Neuronal Glucocorticoid Receptor Regulation of Brain Derived Neurotrophic Factor Expression / Régulation de l’expression du brain-derived neurotrophic factor par le récepteur des glucocorticoïdes dans le neurone

Chen, Hui

21 September 2017

Dans le système nerveux central (SNC), l'hippocampe est une structure majeure pour les fonctions cognitives et comportementales. Le Brain-Derived Neurotrophic Factor (BDNF), un acteur clé dans ces fonctions neuronales, est fortement exprimé dans l'hippocampe. La structure du gène Bdnf murin est complexe, comportant 8 exons non codants (I à VIII), chacun avec un promoteur spécifique (1 à 8) et un exon IX codant commun. Les glucocorticoïdes (GC) exercent des actions pleiotropes sur ces processus neuronaux en se liant et en activant le récepteur des glucocorticoïdes (GR), et le récepteur des minéralocorticoïdes (MR). Le GR est un facteur de transcription, modulant la transcription de ses gènes cibles, en se liant directement aux éléments de réponse des glucocorticoïdes ou en interagissant indirectement sur d’autres facteurs de transcription. Il a été suggéré que l'expression de Bdnf est régulée par le stress et les concentrations élevées de GC. Cependant, il reste à définir si BDNF est un gène cible du GR et quels sont les mécanismes moléculaires impliqués. Dans ce travail, nous avons démontré que les fortes concentrations de GC diminuent l'expression de l'ARNm de Bdnf via le GR dans divers modèles cellulaires neuronaux. Dans des cultures primaires de neurones hippocampiques de souris et dans les cellules BZ, les transcrits de BDNF contenant l’exon IV et VI sont reprimés par le GR. Par ailleurs les transfections transitoires démontrent que l’activité du promoteur 4 est diminuée par GR. Les expériences de mutagenèse et de ChIP ont révélé que la répression induite par le GR sur l'expression et l’activité transcriptionnelle de Bdnf implique un petit fragment de 74 bp situé dans le promoteur en amont de l'exon IV. La localisation précise de l’interaction génomique du GR et les facteurs de transcription potentiels mis en jeu restent à identifier. Ce travail a contribué à une meilleure compréhension des mécanismes impliqués dans la régulation de l’expression de Bdnf par GR. Il apporte de nouveaux éléments sur les interactions moléculaires et fonctionnelles entre la signalisation GC et celle de BDNF dans les neurones, d’importance majeure dans la physiopathologie du SNC. / In the central nervous system (CNS), the hippocampus is a structure of major importance for cognitive and behavioral functions. The brain-derived neurotrophic factor (BDNF), a key player in such neuronal functions is highly expressed in the hippocampus. Rodent Bdnf gene structure is relatively complex, composed of 8 noncoding exons (I to VIII), each one with a specific promoter (1 to 8), and one common coding exon IX. Glucocorticoids (GC) exert pleiotropic actions on neuronal processes by binding to and activating the glucocorticoid receptor (GR), as well as the mineralocorticoid receptor (MR). GR functions as a transcription factor, directly by interacting to glucocorticoid response elements or indirectly by interacting with other transcription factors, leading to the regulation of target gene transcription. It has been suggested that Bdnf expression is regulated by stress and high GC concentrations. However, it remains to define whether Bdnf is a GR target gene and what are the underlying molecular mechanisms. Herein, we demonstrate that high GC levels downregulate total Bdnf mRNA expression via GR in various in vitro neuron-like cellular models. In primary cultures of mouse hippocampal neurons and BZ cells, BDNF IV- and VI-containing transcripts are involved in this regulatory mechanism. Moreover, in transient transfections, promoter 4 activity was reduced by activated GR. Furthermore, ChIP analysis and mutagenesis experiments demonstrate that the GR-induced repression on Bdnf expression and transcriptional activities occurs through GR binding to a small 74 bp promoter sequence upstream of exon IV. The exact GR binding site on DNA and its putative transcription factor partners are currently under investigation. Altogether, these findings contribute to a better understanding of the mechanisms by which GR represses BDNF expression. Our study brings new insights into the molecular interactions between GC signaling and BDNF signaling in neurons, both important pathways in the pathophysiology of the CNS.

Brain-Derived neurotrophic factor

Neurones

Récepteur des glucocorticoïdes

Récepteur des minéralocorticoïdes

Brain-Derived neurotrophic factor

Neurons

Glucocorticoid receptor

Mineralocorticoid receptor

Investigating differential regulation of BDNF promoter IV activity by upstream polymorphic evolutionary conserved regions : implications for mood disorders and cognitive disfunction

Hing, Benjamin

January 2011

Major depressive disorder (MDD) and bipolar disorder (BD) are psychiatric diseases that affect behavior and impair cognition. A gene important to these disorders is the brain derived neurotrophic factor (BDNF) which is involved in processes controlling neuroplasticity. Previous studies have suggested that BDNF expression levels have to be finely regulated for normal mental health and cognition. This study therefore aimed to identify cis-regulatory elements that regulate BDNF promoter IV (BP4), which plays a role in mood and cognition, and investigated how polymorphisms in these cis-regulatory elements might alter BP4 activity contributing to MDD and BD. BP4-LacZ transgenic mice and primary neuron cultures were used to show that BP4 was active in the hippocampus, cortex and amygdala and responded to PKC, KCl and Wnt signaling activation. Using comparative genomics, two highly conserved regions were identified, BE5.1 and BE5.2, which contain the rs10767664 and rs12273363 polymorphisms respectively. Reporter gene assays in primary cultures derived from these brain structures showed that BE5.1 and BE5.2 were responsible for “filtering” or “gating” the effects of different combination of activated signal transduction pathways on BP4. Thus, BE5.1 increased BP4 response to forskolin in cortical cultures while abolishing BP4 response to PMA in hippocampal cultures. Similarly, BE5.2 permitted BP4 response to KCl and combined forskolin and PMA treatment, but not individual forskolin and PMA treatment nor LiCl in cortical cultures. Significantly, the minor allele of rs12273363, which has been associated with MDD and BD susceptibility, acted as a more potent repressor of BP4 response to neuron depolarization by KCl and PKA/PKC activation in different primary cultures. The possible relevance of these findings to the role of altered BDNF expression in MDD and BD are discussed.

616.8527

Overexpression of BDNF in the ventral tegmental area enhances binge cocaine self-administration in rats exposed to repeated social defeat.

Wang, Junshi, Bastle, Ryan M, Bass, Caroline E, Hammer, Ronald P, Neisewander, Janet L, Nikulina, Ella M

10 1900

Stress is a major risk factor for substance abuse. Intermittent social defeat stress increases drug self-administration (SA) and elevates brain-derived neurotrophic factor (BDNF) expression in the ventral tegmental area (VTA) in rats. Intra-VTA BDNF overexpression enhances social defeat stress-induced cross-sensitization to psychostimulants and induces nucleus accumbens (NAc) ΔFosB expression. Therefore, increased VTA BDNF may mimic or augment the development of drug abuse-related behavior following social stress. To test this hypothesis, adeno-associated virus (AAV) was infused into the VTA to overexpress either GFP alone (control) or GFP + BDNF. Rats were then either handled or exposed to intermittent social defeat stress before beginning cocaine SA training. The SA acquisition and maintenance phases were followed by testing on a progressive ratio (PR) schedule of cocaine reinforcement, and then during a 12-h access "binge" cocaine SA session. BDNF and ΔFosB were quantified postmortem in regions of the mesocorticolimbic circuitry using immunohistochemistry. Social defeat stress increased cocaine intake on a PR schedule, regardless of virus treatment. While stress alone increased intake during the 12-h binge session, socially-defeated rats that received VTA BDNF overexpression exhibited even greater cocaine intake compared to the GFP-stressed group. However, VTA BDNF overexpression alone did not alter binge intake. BDNF expression in the VTA was also positively correlated with total cocaine intake during binge session. VTA BDNF overexpression increased ΔFosB expression in the NAc, but not in the dorsal striatum. Here we demonstrate that VTA BDNF overexpression increases long-access cocaine intake, but only under stressful conditions. Therefore, enhanced VTA-BDNF expression may be a facilitator for stress-induced increases in drug abuse-related behavior specifically under conditions that capture compulsive-like drug intake.

Brain-derived neurotrophic factor

Social defeat stress

Cocaine self-administration

Nucleus accumbens

deltaFosB

Reaktive Veränderungen von Rückenmark und Nervenwurzeln nach dorsaler Rhizotomie sowie Ausriss und Replantation der Vorderwurzel im Segment C7 mit Applikation neurotropher Faktoren CNTF und BDNF / Reactive changes of spinal cord and nerve roots after dorsal rhizotomy, avulsion and replantation of C7 ventral roots with application of neurotrophic factors CNTF and BDNF

Schlegel, Nicolas

January 2006

Als Therapieversuch bei Plexusläsionen wird die Replantation ausgerissener Vorderwurzelfasern durchgeführt. Voraussetzung für die erfolgreiche Regeneration von Motoneuronaxonen sind 1. Überleben einer ausreichenden Anzahl von Motoneuronen 2. erfolgreiche Wiederherstellung der Kontuität ausgerissener Axone mit dem Rückenmark und 3. funktionelle Hochwertigkeit regenerierter Axone. Neurotrophe Faktoren können Überleben und Regenerationsfähigkeit von Motoneuronen fördern. Gegenstand der vorliegenden Arbeit war die Analyse des Einflusses von CNTF und BDNF auf die Regeneration von Motoneuronaxonen nach Ausriss und Replantation im Segment C7 nach einer Überlebenszeit von 3 Wochen bzw. 6 Monaten. Vervollständigt wurden diese Untersuchungen durch detaillierte morphologische Analysen von Spinalganglien, durchtrennter Hinterwurzel und verletztem Hinterhorn. In verschiedenen Gruppen von adulten Kaninchen wurden CNTF, BDNF, oder beide Faktoren auf die ventrolaterale Replantationsstelle appliziert, Kontrollen wurden ohne Faktor belassen (n>5). Die Überlebenszeit der Versuchstiere lag bei 3 Wochen (n=3 Kontrollen) und 6 Monaten (n=27). Aus dem perfundiertem Gewebe wurden Semidünnschnitte durch Vorderwurzel/Spinalganglien und Kryostatserienschnitte durch das Segment C7 angefertigt. DiI-Fluoreszenztracing, Markscheidenfärbung, eine modifizierte Klüver-Barrera-Färbung der Kryostatschnitte sowie eine Touloidinblaufärbung der Semidünnschnitte ermöglichte die morphologische und morphometrische Analyse des Gewebes. Die Anzahl der überlebenden Motoneurone lag nach sechs Monaten bei allen Versuchsgruppen bei etwa 30%. Fluoreszenz-Tracing und Markscheidenfärbungen von Serienschnitten zeigten, dass Axone sowohl über die ursprünglichen ventralen Austrittstellen als auch über die ventrolaterale Replantationsstelle das Rückenmark verließen und im Bereich des Spinalganglions eine kompakte Vorderwurzel bildeten. Ventral austretende Axone zeigten signifikant größere Durchmesser als lateral austretende. Ausmaß und Art der Regeneration waren interindividuell unterschiedlich, die besten Ergebnisse zeigte die Replantation nah am ursprünglichen Austrittsort der Vorderwurzel. Unterschiede zwischen den Gruppen waren nicht deutlich. In Semidünnschnitten durch die regenerierte Vorderwurzel fanden sich nach drei Wochen kaum intakte, myelinisierte Axone, nach sechs Monaten war die Zahl der Axone auf etwa 45% der Zahl der gesunden Seite angestiegen. Regenerierte Axone waren dünn, typische Motoneuronaxone stellten nur einen kleinen Teil der regenerierten Axone. Gruppenunterschiede fanden sich im Axon-Myelinverhältnis, das bei Kontrollen der replantierten Seiten signifikant erniedrigt war. Diese Erniedrigung war noch vorhanden, jedoch nicht mehr signifikant bei Tieren, die mit CNTF- und BDNF-behandelt wurden. Die replantierten Vorderwurzeln der CNTF+BDNF-Gruppe zeigte überwiegend eine signifikant bessere Myelinisierung als die replantierten Kontrollen. An der früheren Hinterwurzeleintrittszone am Rückenmark wurden in Tieren mit geringem Verletzungsausmaß kleine ZNS-Gewebsprotrusionen beobachtet, in denen sich myelinisierte Axone befanden. Diese Axone zeigten eine Wachstumsrichtung in die Peripherie, was auf eine Sprossung der sensorischen Rückenmarksneurone schließen lässt. Innerhalb des Spinalganglions waren Neuron- und Axondichte auf den verletzten Seiten nicht wesentlich verändert. Eine leichte Abnahme des relativen Anteils großer Neurone und Axone wurde in den verletzten Seiten der Kontrollgruppe beobachtet. Für Axone war diese Abnahme statistisch signifikant. Im Gegensatz dazu war dies in Tieren, die mit neurotrophen Faktoren behandelt wurden, nicht zu beobachten. Bei allen Tieren zeigte sich ein beträchtliches Auswachsen von Hinterwurzelaxonen aus dem Spinalganglion. Diese Axone fanden keine spontane Verbindung mit dem proximalen Rest der Wurzel, sondern waren durch Bindegewebe eingehüllt. Bei etwa der Hälfte der Tiere zeigte sich, dass einer Untergruppe dieser Axone in Richtung des Narbengewebes der replantierten Vorderwurzel gewachsen war und über Defekte in der Bindegewebshülle teilweise sogar in die Vorderwurzel einwuchsen. Ein möglicher Einfluss der applizierten neurotrophen Faktoren auf das quantitative Regenerationsergebnis scheint also in diesem Modell gering zu sein. Auf eine qualitative Verbesserung deutet die Normalisierung des Axon-Myelinverhältnisses großer regenerierter Axone bei Kombinationsbehandlung hin. Die im vorliegenden Modell beträchtliche Regenerationskapazität der Hinterwurzel scheint bisher unterschätzt worden zu sein. Das unerwartete Einwachsen von Hinterwurzelaxonen in die Vorderwurzel könnte mit einer funktionellen Beeinträchtigung der regenerierten Vorderwurzel verbunden sein. / Treatment of brachial plexus lesions is attempted by surgical replantation of avulsed nerve roots. Prerequisites for successful regeneration of motoneuron axons are 1. survival of a large number of motoneurons, 2. restoration of connectivity between avulsed nerve roots and spinal cord and 3. high quality of regenerated axons. Regeneration and survival of motoneurons can be supported by neurotrophic factors. In the present study, the influence of CNTF and BDNF on regeneration of motoneurons after C7 ventral root avulsion and replantation after 3 weeks and 6 months was analysed. Additionally, detailed morphological analyses of dorsal root ganglia (DRG), severed dorsal roots and injured dorsal horns were performed. In adult rabbits C7 dorsal roots were severed, ventral roots were avulsed and replanted ventrolaterally. CNTF, BDNF, or both was applied to the replantation site, controls were replanted without application of neurotrophic factors (n>5). After 3 weeks (n= 3 controls) and 6 months (n= 27) after avulsion and replantation semi-thin sections of ventral roots and DRGs as well as cryostat serial sections from C7 spinal cord segment were prepared. DiI-fluorescence tracing, myelin-sheath staining, modified Klüver-Barrera staining of cryostat section and touloidinblue staining of semi-thin sections served for morphological and quantitative analyses. Six months after lesion, a survival of 30% of the C7 motoneurons was found without differences between the experimental groups. Retrograde fluorescent tracing and histological analysis documented that many axons had regrown through the original ventral exit zones or had exited the spinal cord at the lateral replantation site. However, many laterally exiting axons had not grown out directly from the ventral horn through the lateral white matter but had elongated vertically before leaving the spinal cord. The mean axonal diameter was significantly higher in regenerated axons that had exited through the original ventral exit zones in comparison with axons which had grown out laterally. Application of BDNF and/or CNTF did not show any effects on the pathways of regeneration into the replanted root. Three weeks after ventral root avulsion and replantation the number of axons was rare. After six months, the number of myelinated axons increased to 45% compared to unlesioned sides. Regenerated axons were mainly of small caliber with few axons showing typical properties of motoneuron axons. In controls myelination was significantly reduced compared to the unlesioned sides. This was not observed after CNTF, BDNF and CNTF+BDNF treatment. In CNTF+BDNF treated animals myelination was significantly increased compared to replanted controls in the majority of cases. At the dorsal root entry zone, small myelinated axons extended into central tissue protrusions, in cases with well-preserved morphology. This suggested sprouting of spinal neuron processes into the central dorsal root remnant. In lesioned DRGs, the density of neurons and myelinated axons was not significantly altered, but a slight decrease in the relative frequency of large neurons and an increase of small myelinated axons was noted (significant for axons). Unexpectedly, differences in the degree of these changes were found between control and neurotrophic factor-treated animals. Central axons of DRG neurons formed dorsal root stumps of considerable length which were attached to fibrous tissue surrounding the replanted ventral root. In cases where gaps were apparent in dorsal root sheaths, a subgroup of dorsal root axons entered this fibrous tissue. Continuity of sensory axons with the spinal cord was never observed. Some axons coursed ventrally in the direction of the spinal nerve. In summary, the number of surviving motoneurons and regenerating axons appeared not to be influenced by a single- dose application of neurotrophic factors in this model. However, improvement of myelination indicated that the quality of regeneration can be increased especially by CNTF+BDNF- treatment. Moreover, the considerable capacity of dorsal root regeneration we observed in this study has possibly been underestimated previously. The unexpected ingrowth of dorsal root axons into the regenerated ventral roots could be harmful for ventral root regeneration.

Nervenregeneration

Neurotropher Faktor

Plexus brachialis

Armplexusverletzung

Ciliary neurotrophic factor

Brain-derived neurotrophic factor

ddc:610

Expression von Monoamintransportern, NO-Synthase-III und Neurotrophin BDNF in Antidepressiva-stimulierten Astrozyten / Expression of monoamine transporters, nitric oxyde III and neurotrophin BDNF in antidepressant-stimulated astrocytes

Kuhlemann, Julia

January 2009

Schwermut, Einsamkeit, Desinteresse: 2-7% der Weltbevölkerung werden von diesen Gefühlen bestimmt, sie sind an einer Depression erkrankt. In Deutschland leiden aktuell bis zu 4 Mio. Menschen an einer Depression. Zwei Drittel diese Kollektivs befinden sich in hausärztlicher Behandlung, aber nur etwa die Hälfte von diesen Patienten wird korrekt diagnostiziert und behandelt. Die Gründe hierfür sind auf der einen Seite die schwierige Diagnosefindung, auf der anderen die bisher nicht vollständig geklärte Ätiologie und die komplexen Wirkmechanismen der medikamentösen antidepressiven Therapieoptionen. Die Entstehung einer depressiven Episode ist multifaktoriell bedingt, wobei insbesondere genetischen Faktoren in der Pathogenese depressiver Erkrankungen eine wichtige Rolle zugeordnet wird. Neurobiologische Untersuchungen der molekularen und biochemischen Hintergründe von depressiven Episoden befassen sich zurzeit insbesondere mit drei Hypothesen: Diese sind die Neurotransmitter-Dysbalance-Hypothese (Monoaminhypothese), die Stressachsen-Hypothese (Hypothalamus-Hypophysen-Achse) und die Neurotrophin-Hypothese. Die Stressachsen-Hypothese befasst sich in diesem Zusammenhang mit der Aktivität des Hypothalamus-Hypophysen-Systems, die bei depressiv erkrankten Patienten dysreguliert ist und mit einer erhöhten Kortisolsekretion einhergeht. Die Monoaminhypothese der Depression postuliert eine Dysfunktion serotonerger, noradrenerger und dopaminerger Systeme. Die Neurotrophinhypothese bezieht sich auf das Second Messenger-System des durch Antidepressiva aktivierten cyclischen Adenosin-Monophosphat (cAMP) Signalwegs. Cyclisches Adenosin-Monophosphat aktiviert die cAMP-abhängige Proteinkinase (PKA), die wiederum den Transkriptionsfaktor cAMP response element binding protein (CREB) phosphoryliert und ihn somit stimuliert. Aktiviertes CREB verstärkt die Transkription zahlreicher Zielgene, inklusive die des brain-derived neurotrophic factor (BDNF), welcher unter anderem als Regulator von Neurotransmittern dient und Überleben, Differenzierung und Plastizität von Neuronen beeinflusst. Astrozyten gehören zur Gruppe der Makrogliazellen im zentralen Nervensystem (ZNS) und sind die größte Population der Gliazellen. Sie sind für die Kaliumhomöostase und ebenso für die Regulation der synaptischen Transmission und der neurovaskulären Koppelung zuständig. Des Weiteren scheinen Astrozyten eine wichtige Rolle für die Bildung glialer Narben, die Induktion der Blut-Hirn-Schranke und auch für das neuronale Überleben zu spielen. Bei der Analyse der Wirkmechanismen medikamentöser antidepressiver Therapien ist in der letzten Zeit die Rolle der Astrozyten in den Vordergrund gerückt, um deren Beitrag zu antidepressiven Therapien zu untersuchen. Das Ziel der vorliegenden Arbeit war zu untersuchen, ob in Astrozyten der Serotonin-Transporter (5-HT-Transporter, 5-HTT), der Brain-derived neurotrophic factor (BDNF), der Dopamin-Transporter oder die Stickstoffmonoxyd-Synthase III (endotheliale Stickstoffmonoxid-Synthase, eNOS) gebildet werden und falls ja, ob sich deren Expression durch Applikation von Antidepressiva ändert. Die aus Rattenhirnen gewonnenen Astrozytenkulturen wurden hierfür entweder mit dem trizyklischen Antidepressivum Imipramin, dem selektiven Serotoninrückaufnahmeinhibitor Escitalopram oder zur Kontrolle mit Kochsalzlösung inkubiert. Nachdem die entsprechende mRNA aus den behandelten Astrozytenkulturen extrahiert wurde, ist sie in cDNA translatiert und mit Hilfe der quantitativen Real-Time PCR quantifiziert worden. Durch Vergleich der Expression des zu untersuchenden Gens mit der Expression der Housekeeping-Gene 18s-rRNA, Glycerinaldehyddehydrogenase (GAPDH) und Acidic ribosomal phosphoprotein (ARP) wurden Ungenauigkeiten bei der cDNA-Synthese ausgeglichen und die Daten normalisiert. Die rechnerische Auswertung der quantitativen Real-Time PCR erfolgte unter Verwendung der Ct-Werte unter Zuhilfenahme der geNORM Software. Die Ergebnisse zeigen eine signifikant erhöhte BDNF-Expression nach Imipramingabe. Hierbei zeigen bei den getrennten Untersuchungen der jeweiligen mRNA Chargen die mit 100µM Imipramin behandelten Astrozytenkulturen stärker signifikante Ergebnisse, als die mit 50µM Imipramin behandelten Astrozytenkulturen. Werden alle Proben, die mit der jeweiligen Imipraminkonzentration 4 Stunden inkubiert wurden, zusammen analysiert und mit den jeweiligen Kontrollen verglichen, zeigt sich sowohl bei der Behandlung mit 50µM Imipramin als auch mit 100µM Imipramin eine signifikante Steigerung der BDNF Expression. Escitalopram stimulierte die BDNF-Expression zwar ebenfalls nominell, jedoch war der Effekt nicht signifikant. Des Weiteren konnte eine deutliche Expression von 5-HTT-mRNA in Astrozytenkulturen nachgewiesen werden. Jedoch hatte keines der Antidepressiva einen signifikanten Effekt auf die 5-HTT-Expression. Es konnten weder in den behandelten, noch in den unbehandelten Astrozytenkulturen DAT oder NOS-III nachgewiesen werden. / Melancholia, loneliness, lack of interest: 2-7% of world population are ruled by these feelings. In Germany, 4 million inhabitants suffer from depression. Two third of this population are under medical treatment, but only half of these patients are diagnosed and medicated correctly. Reasons are difficulties in finding the exact diagnosis on the one hand and the vague aetiology and complex effects of antidepressants on the other. The origin of a depressive episode has multiple reasons, especially genetic components are considered to play an important role. Neurobiological investigations of the molecular and biochemical backgrounds of depressive episodes centre on three hypotheses: The dysbalance hypothesis of neurotransmitters (monoamine hypothesis), the hypothesis of activated hypothalamus-pituitary-adrenal axis and the neurotrophin hypothesis. In this context, the hypothesis of activated hypothalamus-pituitary-adrenal axis deals with the dysregulation and over-stimulation of the hypothalamus-pituitary-adrenal axis and the following elevated cortisol-secretion. The monoamine hypothesis of depressive episodes postulates a dysfunction of serotonergic, noradrenergic and dopaminergic systems. The neurotrophin hypothesis refers to the cyclic adenosine monophosphate (cAMP) second messenger system, activated by antidepressants. Cyclic adenosine monophosphate activates the cAMP dependent protein kinase (PKA) that phosphorylates and consequently stimulates the transcription factor cAMP response element binding protein (CREB). Activated CREB enhances the transcription of numerous genes, including the brain derived neurotrophic factor (BDNF) that is among others regulating neurotransmitters and influences neuronal survival, differentiation and plasticity. Astrocytes are part of the macroglia in central nervous system and form the major population of glial cells. They are considered to be responsible for homeostasis of potassium and the regulation of synaptic transmission and neurovascular linkage. Furthermore, astrocytes take part in forming glial cicatrixes, induction of blood-brain-barrier and neuronal survival. In the course of investigating the effects of antidepressants, the centre of interest has focused on astrocytes and their contribution to antidepressant therapy. The aim of this dissertation was to study, if the serotonin transporter (5-HTT), the brain derived neurotrophic factor (BDNF), the dopamin transporter or the nitric oxide synthase III (eNOS) is synthesised in astrocytes and in case of, if their expression is modulated by antidepressants. The astrocyte cultures, gained from rats’ brains, were incubated with the tricyclic antidepressant imipramine, the selective serotonin reuptake-inhibitor escitalopram or sodium chloride solution. After extracting the corresponding mRNA from the astrocyte cultures, it was translated to cDNA and quantified using the quantitative Real-Time PCR. Comparing the expression of the gene of interest with the expression of the housekeeping genes 18s-rRNA, glyceraldehydes phosphate dehydrogenase (GAPDH) and acidic ribosomal phosphoprotein (ARP), equated inexactness of cDNA synthesis and normalised the acquired data. The mathematical evaluation of the qRT-PCR based on the Ct-figures with the assistance of geNORM software. The results show a significantly elevated BDNF expression after imipramine administration. mRNA batches of astrocyte cultures incubated with 100µM imipramine presented more significant results than mRNA batches of astrocyte cultures incubated with 50µM imipramine. Analysing all samples incubated for four hours with the corresponding concentration of imipramine and compared with the sodium chloride solution controls, a significant elevation of BDNF expression is detected in 50µM imipramine samples as well as in 100µM imipramine samples. Escitalopram stimulates the expression of BDNF nominally without showing significant effects. Furthermore, a clear expression of 5-HTT-mRNA in astrocyte cultures could be detected, but none of the antidepressants induced a significant effect on 5-HTT expression. Neither in medicated nor in control samples DAT or NOS-III were detected.

BDNF Astrozyten depressive Episode

Brain-derived neurotrophic factor

Depression

Imipramin

Escitalopram

ddc:610

Effects of Resistance and Aerobic Training on IGF-1 and BDNF Expression in a Murine Model of Alzheimer’s Disease

Unknown Date

The primary purpose of this study was to investigate the effects of aerobic and resistance training on BDNF and IGF-I expression in a 3xTg-AD mouse model of Alzheimer’s disease. Twenty-four 3xTg-AD mice were randomly assigned to either an aerobic (AT, n=8), resistance (RT, n=8), or control (CNT, n=8) group. Intervention groups underwent 9 weeks of exercise training. Motor behavior and grip strength were measured pre- and post- intervention. Our results showed a significant increase in hippocampal BDNF expression in AT mice after a 9-week intervention. Further, AT mice were found to have higher concentrations of IGF-I, and improved motor behavior when compared to RT and CNT. No significant differences were observed in IGF-I concentration between RT and other groups. RT improved grip strength after nine weeks of training. These findings support the use of AT and RT as a tool to improve comorbidities found in Alzheimer’s disease. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection

Alzheimer's disease.

Insulin-Like Growth Factor I.

Brain-Derived Neurotrophic Factor

Aerobic exercises.

Resistance Training.

The Role of Dopamine D1 and D2 Receptors in Adolescent Methylphenidate Conditioned Preference: Sex Differences and BDNF

Cummins, Elizabeth D., Griffin, Stephen B., Duty, Chase M., Burgess, Katherine C., Brown, Russell W.

10 November 2013

The purpose was to analyze the role of dopamine D1 and D2 receptors in conditioned place preference (CPP) of a relatively high dose (5 mg/kg) of methylphenidate (MPH) in adolescent male and female rats, as well as the role of these receptors in the effects of MPH on brain-derived neurotrophic factor (BDNF). The primary mechanism of MPH in the brain is the blockade of the dopamine transporter, yielding an increase of dopamine in the synaptic cleft and is the basis for the rewarding properties of MPH. An initial preference given on postnatal day (P)32 yielded no preference for any context in a three-chambered shuttle box with removable dividers, thus, a biased procedure was used. Conditioning began the day after the initial preference test on P33. On conditioning trials, animals were first administered saline or their respective antagonist (D1 antagonist: 0.1 or 0.2 mg/kg SCH-23390; D2 antagonist: 0.01 or 0.03 mg/kg Eticlopride HCl), followed by methylphenidate (MPH; 5mg/kg). Approximately 10 min after MPH administration, rats were placed into the paired context for a 10 min trial. The choice of the paired context was balanced across animals. In a separate session, all animals received saline in the opposing context. One day post-conditioning on P38, a preference test was administered with dividers removed. Preference was determined through the amount of time spent in the paired context as compared to time spent in the unpaired context on the post-conditioning preference test. One day following the preference test on P39, brain tissue was removed, and nucleus accumbens and striatum analyzed for BDNF. Results showed that MPH produced an increased preference on the post-conditioning preference test that was blocked by either dose of SCH-23390, but was not affected by either dose of eticlopride. Additionally, the higher dose of SCH-23390 resulted in a conditioned place aversion in males, which may be due to the increased presence of dopamine D1 receptors in adolescent males. MPH produced a robust significant increase in BDNF in both nucleus accumbens and striatum, and this increase was alleviated by SCH-23390, but the effect on BDNF is still to be analyzed relative to D2 antagonism. These results show that MPH results in a conditioned place preference in adolescent male and female rats, and these effects appear to be mediated by the dopamine D1 receptor. Further, MPH results in a significant increase of BDNF in drug reward areas of the brain, which has implications towards synaptic plasticity in these regions in response to MPH.

sex

dopamine

methylphenidate

Brain-Derived Neurotrophic Factor

BDNF

Biomedical Sciences

Neurosciences

Sex Differences in Induction and Expression of Methylphenidate Sensitization and Brain-Derived Neurotrophic Factor (BDNF) in Adolescent Rats

Roeding, Ross, Perna, Marla K., Griffin, Stephen B., Becker, R., Brown, Russell W.

17 October 2012

Methylphenidate (MPH) is a psychostimulant that is used for the treatment of attention-deficit hyperactivity disorder that is often recreationally abused. Past studies have primarily analyzed the effects of MPH on behavior and BDNF using males as subjects, with studies showing a lack of behavioral sensitization, although the effect of MPH on BDNF has yielded contradictory results. BDNF is a neurotrophin ubiquitously found throughout the brain that plays an important role in synaptic maintenance and development and has been implicated in addiction. This study analyzed sex differences in induction and expression of MPH locomotor sensitization in adolescent male and female rats as well as the effects of MPH on BDNF protein in two brain areas of drug reward: the nucleus accumbens (NAcc) and striatum (STR), after both induction and expression of sensitization. After habituation to a locomotor arena, animals (N=6-8 per group) were administered MPH (5 mg/kg) or saline every other day from postnatal day (P)33 to 49 and tested for 30 min in the same arena with activity counts recorded. In one group, brain tissue was removed one day following testing and the NAcc and STR assayed for BDNF at P50. A different group of animals was raised to P60 and given an MPH (or saline) challenge. One day following the challenge, brain tissue was removed and the NAcc and STR were assayed for BDNF at P61. Females administered MPH demonstrated behavioral sensitization from P33 to P41, and then decreased in activity from P41 to P49. Females demonstrated a robust increase in locomotor activation as compared to males, which failed to demonstrate sensitization to MPH. However, both groups given MPH demonstrated an increase in activity compared to controls throughout sensitization testing. On the challenge at P60, females administered MPH demonstrated higher levels of activity compared to all other groups and were equivalent to their final day of sensitization. Males administered MPH also expressed sensitization, as they demonstrated increased behavioral activation as compared to saline-treated controls. Neurochemical analyses at P50 revealed that MPH produced a significant increase in striatal BDNF in males, but a significant decrease in striatal BDNF in females. There were no changes in the NAcc. At P61, BDNF was increased in both STR and NAcc in males, and female data will be presented. These data demonstrate robust sex differences in behavioral activation and sensitization to MPH that is both induced and expressed in females, but only expressed in males. Further, MPH produces sex-dependent effects on BDNF, indicating sex differences in the brain plasticity response to MPH in adolescence.

sex

methylphenidate

rats

Brain-Derived Neurotrophic Factor

BDNF

Biomedical Sciences

Neurosciences

Sex Differences in Initiation and Expression of Methylplhenidate Sensitization in Adolescent Rats: Analysis of Accumbal and Striatal BDNF

Roeding, Ross L., Perna, Marla K., Brown, Russell W.

04 May 2012

This study analyzed locomotor sensitization to methylphenidate (MPH, Trade name: Ritalin) in adolescent male and female rats. Females, but not males, demonstrated locomotor sensitization. Interestingly, females given MPH demonstrated a significant decrease of brain derived neurotrophic factor (BDNF) in the striatum, whereas males demonstrated an increase in this same brain area.

sex

methylplhenidate

rats

Brain-Derived Neurotrophic Factor

BDNF

Biomedical Sciences

Neurosciences

Nucleus Accumbens BDNF Overexpression Alters the Behavioral Response to Nicotine

Kirby, Seth, Burgess, Katherine C., Beuttel, L. A., Peterson, Daniel J., Bradley, C. A., Zhu, Meng-Yang, Palmatier, Matthew I., Brown, Russell W.

14 November 2016

Brain-derived neurotrophic factor (BDNF) is a neurotrophic factor involved in synaptic differentiation, growth, and maintenance. Increases in BDNF have been shown in substance abuse and decreases in BDNF have been shown in response to stress and major depressive disorder (MDD). We analyzed the effects of BDNF upregulation via lentivirus on Pavlovian conditioned approach (PCA), behavioral sensitization, and nicotine self-administration in rats. Lentiviral-mediated expression cassettes, with dual promoters to drive the BDNF gene and the reporter gene were constructed according to the manufacturer’s instruction and surgically injected into the nucleus accumbens (Nac), the primary brain area that mediates drug reward and reinforcement. Rats were allowed to recover for three weeks before behavioral testing commenced. All rats were trained to associate the presentation of a lever and illumination of a stimulus light with delivery of 20% sucrose in a Pavlovian conditioned approach (PCA) task. Head entries into the receptacle where sucrose was delivered (goal tracking) and lever pressing (sign tracking) during the conditioned stimulus (CS) were measured to determine if BDNF over-expression (BDNF+) altered approach to the sign or goal location. Rats in the BDNF+ group made more goal directed behaviors during the CS than sham group. There were no differences in sign tracking and no differences in basal activity. This pattern suggests that BDNF over-expression may increase reward-related learning in a manner specific to goal tracking. Three days after completion of the PCA task, all animals were habituated to a locomotor arena followed by nicotine behavioral sensitization, and were administered nicotine (ip, 0.5 mg/kg free base) or saline every second day for seven days. Results revealed that the BDNF+ group demonstrated enhanced sensitivity to the hypoactive response to nicotine. At day 7, BDNF+ animals demonstrated enhanced behavioral sensitization to nicotine as compared to all other groups, and Sham NIC animals demonstrated sensitization compared to Sham SAL controls. Thus, it appears increasing NAc BDNF expression enhances the behavioral response to nicotine. Animals were then surgically implanted with a jugular catheter and commenced nicotine self-administration. Interestingly, BDNF+ rats demonstrated reduced nicotine self-administration and motivation to obtain nicotine. Global changes in BDNF expression could be a mediating variable in endophenotypes that are more or less susceptible to drug-taking and substance dependence.

Brain-Derived Neurotrophic Factor

BNF

nicotine

Biomedical Sciences

Neurosciences

Substance Abuse and Addiction