuel dans le cortex est régit par différents aspects des caractéristiques neuronales tels que l’aspect anatomique, électrophysiologique et moléculaire. Au sein du cortex visuel primaire, les neurones sont sélectifs à divers attributs des stimuli tels que l’orientation, la direction, le mouvement et la fréquence spatiale. Chacun de ces attributs conduit à une activité de décharge maximale pour une population neuronale spécifique. Les neurones du cortex visuel ont cependant la capacité de changer leur sélectivité en réponse à une exposition prolongée d’un stimulus approprié appelée apprentissage visuel ou adaptation visuelle à un stimulus non préférentiel. De ce fait, l’objectif principal de cette thèse est d’investiguer les mécanismes neuronaux qui régissent le traitement visuel durant une plasticité induite par adaptation chez des animaux adultes. Ces mécanismes sont traités sous différents aspects : la connectivité neuronale, la sélectivité neuronale, les propriétés électrophysiologiques des neurones et les effets des drogues (sérotonine et fluoxétine). Le modèle testé se base sur les colonnes d’orientation du cortex visuel primaire. La présente thèse est subdivisée en quatre principaux chapitres. Le premier chapitre (A) traite de la réorganisation du cortex visuel primaire suite à une plasticité induite par adaptation visuelle. Le second chapitre (B) examine la connectivité neuronale fonctionnelle en se basant sur des corrélations croisées entre paires neuronales ainsi que sur des corrélations d’activités de populations neuronales. Le troisième chapitre (C) met en liaison les aspects cités précédemment (les effets de l’adaptation visuelle et la connectivité fonctionnelle) aux propriétés électrophysiologiques des neurones (deux classes de neurones sont traitées : les neurones à décharge régulière et les neurones à décharge rapide ou burst). Enfin, le dernier chapitre (D) a pour objectif l’étude de l’effet du couplage de l’adaptation visuelle à l’administration de certaines drogues, notamment la sérotonine et la fluoxétine (inhibiteur sélectif de recapture de la sérotonine). Méthodes En utilisant des enregistrements extracellulaires d’activités neuronales dans le cortex visuel primaire (V1) combinés à un processus d’imagerie cérébrale optique intrinsèque, nous enregistrons l’activité de décharge de populations neuronales et nous examinons l’activité de neurones individuels extraite des signaux multi-unitaires. L’analyse de l’activité cérébrale se base sur différents algorithmes : la distinction des propriétés électrophysiologiques des neurones se fait par calcul de l’intervalle de temps entre la vallée et le pic maximal du potentiel d’action (largeur du potentiel d’action), la sélectivité des neurones est basée sur leur taux de décharge à différents stimuli, et la connectivité fonctionnelle utilise des calculs de corrélations croisées. L’utilisation des drogues se fait par administration locale sur la surface du cortex (après une craniotomie et une durotomie). Résultats et conclusions Dans le premier chapitre, nous démontrons la capacité des neurones à modifier leur sélectivité après une période d’adaptation visuelle à un stimulus particulier, ces changements aboutissent à une réorganisation des cartes corticales suivant un patron spécifique. Nous attribuons ce résultat à la flexibilité de groupes fonctionnels de neurones qui étaient longtemps considérés comme des unités anatomiques rigides. En effet, nous observons une restructuration extensive des domaines d’orientation dans le but de remodeler les colonnes d’orientation où chaque stimulus est représenté de façon égale. Ceci est d’autant plus confirmé dans le second chapitre où dans ce cas, les cartes de connectivité fonctionnelle sont investiguées. En accord avec les résultats énumérés précédemment, les cartes de connectivité montrent également une restructuration massive mais de façon intéressante, les neurones utilisent une stratégie de sommation afin de stabiliser leurs poids de connectivité totaux. Ces dynamiques de connectivité sont examinées dans le troisième chapitre en relation avec les propriétés électrophysiologiques des neurones. En effet, deux modes de décharge neuronale permettent la distinction entre deux classes neuronales. Leurs dynamiques de corrélations distinctes suggèrent que ces deux classes jouent des rôles clés différents dans l’encodage et l’intégration des stimuli visuels au sein d’une population neuronale. Enfin, dans le dernier chapitre, l’adaptation visuelle est combinée avec l’administration de certaines substances, notamment la sérotonine (neurotransmetteur) et la fluoxétine (inhibiteur sélectif de recapture de la sérotonine). Ces deux substances produisent un effet similaire en facilitant l’acquisition des stimuli imposés par adaptation. Lorsqu’un stimulus non optimal est présenté en présence de l’une des deux substances, nous observons une augmentation du taux de décharge des neurones en présentant ce stimulus. Nous présentons un modèle neuronal basé sur cette recherche afin d’expliquer les fluctuations du taux de décharge neuronale en présence ou en absence des drogues. Cette thèse présente de nouvelles perspectives quant à la compréhension de l’adaptation des neurones du cortex visuel primaire adulte dans le but de changer leur sélectivité dans un environnement d’apprentissage. Nous montrons qu’il y a un parfait équilibre entre leurs habiletés plastiques et leur dynamique d’homéostasie. / Sensory informations are computed in the cortex by networks of co-activated neurons forming functional ensembles. Visual processing in the cortex underlies several aspects of neuronal characteristics such as anatomical, electrophysiological and molecular. In the primary visual cortex, neurons display selectivity for stimulus features such as orientation, motion direction and spatial frequency. Each stimulus property elicits a maximal firing rate of specific neuronal populations. Visual neurons display transient modifications of their response properties following prolonged exposure to an appropriate stimulus using visual learning or visual adaptation to a non-preferred stimulus. The main objective of this thesis is to investigate the neuronal mechanisms underlying the visual processing during adaptation-induced plasticity in adult animals. These mechanisms are examined through different aspects: the neuronal connectivity, the neuronal selectivity, the electrical properties of neurons, and the effects of drugs (serotonin and fluoxetine). The tested model is the orientation columns of the primary visual cortex. The present thesis is divided into four main chapters. The first chapter (A) focuses on the cortical reorganization following visual adaptation. The second chapter (B) examines the neuronal connectivity using pair-wise correlations and populational correlations of neuronal activities. The third chapter (C) further relate the previous aspects, i.e. the adaptation effects and the functional connectivity to the properties of neurons (two classes: regular-spiking and fast-spiking neurons). Finally, the fourth chapter (D) investigates the coupling of visual adaptation with the local administration of drugs (serotonin and fluoxetine). Methodology Using in vivo extracellular recordings of the neural activity in the primary visual cortex (V1) combined with intrinsic optical brain imaging, we record the spiking activity of neuronal populations and examine, from the multi-unit activity, the activity of individual neurons. The analysis of brain activity uses different algorithms: the electrophysiological distinctions between neurons are based on the trough-to-peak time of each spike (spike-width), the selectivity of neurons is based on the firing rate at different stimuli, and the functional connectivity uses a crosscorrelation computation. The usage of drugs is performed locally on the visual cortex (after craniotomy and removing of the dura). Results and conclusions In the first chapter, we demonstrate the ability of neurons to modify their selectivity to the presented stimuli following visual adaptation, exhibiting a well-organized reprogramming of the orientation columns; we attribute this result to a flexibility of functional units rather than rigid anatomical structures. Indeed, we observe an extensive restructuring of the complete orientation domain in order to refine the columnar organization where every stimulus is equally represented. This is further confirmed in the second chapter where in this case, the connectivity maps are investigated. In concordance with the previous results, the connectivity maps also exhibit restructuring but interestingly, neurons use a summative strategy to stabilize their total connectivity weights. These connectivity dynamics are examined in the third chapter in relation to electrophysiological properties of neurons. Indeed, two differently firing modes dissociate between two classes of neurons. Their distinct correlation dynamics point to the fact that they play different key roles in stimulus encoding within a neuronal population. Finally, in the last chapter, visual adaptation is coupled with the administration of serotonin and fluoxetine. Both drugs produce similar effects by facilitating the acquisition of the imposed stimulus. The non-preferred stimulus when adapted with the presence of the drug results in an increased firing rate of neurons at this particular stimulus. We present a neuronal model based on our findings to explain the fluctuations of firing with and without the drug. This thesis provides new insights into how visual neurons adapt to change their selectivity in the interplay between their plastic ability and their homeostatic dynamic.

Cortex visuel

Plasticité

Adaptation

Neurones

Sérotonine

Fluoxétine

Connectivité

Corrélation

Visual cortex

Plasticity

Neurons

Serotonin

Fluoxetine

Connectivity

Correlation

Sérotonine et pathologie cardiovasculaire : implication dans les valvulopathies cardiaques, la maladie coronaire et le remodelage vasculaire / Serotonin and cardiovascular disease : role in cardiac valve disease, coronary artery disease, and vascular remodelling

Mekontso Dessap, Armand

25 November 2008

En plus de sa fonction de neurotransmetteur, la sérotonine (5-HT) jouerait un rôle clé dans le système cardio-vasculaire, via ses effets vasoactif, prolifératif et trophique. Nous avons étudié son implication dans les valvulopathies cardiaques, la coronaropathie, et le remodelage vasculaire. La surproduction et l’absence d’inactivation de 5-HT sont des mécanismes possibles des valvulopathies associées au syndrome carcinoïde et à la prise d’anorexigènes. Nous avons démontré que l’inactivation du gène du transporteur de 5-HT (5-HTT, responsable de la capture cellulaire de 5-HT), conduit à la fibrose cardiaque et valvulaire chez la souris. Bien que le récepteur 5-HT1B médie les effets trophiques de 5-HT sur les myofibroblastes cardiaques humains, la contribution de ce récepteur à la valvulopathie a été écartée car les souris doublement déficientes en 5-HTT et 5-HT1B présentaient les mêmes altérations cardiaques que celles déficientes en 5-HTT. Le 5-HTT (ainsi que le récepteur 5-HT2A) serait aussi impliqué dans les effets de 5-HT observés chez les patients coronariens. Nous avons évalué l’association éventuelle reliant les polymorphismes fonctionnels du 5-HTT (L/S) et du 5-HT2A (C/T) au risque et la gravité de la coronaropathie sur un total de 830 sujets d’âge différent. L’allèle L était un facteur de risque indépendant de coronaropathie chez les sujets jeunes (mais pas chez les sujets âgés). Le polymorphisme du 5-HT2A n’était pas associé avec la survenue de coronaropathie, et aucun des génotypes n’était associé à la resténose clinique. Les occlusions tardives des greffons coronaires après chirurgie de pontage ont été attribuées au remodelage vasculaire par hyperplasie néointimale des cellules musculaires lisses (CML) sous l’effet de divers facteurs de croissance dont 5-HT. Nous avons observé que le remodelage vasculaire en organoculture, ainsi que la prolifération et la migration des CML vasculaires en réponse au sérum de veau foetal étaient nettement plus élevées pour les greffons de veine saphène que pour l’artère radiale et l'artère mammaire interne. Ces différences pourraient expliquer la variabilité de perméabilité angiographique des greffons coronaires à long terme. Ces trois études confirment le rôle important de la sérotonine dans les pathologies cardiovasculaires / Serotonin (5-HT) may play a key role in the cardiovascular system, with vasoactive, proliferative and trophic properties. We aimed at studying its implication in cardiac valve disease, coronary artery disease, and vascular remodelling of coronary grafts. 5-HT overproduction and reduced inactivation are possible mechanisms responsible for cardiac valvular disease in patients with carcinoid tumors and those treated with appetite suppressants, respectively. We found that deficiency of the 5-HT transporter (5-HTT, which is responsible for 5-HT uptake) gene leads to cardiac fibrosis and valvulopathy in mice. Although 5-HT1B receptors mediated the 5-HT-induced collagen secretion by human cardiac myofibroblasts, the contribution of this receptor type to valvulopathy was ruled out because double-KO mice deficient in both 5-HTT and 5-HT1B receptors showed the same cardiac alterations as 5-HTT-KO mice. 5-HTT may also mediate the effects of the high blood serotonin levels seen in patients with premature coronary artery disease (CAD), along with 5-HT2A receptor. We prospectively evaluated associations linking functional polymorphisms of 5-HTT (L/S) and 5-HT2A (C/T) to the risk and severity of premature versus late-onset CAD in a total of 830 individuals. The L allele was an independent risk factor for premature CAD (but not late-onset CAD). 5-HT2A genotypes were not associated with CAD and neither 5-HTT nor 5-HT2A genotypes were associated with clinical restenosis. Late graft occlusions after coronary artery bypass grafting have been ascribed to vascular remodelling with neointimal hyperplasia of smooth muscle cells (SMC), which is mediated by various growth factors including 5-HT. We found that the ex vivo vascular-wall remodelling in organ cultures, as well as SMC proliferation and migration in response to fetal calf serum were significantly higher for saphenous vein rings than for radial artery and internal thoracic artery rings. These differences might shed light on reported dissimilar angiographic patency rates of these coronary grafts

Sérotonine

Système cardiovasculaire

Maladie coronaire

Valvulopathie

Remodelage

Greffon coronaire

Remodelling

Serotonin

Cardiovascular system

Coronary heart disease

Valve heart disease

Coronary graft

Střevní mikrobiota a poruchy nálady / Intestinal microbiota and mood disorders

Ambrožová, Lucie

January 2016

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biological and Medical Sciences Candidate: Lucie Ambrožová Supervisor: Doc. MUDr. Josef Herink, DrSc. Title of diploma thesis: Intestinal microbiota and mood disorders The intestinal microbiom is composed mainly of two dominated strains - Bacteroidetes and Firmicutes. The other strains are just not numerous like the previous ones. The specimens have the invariable core of microbiom which doesn't change in time. Nevertheless they have also the transient gut bacteria, which change during their life. Intestinal microbiom is influenced by many factors. Between them we can categorize for example the way of the childbirth, the breast - feeding, the alimentation, the state of health, and the medicaments. Every specimen has own specific microbiom. It was found that human population is possible to divide into three intestinal groups or enterotypes. To each enterotype dominates different bacterial strain. It was proved that intestinal microbiom communicates with the brain and it works also vice versa. This communication system is called "brain - intestine" and takes several ways in several body systems (such as nervous, endocrine, metabolic, and immune). To normal development of the brain is needed the right colonisation of non...