Global ETD Search

761	The Physiological Roles of Rhopr-kinins and the Molecular Characterization of their Gene in the Blood-gorging Insect, Rhodnius prolixus Bhatt, Garima 20 November 2012 (has links) The dramatic feeding-related activities of the Chagas' disease vector, Rhodnius prolixus are under neurohormonal regulation of serotonin and various neuropeptides. One such family of neuropeptides, the insect kinins, possesses diuretic, digestive and myotropic activities in many insects. In R. prolixus, they co-localize with the corticotropin-releasing factor (CRF)-like diuretic hormone (DH) in neurosecretory cell bodies and their abdominal neurohaemal sites. Additionally, kinins are present in endocrine cells of the midgut and are known to stimulate hindgut and midgut contractions. Through the experimentation presented in this dissertation, the cloning and spatial expression of the R. prolixus kinin (Rhopr-kinin) transcript is described. Physiological bioassays demonstrate the myostimulatory effects of selected Rhopr-kinin peptides and also illustrate the augmented responses of hindgut contractions to co-application of Rhopr-kinin and Rhopr-CRF/DH. The irreversible effects of two synthetic kinin analogs on the hindgut relative to the native kinins also exhibit the prospective biotechnological significance of this study. neurohormone insect Rhodnius prolixus kinin neuropeptide CRF cloning Rhopr-kinin analog diuresis serotonin receptor hindgut myotropic Insect Neuroendocrinology Insect Neurophysiology
762	Synthesis of Substituted Pyrimidines and Pyridines as Ligands to the 5-HT7 Receptor Blake, Ava L. 22 April 2010 (has links) Of the seven existing classes of serotonin receptors, the 5-HT7 receptors (5-HT7Rs) are the most recently discovered. Abundance of 5-HT7 in the central nervous system is suggestive of the receptor’s role in several physiological and pathophysiological functions. Existing research has afforded a number of compounds exhibiting specific affinity to the receptor. These selective ligands can provide structural information about the receptor and can serve as the foundation for pharmacological profiling . This thesis describes the synthesis of substituted pyrimidines and pyridines for affinity to the 5-HT7 receptor. Organometallic species are the cornerstone for sev-eral of the synthetic pathways. Synthesis Conjugate addition Vinyl Heterocycle Organometallic Palladium catalysis Serotonin 5-HT 5-HT7 receptor Pharmacophore model Pyrimidines Pyridines
763	The temporal dynamics of volitional emotion regulation / Die zeitliche Dynamik willentlicher Emotionsregulation Schardt, Dina Maria 26 January 2010 (has links) (PDF) Happiness, anger, surprise, irritation… if we note down the emotions that we go through on a given day, the list will most probably be quite long. A surge of studies on the bidirectional interaction between emotion and cognition suggests that we need emotional appraisals in order to lead a successful life and maintain our personal, social and economic integrity (Bechara, 2005; Damasio, 1994; Fox, 2008; Gross &amp; Thompson, 2007; Walter, 2005). And yet, we seldom ‘just’ experience emotions, but often try to influence them to best fit our current goals. Based on the assumption that emotional reactions entail changes on various levels, and that these changes happen in- or outside of our awareness, affective science has adopted emotion regulation as one of its major research topics (Beauregard, Levesque, &amp; Paquette, 2004; Gross, 1999; Ochsner, 2007). In fact, neural (e.g. amygdala activation) and behavioral (e.g. feeling of negativity) correlates of emotional reactions are effectively reduced by top-down processes of explicit and implicit control (Drabant, McRae, Manuck, Hariri, &amp; Gross, 2009; Levesque, et al., 2003; Ochsner, Ray, et al., 2004). Furthermore, evidence from studies investigating voluntary thought control suggests that control strategies may have lasting and paradoxical consequences (Abramowitz, Tolin, &amp; Street, 2001; Wegner, 2009). In a very recent investigation, lasting effects of regulation were also shown after the cognitive control of emotions: the activation timecourse of the amygdala was significantly increased immediately following regulation, and this difference was also related to the activation of the amygdala to the same stimuli a few minutes later (Walter, et al., 2009). Aside from these contextual or qualitative influences, emotional processing also differs between individuals: genetic variation within the serotonergic system for instance is known to affect emotional reactivity both on the behavioral and on the neural level (Hariri, et al., 2005; Hariri, et al., 2002; Lesch, et al., 1996). In the present work, the temporal dynamics of volitional emotion regulation were investigated in three studies. It was hypothesized that both the subjective experience of negativity and the amygdala activation can be attenuated by the detachment from negative emotions, which in turn leads to an immediate neural aftereffect after the offset of regulation. Furthermore, volitional emotion regulation was expected to be capable of reducing or even obliterating genetically mediated amygdala hyperreactivity to negative emotional cues. Similar to previous investigations (Walter, et al., 2009), pictures of aversive or neutral emotional content were presented while participants were instructed to react naturally to half of the pictures, and to regulate their emotional response upon the other half of the stimuli. The first two studies of the present work were designed to further characterize the immediate aftereffect of volitional regulation in the amygdala: Study 1 included behavioral ratings of negativity at picture offset and at fixation offset in order to provide behavioral measures of experiential changes, while in Study 2, participants continued to experience or regulate their emotions during a “maintain” phase after picture offset. The primary goal of Study 3 was to evaluate whether volitional emotion regulation can reduce genetically mediated amygdala hyperreactivity to aversive emotional material in individuals with the short variant of the serotonin transporter genotype (Hariri, et al., 2005; Hariri, et al., 2002), and whether the immediate aftereffect is also influenced by the serotonin transporter genotype. In all three studies, the amygdala was significantly activated by aversive versus neutral stimuli, while cognitive emotion regulation attenuated the activation in the amygdala and increased the activation in a frontal-parietal network of regulatory brain regions. This neural effect was complemented by the behavioral ratings which show that the subjective experience of negativity was also reduced by detachment (Study 1). Also in all three studies, an immediate aftereffect was observed in the amygdala following the end of regulation. Moreover, the preoccupation with the previously seen pictures after the scanning session varied across the experimental conditions (Studies 2 and 3). Volitional regulation proved effective in reducing amygdala activation to negative stimuli even in 5-HTTLPR short allele carriers that show an increased reactivity to this type of cue. At the same time, functional coupling of the ventrolateral and medial orbital prefrontal cortex, the subgenual and the rostral anterior cingulate with the amygdala was higher in the s-group. However, in Study 3 the immediate aftereffect was found only in l/l-homozygote individuals following the regulation of fear. Taken together, the results of the three studies clearly show that volitional regulation is effective in reducing behavioral and neural correlates of the experience of negative emotions (Levesque, et al., 2003; Ochsner, Bunge, Gross, &amp; Gabrieli, 2002; Ochsner, Ray, et al., 2004), even in the case of a genetically mediated hyperreactivity to such materials. Thus, it seems reasonable to assume that conscious will can effectively counteract genetic determinants of emotional behavior. Moreover, the present results suggest that the temporal dynamics of volitional emotion regulation are characterized by a paradoxical rebound in amygdala activation after regulation, and that the immediate aftereffect is a marker of the efficiency of the initial and the sustained effects of emotion regulation (Walter, et al., 2009). In summary, the successful replication of the immediate aftereffect of emotion regulation in all three studies of this dissertation opens up exciting new research perspectives: a comparison of the short- and long-term effects of different regulatory strategies, and the investigation of these effects also in positive emotions would complement the present results, since the neural mechanisms involved in these processes show some characteristic differences (Ochsner, 2007; Staudinger, Erk, Abler, &amp; Walter, 2009). A comprehensive characterization of this neural marker and its implications for emotional experience might also be useful with respect to clinical applications. The detailed examination of the various time scales of emotional regulation might for instance inform the diagnostic and therapeutic interventions in affective disorders that are associated with emotional dysfunctions (Brewin, Andrews, &amp; Rose, 2000; Johnstone, van Reekum, Urry, Kalin, &amp; Davidson, 2007). Ultimately, we might thus come to understand the neural underpinnings of what the feelings we have today have to do with the feelings we had yesterday – and with the feelings with might have tomorrow. fMRI amygdala volition cognitive emotion regulation serotonin transporter fMRT Amygdala Volition Kognitive Emotionsregulation Serotonintransporter ddc:152 rvk:CP 3000
764	Serotonin receptors in mammalian salivary glands Bourdon, David M. January 2001 (has links) Thesis (Ph. D.)--University of Missouri--Columbia, 2001. / Typescript. Vita. Includes bibliographical references (leaves 66-80). Also available on the Internet.
765	Chemotypic variation and biopharmaceutics of Sceletium tortuosum alkaloids. Shikanga, Emmanuel Amukohe. January 2012 (has links) D. Tech. Chemistry. / Aims to isolate and characterise mesembrine-type alkaloids from S. tortuosum for use as reference standards ; develop and validate analytical methods for the accurate determination of mesembrine-type alkaloids in S. tortuosum samples and commercial products for quality control purposes ; investigate inter-species variation of alkaloids in endemic Sceletium species ; establish the variation of mesembrine-type alkaloids within and between different populations of S. tortuosum specimens and hence identify various chemotypes ; determine the variations of the target alkaloids in S. tortuosum commercial products purchased from various suppliers ; determine the mesembrine-type alkaloid content of the combustion products from S. tortuosum; and to evaluate the in vitro permeation of the alkaloids across oral and intestinal mucosa. Dissertations, Academic -- South Africa. Chromatographic analysis. Alkaloids -- Quality control. Aizoaceae -- Chemotaxonomy. Drug delivery systems. Serotonin -- Antagonists. Aizoaceae -- Ethnobotany. Sceletium tortuosum.
766	Characterizing the age-related decline of memory monitoring : neuroimaging and genetic approaches Pacheco, Jennifer Lynn 09 June 2011 (has links) Memory monitoring, or the ability to accurately assess one’s memory retrieval success, is known to be declined for older adults. The behavioral decline has been well explored, and is specific to tasks of source monitoring; tasks involving item memory monitoring do not show age-related deficits. This study attempts to further characterize the decline by exploring neuroanatomical contributions to the decline, and genetic influences that may explain performance variability in older adults. Older adults were genotyped for the serotonin transporter (5-HTTLPR) gene, and those that are carriers of the low-expressing allele demonstrate the expected age-related decline of source monitoring performance when compared to younger adults. Interestingly, older adults who lack this allele did not display any decline in performance when compared to younger adults. Neuroanatomical correlates of task performance indicate that prefrontal regions in the inferior and lateral cortices support accurate source memory monitoring, likely through their role in the proper selection of memory cues and inhibition of irrelevant information. This relationship suggests that age-related atrophy occurring in these structures could be responsible for the performance deficits on source memory monitoring tasks. There was no direct relationship seen between genotype for the 5-HTTLPR gene and cortical volumes, however diffusion tensor imaging shows that older adults who carry this allele have altered connections between the medial temporal lobe, responsible for memory retrieval, and prefrontal cortex, which monitors the retrieval process. Through stronger connections of critical networks, older adults who lack the 5-HTTLPR short allele may be able to compensate for the age-related atrophy seen in the prefrontal cortex. Functional results further indicate that the older adult non-carriers recruit inferior and lateral frontal regions to a greater extent than the older adult carriers during accurate memory monitoring. These results begin to suggest a neuroprotective mechanism for the 5-HTTLPR genotype, wherein some older adults may be able to postpone the expected decline of memory monitoring by retaining the ability to recruit essential inferior frontal structures through more organized white matter pathways. / text 5-HTTLPR Aging fMRI Memory monitoring Memory (psychology) Memory loss Geriatric psychology Serotonin transporter gene Memory--Age factors Memory--Testing
767	Influence of GPCR coexpression in neuronal cells on the convergence of signaling pathways / Influence of GPCR coexpression in neuronal cells on the convergence of signaling pathways Ullrich, Tim 29 July 2013 (has links) No description available. 610 5-HT1A 5-HT7 Receptor oligomerization Receptor crosstalk serotonin receptors
768	Modulation Of Neuroplasticity In Humans By Advanced Stimulation Protocols And Neuromodulators Batsikadze, Giorgi 27 February 2014 (has links) No description available. 570 Transcranial Magnetic Stimulation Transcranial Direct Current Stimulation Paired Associative Stimulation Varenicline Nicotine Neuroplasticity Serotonin Biologie (PPN619462639)
769	The Role of Serotonin Availability in the Rat Insular Cortex on Conditioned Disgust and Conditioned Taste Avoidance Tuerke, Katharine 18 January 2013 (has links) Although the neural mechanisms regulating vomiting are well understood, the neurobiology of nausea is not. Unlike conditioned taste avoidance (CTA), conditioned disgust (indicated by orofacial gaping reactions) is a model of nausea-induced behaviour in rats because it is selectively produced by emetic drugs and anti-emetics attenuate it. Treatments that reduce serotonin (5-HT) availability selectively interfere with conditioned gaping (Limebeer and Parker, 2000; 2003) and forebrain serotonin is critical for the production of disgust reactions (Grill and Norgren, 1978b; Limebeer et al., 2004). The insular cortex (IC) is a site of taste-illness associations and is involved in the sensation of nausea and vomiting in humans (Penfield and Faulk, 1955; Fiol et al., 1988; Catenoix et al., 2008) and other animals (Kaada, 1951; Contreras et al., 2007). Therefore, we investigated the relationship between serotonin, conditioned gaping and CTA in the insular cortex. Systemic pretreatment with the classic anti-emetic ondansetron (OND) reduced both LiCl-induced unconditioned malaise (assessed by lying on belly) and conditioned gaping reactions, without modifying CTA. These experiments demonstrate that decreases in serotonin availability interfere with conditioned gaping and unconditioned malaise as well as provide further evidence of the validity of the conditioned gaping model. Rats with bilateral NMDA lesions of the agranular IC showed attenuated CTA learning but conditioned gaping reactions were unaffected. This finding suggests that the agranular IC, a site of gustatory input, may be required for CTA learning. Partial serotonergic depletion of the IC attenuated conditioned gaping reactions, suggesting that serotonin in the IC is required to establish conditioned gaping. A double dissociation in the regulation of disgust and taste avoidance, by selective 5-HT3 receptor antagonism/agonism in the visceral (granular) IC and the gustatory (agranular) IC was observed. Infusion of OND into the visceral IC attenuated conditioned gaping but spared CTA. Additionally, administration of the 5-HT3 receptor agonist m-chlorophenylbiguanide (mCPBG) enhanced LiCl-induced conditioned gaping reactions (which was prevented by intracranial administration of OND), but spared CTA. In contrast, intracranial OND pretreatment in the gustatory IC attenuated CTA and mCPBG infusions produced CTA, but neither affected the nausea-induced behaviour of conditioned gaping. Together, these studies shed light on the neurobiology of nausea. These results suggest that 5-HT activity (at the 5-HT3 receptor) in the visceral IC may selectively produce the nausea-induced reactions of conditioned disgust, while activity in the gustatory IC may be involved in the production of CTA learning. / This research was supported by a Natural Sciences and Engineering Research Council (NSERC) operating grant (92057) to L.A. Parker and a NSERC CGS-D scholarship to K.J. Tuerke. This work was also supported by an Ontario Graduate Scholarship to K.J. Tuerke. nausea serotonin gaping 5-HT3 receptor conditioned taste avoidance insular cortex lying on belly rat ondansetron gustatory cortex visceral mCPBG
770	Systemic effects of occupational exposure to arsenic : with special reference to peripheral circulation and nerve function Lagerkvist, Birgitta Json January 1989 (has links) Smelter workers who were exposed to air-borne arsenic for a mean of 23 years, and age-matched referents, were examined with clinical, physiological, and neurophysiological methods. Exposure to arsenic in workroom air was estimated to have been around the Swedish occupational limits, which were 500 yg/m before 1975 and 50 yg/ra thereafter. An increased preval ence of Raynaud's phenomenon and a reduced finger systolic blood pressure (FSP) during local and general cooling were found in the smelter workers. Slight, but significant sub-clinical neuropathy, in the form of slightly reduced nerve conduction velocity (NCV) in two or more peripheral nerves, was more common among the arsenic workers than among the referents. There were positive correlations between cumulative exposure to arsenic, reduced NCV in three peripheral motor nerves, and decrease in FSP during cooling. Arsenic levels in urine were 1 ymole/1 (75 yg/1) in the arsenic workers and 0.1 ymole/1 in the referents. In 21 arsenic workers with no or very low exposure to vibra ting hand tools, the FSP during cooling had increased significantly after 3 years wit h the lower arsenic exposure. There was no change in FSP during the summer vacation, whereas urinary levels of arsenic decreased to normal values. Thus there seems to be a slow improvement of finger blood circ ulation which is independent of short-term fluctuations in the exposure to arsenic. No seasonal variation was found in FSP during cooling with the standardized method used. When the NCV-measurements were repeated five years later the difference between arsenic workers and referents had increased, despite the fact that 14 of the 47 arsenic workers had had no exposure to arsenic during the last 1-5 years. These observations indicate, that in subjects with long term exposure to arsenic, sub-clinical neuropathy is not reversible. Ten milligrams of Ketanserin, a serotonin receptor antagonist, was given intravenously to five arsenic workers with cold-induced vasospasm. Skin temperature and FSP during cooling increased significantly with Ketanserin as compared wit h saline solution. After oral treatment, 2 x 40 mg /day for four weeks, no significant increase of FSP during cooling or rise in skin temperature was found in six arsenic workers and eleven patients with Raynaud's phenomenon. The decrease of vasospastic tendency after intravenous injection of Ketanserin indicated that similar mechanisms might operate in arsenic-induced and other types of Raynaud's phenomenon. A general co nclusion from the five studies in this dissertation is that long-term occupational exposure to arsenic has had adverse effects on the peripheral circulation and nerve conduction. The tendency to vasospasm, but not the sub-clinical neuropathy, seemed to be reversible with decreasing exposure. / <p>S. 1-54: sammanfattning, s. 55-112: 5 uppsatser</p> / digitalisering@umu Arsenic toxicity Cold-induced vasospasm Finger systolic pressure Nerve conduction velocity Occupational exposure Raynaud's phenomenon Serotonin antagonist

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