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Item Alterations of the serotonergic system in the dopamine deficient striatum of the weaver mutant mouse(1993) Stotz, Elizabeth HansenItem A comparative study on the toxicity of ibogaine and serotonin(1971) Dhahir, Hashim IsmailItem Differential effects of acute ethanol on the dopaminergic and serotonergic systems in rat brain(1987) Khatib, Samir A.Item Dissecting the Functional Heterogeneity of Serotonergic Systems That Regulate Fear and Panic(2019-10) Setubal Bernabe, Cristian; Cummins, Theodore R.; Engelman, Eric; Johnson, Philip L.; Truitt, William A.Serotonin (5-HT) is heavily implicated in severe anxiety and trauma-related disor-ders, such as panic and post-traumatic stress disorders. Overall, site-specific pharmacolog-ical manipulations show that while 5-HT enhances anxiety-associated/avoidance behaviors in the amygdala, 5-HT inhibits panic-associated escape behaviors in the perifornical hypo-thalamus region (PeFR). Yet, our understanding of how specific serotonergic networks and co-transmitters regulate these conditions, but also other aspects of innate panic (e.g., car-dioexcitation or thermal response that occur during a flight or escape response) or condi-tioned fear behaviors is still elusive. Therefore, utilizing circuit-based gain- and loss-of-function approaches to selectively manipulate amygdala- and PeFR-projecting sero-tonergic systems, we hypothesize that specific serotonergic networks projecting to the amygdala and PeFR respectively enhance conditioned fear responses and attenuate innate panic-associated behaviors and physiological responses. There are two main chapters in this dissertation. In Chapter III, retrograde tracing revealed that the amygdala-projecting neurons from dorsal Raphe (DR) were almost exclusively serotonergic (92-95%) concen-trated in the dorsal/ventral (DRD/DRV) DR, with few non-serotonergic neurons. While selective lesioning of this network with saporin toxin (SAP) facilitated the extinction of conditioned fear behavior, selective optogenetic activation of amygdala-projecting DRD/DRV cell bodies using intersectional genetics reduced extinction of conditioned fear behavior and enhanced anxiety avoidance. In Chapter IV, retrograde tracing showed that the PeFR was innervated by equally selective serotonergic networks concentrated in the lateral wings DR (lwDR) and median Raphe (MR). Contrasting with the results from the amygdala-innervating 5-HT system, lesioning the PeFR-projecting serotonergic network from lwDR/MR was accompanied by reduced extinction of conditioned fear behavior, in-creased anxiety avoidance, and increased CO2-induced panic (elevated escape responses and enhanced cardioexcitation). Conversely, selective activation of lwDR/MR serotonergic terminals in the PeFR decreased anxiety-associated behaviors; inhibited CO2-induced panic, and induced unconditioned and conditioned place preferences. The circuit-based ap-proach data presented here show that amygdala- and PeFR-projecting 5-HT neurons com-prise distinct circuits underlying opposite roles enhancing anxiety/fear responses in the amygdala and dampening fear/panic responses in the PeFR. The identification of distinct circuits controlling anxiety, fear, and panic responses is a fundamental step towards the development of more effective therapies for psychiatric conditions such as anxiety and trauma-related disorders.Item Effects of serotonergic influence on ethanol consumption in rats(1980) Gehlhausen, Terry CharlesItem Evaluating the role of serotonin in hot flashes after breast cancer using acute tryptophan depletion.(Wolters Kluwer, 2009) Carpenter, Janet S.; Yu, Menggang; Wu, Jingwei; Von Ah, Diane; Milata, Jennifer; Otte, Julie L.; Johns, Shelley; Schneider, Bryan; Storniolo, Anna Maria; Salomon, Ronald; Desta, Zeuresenay; Cao, Donghua; Jin, Yan; Philips, Santosh; Skaar, Todd C.OBJECTIVE: Among women with breast cancer, hot flashes are frequent, severe, and bothersome symptoms that can negatively impact quality of life and compromise compliance with life-saving medications (eg, tamoxifen and aromatase inhibitors). Clinicians' abilities to treat hot flashes are limited due to inadequate understanding of physiological mechanisms involved in hot flashes. Using an acute tryptophan depletion paradigm, we tested whether alterations in central serotonin levels were involved in the induction of hot flashes in women with breast cancer. METHODS: This was a within-participant, double-blind, controlled, balanced, crossover study. Twenty-seven women completed two 9-hour test days. On one test day, women ingested a concentrated amino acid drink and encapsulated amino acids (no tryptophan) according to published procedures that have been shown to have specific effects on serotonin within 4.5 to 7 hours. On the other test day, women ingested a control drink. Serial venous blood sampling and objective hot flash monitoring were used to evaluate response to each condition. RESULTS: Response to acute tryptophan depletion was variable and unexplained by use of selective serotonin reuptake inhibitors, antiestrogens, breast cancer disease and treatment variables, or genetic polymorphisms in serotonin receptor and transporter genes. Contrary to our hypothesis, hot flashes were not worsened with acute tryptophan depletion. CONCLUSIONS: Physiologically documented and self-reported hot flashes were not exacerbated by tryptophan depletion. Additional mechanistic research is needed to better understand the etiology of hot flashes.Item G protein-coupled receptor kinase-2 (GRK-2) regulates serotonin metabolism through the monoamine oxidase AMX-2 in Caenorhabditis elegans(American Society for Biochemistry and Molecular Biology, 2017-04-07) Wang, Jianjun; Luo, Jiansong; Aryal, Dipendra K.; Wetsel, William C.; Nass, Richard; Benovic, Jeffrey L.; Pharmacology and Toxicology, School of MedicineG protein-coupled receptors (GPCRs) regulate many animal behaviors. GPCR signaling is mediated by agonist-promoted interactions of GPCRs with heterotrimeric G proteins, GPCR kinases (GRKs), and arrestins. To further elucidate the role of GRKs in regulating GPCR-mediated behaviors, we utilized the genetic model system Caenorhabditis elegans Our studies demonstrate that grk-2 loss-of-function strains are egg laying-defective and contain low levels of serotonin (5-HT) and high levels of the 5-HT metabolite 5-hydroxyindole acetic acid (5-HIAA). The egg laying defect could be rescued by the expression of wild type but not by catalytically inactive grk-2 or by the selective expression of grk-2 in hermaphrodite-specific neurons. The addition of 5-HT or inhibition of 5-HT metabolism also rescued the egg laying defect. Furthermore, we demonstrate that AMX-2 is the primary monoamine oxidase that metabolizes 5-HT in C. elegans, and we also found that grk-2 loss-of-function strains have abnormally high levels of AMX-2 compared with wild-type nematodes. Interestingly, GRK-2 was also found to interact with and promote the phosphorylation of AMX-2. Additional studies reveal that 5-HIAA functions to inhibit egg laying in a manner dependent on the 5-HT receptor SER-1 and the G protein GOA-1. These results demonstrate that GRK-2 modulates 5-HT metabolism by regulating AMX-2 function and that 5-HIAA may function in the SER-1 signaling pathway.Item Gene expression changes in serotonin, GABA-A receptors, neuropeptides and ion channels in the dorsal raphe nucleus of adolescent alcohol-preferring (P) rats following binge-like alcohol drinking(Elsevier, 2015-02) McClintick, Jeanette N.; McBride, William J.; Bell, Richard L.; Ding, Zheng-Ming; Liu, Yunlong; Xuei, Xiaoling; Edenberg, Howard J.; Department of Biochemistry and Molecular Biology, IU School of MedicineAlcohol binge-drinking during adolescence is a serious public health concern with long-term consequences. We used RNA sequencing to assess the effects of excessive adolescent ethanol binge-drinking on gene expression in the dorsal raphe nucleus (DRN) of alcohol preferring (P) rats. Repeated binges across adolescence (three 1h sessions across the dark-cycle per day, 5 days per week for 3 weeks starting at 28 days of age; ethanol intakes of 2.5-3 g/kg/session) significantly altered the expression of approximately one-third of the detected genes. Multiple neurotransmitter systems were altered, with the largest changes in the serotonin system (21 of 23 serotonin-related genes showed decreased expression) and GABA-A receptors (8 decreased and 2 increased). Multiple neuropeptide systems were also altered, with changes in the neuropeptide Y and corticotropin-releasing hormone systems similar to those associated with increased drinking and decreased resistance to stress. There was increased expression of 21 of 32 genes for potassium channels. Expression of downstream targets of CREB signaling was increased. There were also changes in expression of genes involved in inflammatory processes, axonal guidance, growth factors, transcription factors, and several intracellular signaling pathways. These widespread changes indicate that excessive binge drinking during adolescence alters the functioning of the DRN and likely its modulation of many regions of the central nervous system, including the mesocorticolimbic system.
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