Global ETD Search

641	Intracellular Angiotensin II Inhibits Heterologous Receptor Stimulated Ca<sup>2+</sup> Entry Filipeanu, Catalin M., Brailoiu, Eugen, Henning, Robert H., Deelman, Leo E., De Zeeuw, Dick, Nelemans, S. Adriaan 30 November 2001 (has links) Recent studies show that angiotensin II (AngII) can act from within the cell, possibly via intracellular receptors pharmacologically different from typical plasma membrane AngII receptors. The role of this intracellular AngII (AngIIi) is unclear. Besides direct effects of AngIIi on cellular processes one could hypothesise a possible role of AngIIi in modulation of cellular responses induced after heterologous receptor stimulation. We therefore examined if AngIIi influences [Ca2+]i in A7r5 smooth muscle cells after serotonin (5HT) or UTP receptor stimulation. Application of AngIIi using liposomes, markedly inhibited 45Ca2+ influx after receptor stimulation with 5HT or UTP. This inhibition was reversible by intracellular administration of the AT1-antagonist losartan and not influenced by the AT2-antagonist PD123319. Similar results were obtained in single cell [Ca2+]i measurements, showing that AngIIi predominantly influences Ca2+ influx and not Ca2+ release via AT1-like receptors. It is concluded that AngIIi modulates signal transduction activated by heterologous receptor stimulation. A7r5 cells Ca influx 2+ Ca release 2+ intracellular angiotensin II serotonin UTP
642	The Regulation of Corticosteroid Receptors in Response to Chronic Social Defeat Zhang, Jia, Fan, Yan, Raza, Muhammad U., Zhan, Yanqiang, Du, Xiang Dong, Patel, Paresh D., Zhu, Meng Yang 01 September 2017 (has links) Our previous studies demonstrated that chronic social defeat (CSD) up-regulated expression of the serotonin transporter (SERT) and norepinephrine transporter (NET) in the brain, which was mediated by corticosteroid receptors. In the present study we first analyzed the alterations of corticosteroid receptors in different brain regions after the CSD paradigm. The results showed that CSD significantly reduced glucocorticoid receptor (GR) protein levels in the CA1 and dentate gyrus of the hippocampus, as well as in central and basolateral nuclei of the amygdala, which was accompanied by the translocation of GR from cytoplasm to nuclei. CSD also markedly reduced GR mRNA levels and MR immunoreactivity in the CA1, CA3 and dentate gyrus areas of the hippocampus. Conversely, CSD pronouncedly enhanced GR mRNA and protein levels in the dorsal raphe nucleus and locus coeruleus relative to the control. As an extension of our previous studies, in situ hybridization and immunohistochemical staining demonstrated that CSD regimen caused a notable increase of SERT mRNA levels in the dorsal raphe nucleus and increased SERT immunoreactivities in CA1 and CA3 of the hippocampus, as well as those in the basolateral nuclei of the amygdala. Likewise, CSD regimen resulted in an evident enhancement of NET immunoreactivity in the CA1 of the hippocampus and in the basolateral nuclei of the amygdala. Our current findings suggest that GR expressional alterations in response to CSD are complex and brain region-specific, which may correspond to their different functions in these regions. chronic social defeat depression glucocorticoid receptors norepinephrine transporters serotonin transporters Biomedical Sciences
643	Modulation CD4+ humaner Treg- und Tconv-Zellen durch Inhibition der sauren Sphingomyelinase in vitro / Modulation of CD4+ human Treg and Tconv cells by inhibition of the acid sphingomyelinase in vitro Dennstädt, Fabio Stefan January 2020 (has links) (PDF) Die saure Sphingomyelinase (ASM) stellt durch die Umwandlung von Sphingomyelin in Ceramid und Phosphorylcholin ein zentrales, fein reguliertes Enzym im Sphingolipidmetabolismus dar. Dadurch nimmt es Einfluss auf verschiedene zelluläre Mechanismen wie Signalvermittlung, Endo- und Exozytose und Zellaktivierung. Dementsprechend weitreichend ist auch die Bedeutung der ASM bei verschiedenen Krankheiten wie Arteriosklerose, Depression oder Neoplasien. Auch auf das Immunsystem, insbesondere auf die Signalvermittlung durch T-Zellen innerhalb des adaptiven Immunsystems, nimmt die saure Sphingomyelinase Einfluss. Aufbauend auf früheren Forschungsarbeiten zur pharmakologischen und genetischen Hemmung der ASM im Mausmodell untersuchten wir, welche Auswirkungen die Hemmung dieses Enzyms in humanen Zellkulturen auf die Population regulatorischer und konventioneller T-Zellen haben. Hierzu verwendeten wir die beiden selektiven Serotonin-Wiederaufnahmehemmer Sertralin und Citalopram; zwei antidepressiv wirksame Medikamente, die durch eine Verdrängung der ASM von der lysosomalen Membran eine hemmende Wirkung ausüben. Wir konnten zeigen, dass diese beiden Substanzen sowohl in Maus-T-Zellen, als auch in humanen T-Zellen, in der Lage sind, die Aktivität der sauren Sphingomyelinase zu inhibieren. Durch Kultivierung von Immunzellen der Maus zusammen mit den Inhibitoren konnte darüber hinaus eine Erhöhung der Treg-Zellfrequenz erreicht werden. Verschiedene Zellkulturexperimente mit humanen PBMCs zeigten weiterhin, dass unter gewissen Umständen so auch eine Vermehrung regulatorischer T-Zellen im Menschen möglich ist, und dass dies mutmaßlich durch Einbindung der ASM im CD3/CD28-Signalweg bedingt ist. In mit AntiCD3-Antikörper stimulierten experimentellen Ansätzen kam es jedoch nur bei einzelnen Individuen, die als Responder identifiziert werden konnten, zu einer Treg-Zellvermehrung. Umgekehrt kam es durch externe Zugabe von C6-Ceramid zu einer Verringerung des Anteils an regulatorischen T-Zellen. Des Weiteren wurden verschiedene Veränderungen im Expressionsverhalten von Treg- und Tconv-Zellen bezüglich CD25, CD69 und CTLA-4 in Anwesenheit der ASMInhibitoren beobachtet. Weiterhin bestätigte sich, dass die pharmakologische Hemmung der sauren Sphingomyelinase auch Auswirkungen auf die Effektorfunktion von T-Zellen hat. Während die Proliferation der Zellen weitgehend unbeeinträchtigt blieb, kam es zu einer verringerten Sekretion der Zytokine IFN-gamma, TNF, IL-5 und IL-10. In ihrer Gesamtheit sprechen diese Ergebnisse dafür, dass Inhibitoren der sauren Sphingomyelinase begünstigend auf Krankheitsgeschehen mit überschießender oder dysregulierter Aktivität des Immunsystems einwirken könnten. Immunmodulatorischen Wirkungen durch Inhibition der ASM erklären möglicherweise auch Einflüsse auf das Immunsystem, die für verschiedene Antidepressiva beschrieben wurden. Insgesamt ist die Bedeutung der sauren Sphingomyelinase innerhalb der Regulation des adaptiven Immunsystems jedoch noch ein weitgehend ungeklärtes Thema mit vielen offenen Fragen. Daher ist auch in Zukunft weitere klinische und experimentelle Forschung erforderlich, um zu klären, welchen Einfluss dieses Enzyms auf Immunzellen hat und wie sich dieser auch klinisch anwenden lässt. / By catalyzing the transformation of sphingomyeline into ceramide and phosphocholine, the acid sphingomyelinase (ASM) plays a central role in the metabolism of sphingolipids and is tightly regulated. Therefore it takes essential influence upon different cellular mechanisms like signal transduction, endo-/exocytosis and cell activation. Accordingly complex is the importance of the ASM in different diseases like atherosclerosis, depression or neoplastic diseases. The acid sphingomyelinase also greatly influences the signal mediation of T cells within the adaptive immune system. Based on previous research about the pharmacological and genetic inhibition of the ASM in mice we investigated, which impact an inhibition of this enzyme in human cell cultures may have on the populations of regulatory and conventional T cells. Therefore we mostly used the two selective serotonin reuptake inhibitors sertraline and citalopram. These two antidepressive drugs detach the ASM from the lysosomal membrane and thereby inhibit the enzyme. Here we show, that these two substances efficiently inhibit the ASM mice T cells as well as human T cells. Cultivating immune cells of mice together with the inhibitors led to an essential increase in the frequency of regulatory T cells. Various cell culture experiments with human PBMCs showed that under certain circumstances an increase in regulatory T cells is also possible in the human, most likely due to the involvement of the ASM in the CD3/CD28 signal pathway. Experimental approaches using � CD3-antibodies showed an increase in Treg cells in a fraction of the tested individuals. External addition of C6-ceramide led to a decrease in the frequency of regulatory T cells. In addition to that, we were able to observe diverse effects regarding the expression of CD25, CD69 and CTLA-4 in Treg and Tconv cells in the presence of the ASM-inhibitors. We were also able to confirm that the pharmacological inhibition of the acid sphingomyelinase has an impact on the effector functions of T cells. While there was no effect on cell proliferation, we observed a decreased secretion of the cytokines IFN-gamma, TNF, IL-5 and IL-10. Alltogether these results indicate that inhibitors of the acid sphingomyelinase might have positive effects in pathologies of overshooting or dysregulated activity of the immune system. Immunomodulatory effects after inhibition of the ASM might also explain observations of an influence of antidepressants on the immune system that have been described in the literature. Overall the importance of the acid sphingomyelinase within the regulation of the adaptive immune system is a new field of research with many open questions. Therefore further clinical and experimental research is needed to clarify, which impact this enzyme has on immune cells and how this impact might be used therapeutically. T-Lymphozyt Regulatorischer T-Lymphozyt Serotonin-Reuptake-Hemmer Sphingolipide Sphingomyelinphosphodiesterase ddc:612
644	Potential muscular doping effects of anti-depressants / ETUDE DE l’EFFET DOPANT MUSCULAIRE POTENTIEL DES ANTIDEPRESSEURS Tutakhail, Abdulkarim 29 November 2019 (has links) Bien que l’effet psychotrope des antidépresseurs soit bien connu, afin de corriger les conséquences du stress et de renforcer la confiance en soi, de nombreux autres effets pharmacologiques, notamment périphériques, doivent encore être approfondis. Les antidépresseurs inhibiteurs de la recapture de la sérotonine (ISRS) peuvent avoir un effet bénéfique sur la performance physique en participant à une réparation et à une croissance plus rapides des muscles. Il a récemment été démontré que la sérotonine était impliquée dans la récupération de la force musculaire chez un modèle murin de myopathie de Duchenne (Gurel et al., 2015). Les antidépresseurs tels que les inhibiteurs sélectifs de la recapture de la sérotonine (ISRS) sont largement utilisés pour traiter divers troubles de la santé mentale, tels que la dépression modérée à sévère et l’anxiété. Les deux symptômes contribuent à l’insomnie, à la perte d’appétit, au manque de motivation et à une fatigue physique accrue. Ces symptômes peuvent nuire aux performances physiques des athlètes, en particulier de ceux qui développent des habiletés et des techniques spécifiques à un sport, reçoivent des volumes d’entraînement plus importants à différentes intensités et participent à des compétitions plus fréquentes. Par conséquent, les athlètes peuvent utiliser des médicaments qui renforcent la motivation et / ou améliorent la condition physique générale en réduisant les symptômes dépressifs. L'utilisation d'antidépresseurs n'est pas encore interdite dans les sports d'élite. Des rapports récents sur le dopage associé aux ISRS montrent une tendance croissante de son utilisation chez les athlètes en bonne santé. La consommation d'antidépresseurs chez les athlètes a augmenté dans différents sports au cours de la dernière décennie, notamment les sports d'endurance.. Notre projet doit donc permettre de caractériser les conséquences d'un traitement chronique par ISRS sur les performances physiques chez la souris et de mettre en évidence le ou les mécanismes impliqués, en particulier la variation du shunt métabolique sérotonine / kynurénine, ainsi que les modifications de biomarqueurs, variations potentiellement utilisables chez l'homme dans la lutte contre le dopage.Nous aimerions élucider notre travail de recherche dans les articles suivants:Article 1: Nous avons étudié les effets de l'exercice et de la fluoxétine seuls ou en association avec un traitement prolongé à la fluoxétine (18 mg / kg / jour) et un exercice physique d'endurance (six semaines) chez la souris mâle BalbC / j, sur tapis roulant. Nous avons ensuite évalué l'activité neurocomportementale, les marqueurs musculaires du stress oxydatif et les modifications du métabolisme du tryptophane dans les tissus plasmatiques, musculaires et cérébraux des souris BalbC / J. En général, nous nous sommes concentrés sur la vitesse aérobie la plus élevée, le temps d’endurance jusqu’à l’épuisement, la force musculaire des membres antérieurs en saisissant un mesureur de force, des tests neurocomportementaux tels que le test en champ ouvert et élevé et le labyrinthe, l’activité enzymatique mitochondriale (activité du citrate synthase et du cytochrome C oxydase) dans le muscle gastrocnémien. , marqueur de stress oxydant tel que le test DHE (Dihydroéthidium) et DCF-DA (Dichlorofluorscine diacétate).Article 2: Nous avons étudié les effets de l’exercice et de la fluoxétine seule ou les effets combinés d’un traitement prolongé à la fluoxétine (18 mg / kg / jour) et d’un exercice d’endurance physique (six semaines) chez la souris mâle BalbC / j, sur tapis roulant. / As much as the psychotropic effect of antidepressants is well known, correcting the consequences of stress and boosting self-confidence, so many other pharmacological effects, peripheral in particular, remain to be deepened. Serotonin reuptake inhibitor antidepressants (SSRIs) may have a beneficial effect on physical performance by participating in faster muscle repair and growth. It has recently been shown that serotonin was involved in the recovery of muscle strength in a mouse model of Duchenne myopathy (Gurel et al., 2015).Antidepressants such as selective serotonin reuptake inhibitors (SSRIs) are widely used to treat various mental health disorders, such as moderate-to-severe depression and anxiety. Both symptoms contribute to insomnia, loss of appetite, lack of motivation and increased physical fatigue. These symptoms can impair physical performances for athletes, more specifically for those who develop sport-specific skills and techniques, receive higher training volumes at various intensities, and participate in more frequent competitions. Therefore athletes may use drugs that enhance motivation and/or improve overall fitness by reducing depressive symptoms. The use of antidepressants is not yet forbidden in elite sports. Recent reports on doping associated with SSRIs show an increasing trend of its usage among healthy athletes. The antidepressants intake among athletes has increased in different sports over the last decade, especially endurance sports. The antidepressants Bupropion and Amineptine were removed from the list of banned substances.Our project must therefore make it possible to characterize the consequences of chronic treatment with SSRIs on the physical performance in mice and to highlight the mechanism (s) involved, in particular the variation of the serotonin / kynurenine metabolic shunt, as well as the modifications of biomarkers, potentially usable variations in humans in the fight against doping.We would like to elucidate our research work in the following articles:Article 1: We studied the effects of exercise and fluoxetine alone or in combination of long-term fluoxetine treatment (18mg/kg/day) and endurance physical exercise (six weeks) in male balbC/j mice, on animal treadmill. Subsequently we evaluated neurobehavioral activity, muscle markers of oxidative stress, and changes in tryptophan metabolism in plasma, muscle and brain tissues in the BalbC/J mice. Generally we focused on the highest aerobic velocity, endurance time until exhaustion, forelimb muscle strength by gripping strength meter, neurobehavioral tests such as open field and elevated plus maze test, mitochondrial enzyme activity (Citrate synthase and cytochrome-C oxidase activity) in gastrocnemius muscle, oxidative stress marker such as DHE (Dihydroethidium) and DCF-DA (Dichlorofluorscine di-acetate)test.Article 2: We studied the effects of exercise and fluoxetine alone or combinative effects of long-term fluoxetine treatment (18mg/kg/day) and endurance physical exercise (six weeks) in male balbC/j mice, on animal treadmill. After the mentioned exercise protocol we focused on changes in tryptophan (TRP) metabolism in plasma, muscle and brain tissues in the BalbC/J mice. To confirm the metabolomic, we also studied the KP related enzyme related genes and proteins by the modern required materials and methods. We correlated the result of article1 with the metabolites level of kynurenine pathway of tryptophan metabolism. We studied the expression of transcriptor factor PGC1α level in muscle which is induced by physical exercise(Agudelo et al., 2014). PGC1α subsequently induce the expression of kynurenine aminotransferase 1 and 2 (KAT1 and KAT2) in skeletal muscles, which convert kynurenine (KYN) to kynurenic acid (KYNA). Conversion of kynurenine to kynurenic acid decrease the level of kynurenine and quinolinic acid an NMDA receptor agonist and a neurotoxic compound. Antidepresseurs Kynurenines Dopage Muscles Sérotonine Métabolisme Antidepressants Kynurenins Doping Muscles Serotonin Metabolism
645	A Selective Serotonin1B Receptor Agonist Modulates Cocaine Self-Administration in Female Rats Regardless of Estrous Cycle Phase January 2019 (has links) abstract: Greater than 11% of the total population of Americans age 12 and older were illicit drug users with close to 1 million suffering from cocaine use disorder in 2017 alone (SAMHSA, 2017), yet there are no effective pharmacological treatments for this disorder. Previous research from the Neisewander Laboratory in male rats found that administration of a 5-HT1BR agonist facilitates cocaine intake when given prior to a daily self-administration session, while inhibiting cocaine intake and attenuating drug-seeking behavior following 21 days of protracted abstinence, yet it is not known whether such effects are observed in female rats. Women face unique challenges in all phases of the drug addiction cycle. With respect to active drug-taking (i.e., the maintenance phase), women tend to increase their rate of consumption more rapidly than men, and female rats acquire cocaine self-administration faster than males. In part, this is due to ovarian hormone influences on the reinforcing properties of cocaine, where peak levels of endogenous estrogen hormones correspond to an increase in cocaine intake. In this study, we investigated the effects of CP94253, a selective 5HT1BR agonist, on cocaine intake across all phases of the estrous cycle in female rats. The rats were trained to self-administer cocaine (0.75 mg/kg, IV) on a fixed ratio (FR) 5 schedule of reinforcement and daily vaginal smears were taken after each session to monitor the estrous cycle. Rats were pretreated with CP 94,253 (5.6 mg/kg, IP) or vehicle prior to separate tests during each estrous cycle phase and were then either given 1-h access to 0.75 mg/kg cocaine followed by 1-h access to 0.375 mg/kg cocaine or 1-h access to 0.1875 mg/kg cocaine followed by 1-h access to 0.075 mg/kg cocaine. Similar to males, CP 94,253 decreased cocaine intake in females at intermediate doses, however, the estrous cycle phase did not alter this effect. / Dissertation/Thesis / Masters Thesis Biology 2019 Neurosciences Behavioral sciences Biology 5-Ht1B Receptor Cocaine Use Disorder Estrous Cycle Self-Administration Serotonin
646	Serotonin Input to the Medial Prefrontal Cortex Promotes Behavioral Flexibility Morgan, Ashlea Ariel January 2022 (has links) In this study, I investigate how serotonergic modulation of the medial prefrontal cortex (mPFC) affects neuronal activity and impacts cognitive flexibility, anxiety, and fear extinction (Figure 1). I begin in Chapter 1 with general information on the PFC with a focus on the mPFC, then discuss the role and complexity of serotonin and how manipulation of serotonin affects behavior. I, finally, introduce what is understood about how serotonin modulates the mPFC, the significance of which has implications for cognitive and emotional behaviors. In Chapter 2, I studied the role of serotonin in cognitive flexibility. Specifically, I used retrograde tracing to determine the origin of mPFC and assessed how terminal release of 5-HT affects mPFC pyramidal neuron activity using whole-cell electrophysiology in acute brain slices. Furthermore, through in vivo fiber photometry, I evaluated the activity of 5-HTergic neurons projecting to the mPFC during cognitive flexibility behavior. Lastly, by selectively increasing or decreasing mPFC 5-HTergic terminal release through in vivo optogenetics, I assessed the modulatory role of 5-HTergic input into the mPFC on intradimensional rule reversal and extradimensional rule shift performance in the cognitive flexibility task. Furthermore, I evaluated the activity of 5-HTergic neurons projecting to the mPFC during an open field task using in vivo fiber photometry and, in Chapter 3, used in vivo optogenetics to determine the role 5-HT in the mPFC plays in modulating fear-related behavior. In Chapter 4, I examined a pharmacological screen of a psychedelic drug in the cognitive flexibility task outlined in Chapter 2. I conclude in Chapter 5 with a discussion of the study implications and future directions. Neurosciences Prefrontal cortex Electrophysiology Serotonin--Physiological effect Optogenetics Hallucinogenic drugs Fear
647	Biomarker-Performance Associations During Nutritional and Exercise Intervention in Air Force Personnel Jurcsisn, Jennifer 03 June 2019 (has links) No description available. Physiology Neurosciences Stress biomarkers exercise physiology cortisol dhea-s npy norepinephrine serotonin air force
648	CONTINUOUSLY ACTIVE TRANSCRIPTIONAL PROGRAMS ARE REQUIREDTO BUILD EXPANSIVE SEROTONERGIC AXON ARCHITECTURES Donovan, Lauren Janine 28 January 2020 (has links) No description available. Neurobiology Serotonin axon transcription factor arborization development projection pathway RNA sequencing Lmx1b Pet1 Tph2
649	mCPP modulates compulsive checking behaviour in rats: Neurobiological and behavioural correlates of a potential role for serotonergic stimulation in the quinpirole sensitization model of obsessive-compulsive disorder (OCD) Tucci, Mark C. 11 1900 (has links) The 5-HT agonist drug mCPP contributed to a 5-HT hypothesis of obsessive-compulsive disorder (OCD), but the effects of the drug in human and animal studies have been inconsistent. The objective of this thesis was to shed light on the behavioural and neurobiological effects of mCPP using the quinpirole sensitization rat model of OCD and in a reciprocal manner, to use the drug to further reveal behavioural and neurobiological components of the animal model. The utility in using the quinpirole model is that the process of analysis by experimentation can be employed to observe effects of the drug on three separate behavioural components identified to underlie the model compulsive behaviour: vigor, focus and satiety. Four original studies were designed to address this objective, and the findings yielded novel contributions to the literature. We suggest that mCPP attenuates compulsive checking by attenuating the exacerbated vigor and satiety characteristic of compulsive behavior, but this effect may not have been captured in previous clinical studies because OCD was measured as a unitary phenomenon across different symptom subtypes. We also reveal that separate systems underlie the development and performance of compulsive behaviour in the animal model, and mCPP reduces its performance but not its development. Hence, the animal model findings suggest that mCPP can attenuate performance of OCD behavior but the drug does not reverse the pathology of OCD or arrest the pathogenesis of OCD. Neurobiologically, we hypothesize that the underlying mechanism mediating the response to mCPP is mediated downstream of the nucleus accumbens core (NAc), at the substantia nigra pars reticulata, based on the finding that the effects of mCPP on vigor and satiety are present in NAc lesioned animals. Finally, although findings of this thesis indicate that 5-HT2A/C receptors do not mediate the response to mCPP, an oppositional role for DA and 5-HT on the model of compulsive behaviour is proposed, consistent with a security motivation theory of OCD. Overall, this thesis shed new light on the effects of mCPP on OCD, and reveals novel neurobiological and behavioural correlates of the quinpirole model. / Thesis / Doctor of Philosophy (PhD) Obsessive-compulsive disorder (OCD) Animal model Compulsive checking Rat Dopamine Serotonin Quinpirole mCPP Security motivation
650	Combined Treatment With Npy Y5 Antagonists and Nan-190 Attenuates Transients in Light-induced Phase Shifts and Potentiates Phase Shifts Only During the Late Subjective Night Costello, Mary K 01 January 2008 (has links) (PDF) Circadian rhythms in physiology and behavior are synchronized by a central pacemaker, the suprachiasmatic nuclei (SCN) of the hypothalamus. Shift work, jet lag and sleep disorders can disrupt circadian rhythms, negatively impacting health and well-being. The SCN pacemaker resets rapidly in response to changes in the daily light cycle, however, adjustment of peripheral oscillators to changing time zones or work shifts is more gradual, leading to internal desynchrony. In addition, many diseases can impair the SCN’s ability to adjust to changes in the light cycle. My research investigated whether combined pharmacological inhibition of neuropeptide Y and serotonin could enhance resetting and attenuate transient cycles in locomotor activity following a sudden change in light exposure. I found that simultaneously blocking neuropeptide Y and serotonin receptors potentiated phase shifts during the late subjective night and significantly reduced transient cycles of locomotor activity in hamsters. Development of treatments that enhance the circadian system’s response to light may alleviate some of the negative health consequences experienced by travelers, shift workers and individuals with disease-related circadian desynchrony. Circadian rhythms sleep-wake disorders jet-lag seasonal affective disorder serotonin neuropeptide Y Neurology

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