Global ETD Search

31	Effects of Cocaine on Monoamine Uptake as Measured Ex Vivo Wang, Zhixia, Ordway, Gregory A., Woolverton, William 21 February 2007 (has links) The increase in extracellular dopamine (DA) following cocaine administration plays a major role in cocaine abuse. In vitro, cocaine binds to DA transporters (DAT) and blocks DA uptake. Moreover, cocaine can increase extracellular DA concentration as measured by in vivo neurochemical methods. The present study examined the effects of cocaine and other drugs on DA, NE and 5-HT uptake using an ex vivo assay. Rats were injected i.v. with saline or drug and sacrificed at various time points after injections. Brains were dissected for regional monoamine uptake studies ex vivo. In most brain regions, cocaine given in vivo blocked monoamine uptake as expected. [ H]DA uptake in nucleus accumbens was inhibited with an ED = 22.3 μmol/kg. Cocaine fully inhibited [ H]NE uptake (ED = 4.58 μmol/kg) in the occipital cortex and partially inhibited [ H]5-HT uptake (33% at 30 μmol/kg) in the midbrain. However, under the same conditions [ H]DA uptake in the striatum was not inhibited after injections of cocaine up to 56 μmol/kg. Although the mechanism for this discrepancy is unclear, DA binding and uptake sites may be distinct and/or there may be regional differences in DA transporters. cocaine ex vivo monoamine uptake nucleus accumbens striatum Biomedical Sciences
32	Assessment of Ethanol and Nicotine Interactions in the Rat Model: Pharmacotherapeutics, Adolescence, and the Mesolimbic System Waeiss, Robert Aaron 09 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Alcohol use disorder (AUD) and nicotine dependence often result in serious health problems and are top contributors to preventable deaths worldwide. Co-addiction to alcohol and nicotine is the most common form of polysubstance abuse. Epidemiological studies indicate that more than 80% of individuals diagnosed with AUD concurrently use nicotine. The prevalence of alcohol and nicotine comorbidity may stem from interconnected mechanisms underlying these disorders. A better understanding of how these drugs interact and the biological basis behind the high comorbidity rates could generate key targets for the development of more effective treatments for AUD and nicotine dependence. The following experiments utilized four similar overall groups consisting of vehicle, ethanol (EtOH), nicotine (NIC), and EtOH+NIC. Chapter Two investigated the efficacy of naltrexone and varenicline, the pharmacological ‘gold standards’ for treating AUD and nicotine dependence, on voluntary drug intake by rats selectively bred for high EtOH drinking. The results indicated that the standard treatments for AUD and nicotine dependence were effective at reducing consumption of the targeted reinforcer but neither reduced EtOH+NIC co-use/abuse. Chapter Three examined the effects of peri-adolescent EtOH drinking on the ability of NIC infused into the posterior ventral tegmental area (pVTA) to stimulate dopamine release within the nucleus accumbens (NAc) shell during adulthood. The results suggest a cross-sensitization to NIC produced by peri-adolescent EtOH consumption demonstrated by a leftward and upward shift in the dose response curve. Chapter Four investigated the effects of intra-pVTA infusions on NAc shell neurochemistry, EtOH reward within the NAc shell, and the role of brain-derived neurotrophic factor (BDNF) on EtOH reward within that region. The data indicated that only EtOH+NIC significantly increased glutamate, dopamine, and BDNF in the NAc shell. Repeated pretreatment with EtOH+NIC also enhanced EtOH reward in the NAc shell and BDNF infusions were sufficient to recapitulate these findings. Collectively, the data indicate that concurrent exposure to EtOH and NIC results in unique neuroadaptations that promote future drug use. The failure to develop effective pharmacotherapeutics for AUD or nicotine dependence could be associated with examining potential targets in models that fail to reflect the impact of polydrug exposure. / 2020-04-03 Addiction Alcohol Mesolimbic pathway Nicotine Nucleus accumbens Ventral tegmental area
33	Projection Neurons of the Nucleus Accumbens: An Intracellular Labeling Study Chang, H. T., Kitai, S. T. 11 November 1985 (has links) Projection neurons of nucleus accumbens (NAC) of the rat were identified by either antidromic activation from stimulation of midbrain ventral tegmental area-substantia nigra (VTA-SN) regions, or by tracing axons of intracellularly labeled NAC neurons into the ventral pallidum. The morphology of these NAC projection neurons were determined to be medium spiny neurons similar to those identified in the caudate-putamen. intracellular labeling nucleus accumbens ventral striatum ventral tegmental area (VTA)
34	Elements of the Brain Network Regulating Social Behavior and Vocal Communication in Nf1+/- Mice: Relevance to Developmental Language Disorders and Autism Spectrum Disorders Karathanasis, Sotirios Ferris 11 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Communication is a vital tool used by humans to share information, coordinate behavior, and survive. However, the ability to communicate can become disrupted or remain absent in individuals with neurodevelopmental disorders: two prominent examples include autism spectrum disorders and developmental language disorders, found in nearly 2% and 10% of the population, respectively. Communication disorders are devastating to the autonomy and quality of life of affected individuals, but clinical solutions are limited due to the complex and often unknown neural etiology underlying these conditions. One known disorder with high incidence of disrupted communication is Neurofibromatosis type 1, the genetic disease caused by heterozygosity of the Ras GTPase-activating protein-coding gene NF1. Mice heterozygous for their ortholog of this gene (Nf1+/-) have been shown to recapitulate neuropsychiatric conditions seen in patients. Using a courtship trial paradigm as a model for testing communication, I have demonstrated that Nf1+/- male mice showed deficits in both courtship and non-courtship social behavior as well as a decrease in the number and duration of ultrasonic vocalizations (USVs). Immediate early gene (IEG) immunohistochemistry (IHC) in neurons of courtship-relevant brain regions revealed the Shell of the Nucleus Accumbens (NAcS) as a dysfunctional brain region in Nf1+/- mice compared to WT male mice following courtship trial. Optogenetic targeting of the Nucleus Accumbens (NAc) restored courtship social behaviors and USV number, but not USV duration or non-courtship gestural social behaviors, in Nf1+/- males. This study contributes to a preclinical foundation for understanding etiology of communication disorders in patients. Animal Communication Mouse Courtship Neurofibromatosis Nucleus Accumbens RASopathies Ultrasonic Vocalization
35	Does Electroacupuncture Affect Ethanol Modulation of Mesolimbic Neurons? Park, Jung Jae 13 July 2010 (has links) (PDF) The purpose of this project was to investigate the mechanism of action of acupuncture on a critical neural substrate involved in alcoholism. Specifically, this study evaluated the effects of stimulation of the acupuncture Shenmen (HT7) point on inhibitory GABA neurons in the ventral tegmental area (VTA), a midbrain structure implicated in drug and alcohol abuse, and ethanol self-administration. In addition, the role of opioid receptors (ORs) in ethanol and acupuncture effects was explored. Using electrophysiological methods in mature rats, we evaluated the effects of HT7 stimulation and opioid antagonists on the VTA GABA neuron firing rate. With behavioral paradigms, we also assessed those effects on ethanol self-administration, using a modification of the sucrose fading procedure. We found that HT7 stimulation produced a biphasic modulation of VTA GABA neuron firing rate characterized by transient enhancement at the onset of stimulation followed by a prolonged inhibition and subsequent recovery in 5 min. HT7 stimulation blocked the typical suppression of VTA GABA neuron firing rate produced by a moderately intoxicating dose of ethanol. The late inhibition produced by HT7 stimulation as well as HT7 reversal of ethanol's effects on GABA neuron firing rate was blocked by the non-selective opioid receptor antagonist, naloxoneIn addition, HT7 acupuncture reduced ethanol self-administration without affecting sucrose consumption. More important, systemic administration of the δ-opioid receptor (DOR) antagonist, naltrindole blocked ethanol suppression of VTA GABA neuron firing rate and significantly reduced ethanol self-administration without affecting sucrose consumption. These findings suggest that DOR-mediated opioid modulation of VTA GABA neurons may be related to the role of acupuncture in modulating mesolimbic DA release and suppressing the reinforcing effects of ethanol. We confirmed that acupuncture stimulation may have a significant impact on the inhibitory neuron activity in the VTA and that acupuncture may serve as an effective adjunct to OR antagonist therapy for alcoholism. GABA opioid VTA ethanol acupuncture dopamine nucleus accumbens Psychology
36	The role of corticostriatal pituitary adenylate cyclase activating polypeptide (PACAP) in excessive alcohol drinking Minnig, Margaret 23 January 2023 (has links) Alcohol use disorder (AUD) is a chronic, relapsing condition with a complex etiology and heritable susceptibility factors interact with environmental factors to produce and maintain the disease. One goal of current neuroscience research is to identify the neuroadaptations mediating the propensity to consume high amounts of alcohol, of either innate or environmental origin. Dysfunctional neuronal communication between prefrontal cortical regions and the nucleus accumbens (NAcc) have been implicated in excessive alcohol drinking and proposed to play a critical role in AUD. However, the exact mechanism by which altered prefrontostriatal transmission may perpetuate excessive drinking is poorly understood. In addition, the exact role of dopamine receptor 1 (D1R) or dopamine receptor 2 (D2R)-expressing medium spiny neurons in the NAcc is unclear and adds another layer of complexity to this framework. This thesis concerns pituitary adenylate cyclase-activating polypeptide (PACAP), a highly conserved 38 amino acid neuropeptide, and its receptor PAC1R. Studies in rodents and humans have implicated PACAP and PAC1R in the actions of drugs of abuse, including more recently, alcohol. Notably, the PACAP/PAC1R system has also been shown to increase glutamatergic neurotransmission in several circuits. The overall hypothesis of this project was that the PACAP/PAC1 system in the prefrontal cortex-NAcc pathway regulates excessive drinking and the long-lasting neuroplastic changes observed in alcohol addiction, via the modulation of the glutamatergic system. Using alcohol-preferring rats, a hereditary model of AUD, we found that intracerebroventricular administration of a PAC1R antagonist blocked excessive alcohol drinking, motivation to drink, and alcohol seeking behavior selectively in this line and not in outbred rats. Alcohol-preferring rats displayed a higher number of PAC1R positive cells in the NAcc Core. Blockade of PAC1R in the NAcc Core, via pharmacology or gene knockdown, resulted in reduced alcohol drinking. Conversely, we found that knockdown of the PAC1R in the NAcc Shell led to increased alcohol drinking and motivation to drink in alcohol-preferring rats, suggesting that the PACAP/PAC1R system may play an opposite role in these two NAcc subregions. Using a mouse exposure model of excessive drinking, a glutamatergic projection from PACAP-expressing cells in the prelimbic portion of the prefrontal cortex (PrL) to the NAcc Core circuit was found to be recruited by alcohol exposure. Inhibition of these neurons, as well as PACAP neuron ablation or PACAP deletion, led to decreased alcohol intake that was specific to male mice. Systemic PAC1R antagonism, and specific knockdown of PAC1R in the NAcc Core, also decreased alcohol intake in male mice. Using slice electrophysiology and channelrhodopsin assisted circuit mapping, we found that this pathway is biased to D1R-expressing neurons in the NAcc Core following alcohol exposure in males, and that PACAP application increases post-synaptic measures of glutamatergic transmission in this circuit. Overall, these data describe a key role for the corticostriatal PACAP/PAC1R system in aberrant alcohol drinking in both hereditary- and exposure-based models of AUD and give novel insights into the underlying mechanisms of alcohol addiction. / 2025-01-23T00:00:00Z Neurosciences Addiction Alcohol Use Disorder Corticostriatal Nucleus accumbens PAC1R PACAP
37	Pup suckling is more rewarding than cocaine: evidence from functional magnetic resonance imaging and three-dimensional computational analysis Harder, Josie A., Febo, M.M., Ferris, C.F., Sullivan, J.M. Jr 16 December 2009 (has links) No / Nursing has reciprocal benefits for both mother and infant, helping to promote maternal behavior and bonding. To test the "rewarding" nature of nursing, functional magnetic resonance imaging was used to map brain activity in lactating dams exposed to their suckling pups versus cocaine. Suckling stimulation in lactating dams and cocaine exposure in virgin females activated the dopamine reward system. In contrast, lactating dams exposed to cocaine instead of pups showed a suppression of brain activity in the reward system. These data support the notion that pup stimulation is more reinforcing than cocaine, underscoring the importance of pup seeking over other rewarding stimuli during lactation Accumbens Cocaine Nigrostriatal Prefrontal Magnetic Maternal Substantia Nigra Suckling Motivation
38	Mechanisms of dopamine D2-receptor activation across the striatum Marcott, Pamela F. 07 September 2017 (has links) No description available. Physiology Neurosciences Neurobiology dopamine striatum accumbens GPCR addiction
39	The Functional Role of the Dynorphin-Kappa Opioid Receptor System in Cocaine-Dependent Male Rats Lord, Jessica 01 August 2024 (has links) (PDF) Activation of the dynorphin-kappa opioid receptor (KOR) system produces a negative emotional state during drug withdrawal, thereby motivating continued cocaine-seeking behaviors. However, it is not clear whether dynorphin plays a functional role in the onset of compulsive cocaine-taking. Here, escalation of cocaine self-administration was significantly attenuated by pretreatment of a long-acting KOR antagonist, norbinaltorphimine (NBI), in long access (LgA; 6-hours) male rats, whereas there was no effect of NBI on short access (ShA; 1-hour) rats on a fixed or progressive ratio schedule of reinforcement. Additionally, optical density of prodynorphin was increased in the nucleus accumbens (NAc) core and shell, bed nucleus of the stria terminalis (BNST), central amygdala (CeA), and basolateral amygdala (BLA) of LgA rats compared to both ShA and drug-naïve rats. These results suggest dynorphin in the stress-sensitive extended amygdala (NAc shell, BNST, CeA), and BLA-NAc core circuitry mediating cue-controlled cocaine-taking may be associated with the onset of compulsive drug-taking. addiction cocaine dynorphin kappa opioid receptors amygdala nucleus accumbens Biology
40	Development of Enkephalin mRNA Interference in the Rat Brain Szaroz, Daniel 20 April 2018 (has links) Les enképhalines (ENK), étant neuromodulateurs, ont un rôle prépondérant dans plusieurs circuits neuronaux tels que ceux de la récompense, la peur et l’anxiété. Dans cette étude, nous avons ciblé les ENK et atténué leur expression dans le noyau accumbens et l’amygdale centrale par le biais d’injections de vecteurs lentiviraux exprimant un shRNA spécifique à l’ENK. Les injections des lentivirus exprimant un shENK ont été comparées à des hémisphères intacts et à des injections du même vecteur exprimant un shRNA témoin, pour révéler des diminutions de l'ARNm des ENK de 62 %. Ces quantifications ont été validées in vivo par la comparaison du signal radioactif des sondes pour l’ARNm des ENK dans les régions infectées par le virus, ces régions ayant été identifiées par immunohistochimie. Nous démontrons une spécificité de l’atténuation de l’ARNm des ENK puisqu’aux sites des injections, il n'y a pas eu de diminution de l’ARNm de la GAD65. / Enkephalin (ENK), a prominent endogenous opioid mediator of the behavioural response, elicits its function in important circuits of the brain such as reward, fear and anxiety. In this study, we have targeted the downregulation of ENK expression by the delivery of a lentiviral vector with an expressing shRNA specific to ENK mRNA in ENK rich regions, such as the nucleus accumbens and central amygdala. By injecting a vector expressing an shENK and comparing it to non-injected hemispheres, as well as to injections of the same vector yet expressing a scrambled shRNA, we have observed an average downregulation of 62% ENK mRNA. Quantifications were performed in vivo, by collecting the in situ hybridization radioprobe signal for ENK mRNA of regions infected by the virus; the latter visualized immunohistochemically. Our results show a knockdown specificity of ENK mRNA and tissue integrity, as demonstrated by the lack of GAD65 mRNA disruption. Enképhalines ARN messager -- Métabolisme Noyau accumbens Corps amygdaloïde

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