Global ETD Search

41	Effects of endocannabinoid (CB1) receptor antagonism on insulin resistance in a rodent model of metabolic syndrome Lindborg, Katherine Ann January 2010 (has links) The endocannabinoid system is a novel pharmacological target in the treatment of metabolic syndrome. Antagonism of the endocannabinoid-1 receptor (CB1R) leads to a transient reduction in food intake, a sustained decrease in body weight and an improvement in metabolic parameters in animal models of obesity. Skeletal muscle is the primary tissue involved in glucose uptake in response to insulin, and insulin sensitivity of skeletal muscle is vital to the maintenance of whole-body euglycemia. Little is known regarding the effects of CB1R antagonism on skeletal muscle glucose transport activity. The purpose of this dissertation was to test the hypothesis that antagonism of the CB1R activates signaling molecules of the insulin signaling pathway to increase glucose transport activity in normal and insulin-resistant skeletal muscle, thereby improving whole-body glucose tolerance. CB1R antagonism with SR141716 directly enhanced basal and insulin-stimulated glucose transport activity in skeletal muscle from lean and obese Zucker while activation of the CB1R with ACEA, decreased glucose transport activity. Key proteins associated with regulation of glucose transport activity were not altered by either CB1R agonism (ACEA) or antagonism (SR141716). Chronic CB1R antagonist treatment (10 mg/kg SR141716 i.p. / 14 days) also enhanced insulin-stimulated glucose transport activity in skeletal muscle of both lean and obese animals, again with no alteration in relevant signaling factors. Plasma free fatty acids (FFAs) were decreased in chronically-treated lean and obese animals and whole-body insulin sensitivity was improved in obese Zucker rats. The enhanced insulin sensitivity seen in chronically-treated obese animals was associated with a dramatic reduction in insulin secretion following a glucose challenge. Acute CB1R antagonism in obese animals also elicited a reduction in insulin secretion following a glucose challenge; however, with no improvement of whole-body insulin sensitivity. Acute CB1R antagonist treatment did not alter skeletal muscle glucose transport activity or circulating FFAs for any animals. These data suggest that although CB1R antagonism directly enhances basal and insulin stimulated glucose transport in skeletal muscle of lean and obese rats, direct action on the skeletal muscle is not responsible for the improvement in insulin-stimulated glucose transport activity and whole-body insulin sensitivity seen in chronically-treated obese animals. CB1 receptor antagonist Endocannabinoid System Glucose transport Metabolic Syndrome Obese Zucker rat
42	The Effects of a Neutral Cannabinoid-1 Receptor Antagonist on Intravenous Nicotine Self Administration Behaviour Pryslawsky, Yaroslaw 19 March 2014 (has links) Introduction: Tobacco dependence is a chronic disorder that carries the risk of relapse at any time point during abstinence. It is a major health issue in the world and current pharmacotherapies have had limited efficacy. Therefore, development and validation of novel treatments are required. Objective: Investigate the novel neutral cannabinoid-1 receptor antagonist AM4113 on nicotine (main psychoactive ingredient in tobacco)-taking behaviour in animals. Methods: Using the nicotine intravenous- and food control- self administration paradigms, we tested the acute and chronic (10-days) effects of AM4113 on nicotine- and food-taking behaviour. Results: Acute AM4113 treatments (1-, 3-, 10-mg/kg) reduced nicotine self administration. Chronic AM4113 administration (10mg/kg) produced a sustained reduction of nicotine-taking behaviour during the course of the treatment. In the similar food control self administration experiments, AM4113 overall produced no effect. Conclusion: AM4113 can attenuate nicotine-taking behaviour and its effect is sustained under chronic treatment. nicotine self administration tobacco dependence cannabinoid 1 receptor CB1 receptor neutral antagonist AM4113
43	The Effects of a Neutral Cannabinoid-1 Receptor Antagonist on Intravenous Nicotine Self Administration Behaviour Pryslawsky, Yaroslaw 19 March 2014 (has links) Introduction: Tobacco dependence is a chronic disorder that carries the risk of relapse at any time point during abstinence. It is a major health issue in the world and current pharmacotherapies have had limited efficacy. Therefore, development and validation of novel treatments are required. Objective: Investigate the novel neutral cannabinoid-1 receptor antagonist AM4113 on nicotine (main psychoactive ingredient in tobacco)-taking behaviour in animals. Methods: Using the nicotine intravenous- and food control- self administration paradigms, we tested the acute and chronic (10-days) effects of AM4113 on nicotine- and food-taking behaviour. Results: Acute AM4113 treatments (1-, 3-, 10-mg/kg) reduced nicotine self administration. Chronic AM4113 administration (10mg/kg) produced a sustained reduction of nicotine-taking behaviour during the course of the treatment. In the similar food control self administration experiments, AM4113 overall produced no effect. Conclusion: AM4113 can attenuate nicotine-taking behaviour and its effect is sustained under chronic treatment. nicotine self administration tobacco dependence cannabinoid 1 receptor CB1 receptor neutral antagonist AM4113
44	The MAGL Inhibitor, JZL184, Attenuates LiCl-Induced Vomiting in the Suncus murinus and 2AG Attenuates LiCl-Induced Nausea-Like Behavior in Rats Sticht, Martin 06 April 2011 (has links) The role of 2-arachidonoylglycerol (2-AG) in nausea and vomiting was evaluated using a shrew (Suncus murinus) model of emesis and nausea-like behavior in rats, conditioned gaping. Shrews received JZL184, a selective MAGL inhibitor, prior to treatment with emetogenic lithium chloride (LiCl). The potential of exogenously administered 2-AG and arachidonic acid (AA) to regulate conditioned gaping was assessed in rats. The role of cannabinoid receptors and cyclooxygenase (COX) inhibition in suppression of vomiting and conditioned gaping was also evaluated. JZL184 dose-dependently suppressed vomiting in shrews, and was shown to inhibit MAGL in shrew brain tissue. The anti-emetic effects of JZL184 were prevented by the CB1 antagonist, AM251. Exogenous 2-AG suppressed LiCl-induced conditioned gaping, but was not prevented by AM251 or the CB2 antagonist, AM630. Instead, the COX inhibitor, indomethacin, prevented the suppressive effects of 2-AG, as well as AA. These results suggest that manipulations that elevate 2-AG may have anti-emetic/anti-nausea potential. / This research was supported by research grants from the Natural Sciences and Engineering Research Council of Canada (NSERC 92057) to Linda Parker, the Israel Science Foundation (DA009789) to Raphael Mechoulam, and the National Institutes of Health (DA009789, DA017259) to Benjamin Cravatt. MAGL 2AG CB1 Receptor cyclooxygenase nausea vomiting learning gaping taste reactivity
45	Synthesis of fatty acid derivatives of catechol compounds that exhibit negative modulation of food intake and antioxidant properties Almeida Cotrim, Bruno 10 January 2011 (has links) Obesity constitutes a problem whose manifestations have consequences in almost every field of the medicine and nowadays there is a lack of pharmacological therapy alternatives for its long term treatment. Lipidic compounds as endocannabinoids and PPAR-α ligands are known to play an important role in the modulation of appetite and metabolism. Three series of fatty acid derivatives of catechol compounds were synthesized and their biological activity evaluated. Some of the synthesized compounds presented LDL antioxidant activity and/or food intake modulation in an animal model and their mechanism of action was also evaluated. The pharmacodynamics of the synthesized compounds could be explained by CB1 and PPAR-α interactions nevertheless it does not explain the activity of all compounds. / La obesidad es un problema cuyas manifestaciones tienen consecuencias en casi todos los campos de la medicina y actualmente existe una escasez de terapias farmacológicas para su tratamiento de uso continuo. Se sabe que algunos compuestos lipídicos como los endocanabinoides y ligandos del PPAR-α participan de manera importante en la modulación del apetito y en el metabolismo. Tres series de compuestos derivados de ácidos grasos con compuestos catecólicos fueron sintetizadas y sus actividades biológicas fueron evaluadas. Algunos de los compuestos presentó inhibición de la oxidación de la LDL y/o modulación de la ingesta en modelo animal y sus mecanismos de acción fueron también evaluados. La actividad de los compuestos pasa por interacciones con el receptor CB1 y el PPAR-α pero estas interacciones no explican la actividad de todos los compuestos Cannabinoids food intake endocannabinoids metabolism organic synthesis obesidad CB1 PPAR-α antioxidante hidroxitirosol 57
46	Molecular mechanisms of CB1 cannabinoid receptor signaling and internalization / Daigle, Tanya L. January 2007 (has links) Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 100-108).
47	Appetite and functional brain responses to cannabinoids Dodd, Garron January 2010 (has links) The obesity epidemic is a major health threat affecting one in four people in the affluent western world, where high-energy foods are easily available and there is little need for exercise. To identify novel therapeutic targets for the treatment of obesity, one important step is to further define the complex circuitry in the brainwhich is ultimately responsible for our appetite and body weight regulation. Although complex, appetite can be thought of as having two distinct, though none mutually exclusive, aspects: the need to eat (homeostatic) and the desire to eat(hedonistic).The need to eat, a product of energy homeostasis, is what drives the consumption offood for basic survival. In an attempt to further define the mainly “homeostatic” neuronal circuitry, we combined blood-oxygen-level-dependent (BOLD)pharmacological-challenge magnetic resonance imaging (phMRI) with c-Fosfunctional activity mapping to characterise “whole brain” responsiveness to anorexigenic dose of the glucose anti metabolite 2-deoxy-D-glucose (2-DG). Using thesecomplementary methods, we demonstrated functional brain activity in a number ofknown glucose-sensing brain regions, including parts of the hypothalamus andbrainstem, following administration of 2-DG when compared with vehicle treatment.The desire to eat is a result of a complex interplay between the reward andmotivational circuits implicated in addictive behaviours, and those which controlenergy homeostasis. Recent research has pointed to the endocannabinoid system,and specifically the central cannabinoid 1 (CB1) receptor, as a key target mediatingthe functional cross talk between the two appetitive systems. To define the sites ofaction of cannabinoids, we used an orexigenic dose of the full CB1 agonist, CP55940,to map responsive brain regions again using BOLD phMRI and whole-brain c-Fosfunctional activity mapping. Areas of interest demonstrated a drug interaction whenthe CB1 receptor inverse agonist, Rimonabant was co-administered. These complementary methods demonstrated functional activity in the cortico-striatalhypothalamicpathway, a key system in the motivational drive to eat.The appetitive actions of synthetic CB1 inverse agonists such as Rimonabant are welldocumented. We, however, described a putative novel endogenous CB1 inverseagonist, hemopressin, which is the first identified peptide ligand of CB1 receptors.We showed that hemopressin inhibits agonist-induced receptor internalisation in aheterologous cell model in vitro. When administered centrally or systemically in vivo,we found that hemopressin decreases nocturnal food intake in out-bred rats andmice, as well as in obese, leptin-deficient ob/obmice. Importantly, hemopressininduces hypophagia without causing any apparent adverse side effects. We have also shown that the anorectic effect is absent in CB1-/- mice, and that hemopressin canblock CB1 agonist-induced hyperphagia in male rats, providing strong evidence forantagonism of the CB1 receptor in vivo. We speculate that hemopressin may be one of a family of endogenous functional CB1 receptor ligands that modulate the activity of appetite pathways in the brain. 616.8526
48	Examining Serine Hydrolase Small Molecule Inhibitors as Regulators of Hepatitis C Virus Life Cycle Lefebvre, David 15 November 2021 (has links) Hepatitis C virus (HCV) is a hepatotropic positive-sense RNA virus of the Flaviviridae virus family and is a major cause of chronic liver disease worldwide. Like all obligate parasites, HCV relies on host pathways to enable its pathogenesis. HCV, in particular, has a clear link with hepatic lipid metabolism, promoting a lipid-rich environment for its proliferation. This manifests as liver steatosis in many patients harboring chronic HCV infection. Based on our recent findings regarding an immunometabolic and HCV antiviral microRNA (miRNA), miRNA-185 targeting and down regulating serine hydrolases (SH) involved in lipid and endocannabinoid metabolism, here we investigate HCV and its dependency on certain metabolic serine hydrolases involved in lipid and endocannabinoid metabolism. Serine hydrolases are one of the largest and most diverse enzyme families. This enzyme family has emerged as a center of therapeutic potential due to its implications in many metabolic roles. Here, we demonstrate that pharmacological inhibition of metabolic serine hydrolases alpha-beta hydrolyzing domain 6 (ABHD6), carboxylesterase 1 (CES1), and monoacylglycerol lipase (MGLL), enzymes involved in the hydrolysis of the endogenous cannabinoid receptor 1 (CB1) agonist 2-arachidonoyl glycerol (2-AG) are potently antiviral against HCV. Serine hydrolase inhibition with the MGLL inhibitor MJN110 paired with endocannabinoid signaling antagonization led to additive antiviral effects against HCV and has revealed modulation of the viral pathogenic phenotype to be its key course of action. MGLL inhibitor MJN110 transcriptomic characterization revealed modulations in humoral immunity and phagocytosis and acts antiviraly against HCV independent of CB1 antagonization. This provides an avenue for future investigation, assessing the viability of CB1 antagonization, and MGLL as a key host targeted antiviral factor in affecting HCV viral life cycle. HCV Serine Hydrolase MGLL MJN110 miRNA-185 CB1 AM251 SynergyFinder ABPP Palmitoylation 2-BP
49	First in Class (S,E)-11-[2-(Arylmethylene)Hydrazono]-PBD Analogs as Selective CB2 Modulators Targeting Neurodegenerative Disorders Mingle, David, Ospanov, Meirambek, Radwan, Mohamed O., Ashpole, Nicole, Otsuka, Masami, Ross, Samir A., Walker, Larry A., Shilabin, Abbas G., Ibrahim, Mohamed A. 01 January 2021 (has links) Newly designed pyrrolo[2,1-c][1,4]benzodiazepines tricyclic skeleton has shown potential clusters of cannabinoid receptors CB1/CB2 selective ligands. CB2 plays a critical role in microglial-derived neuroinflammation, where it modulates cell proliferation, migration, and differentiation into M1 or M2 phenotypes. Beginning with computer-based docking studies accounting the recently discovered X-ray crystal structure of CB2, we designed a series of PBD analogs as potential ligands of CB2 and tested their binding affinities. Interestingly, computational studies and theoretical binding affinities of several selected (S,E)-11-[2-(arylmethylene)hydrazono]-PBD analogs, have revealed the presence of potential selectivity in binding attraction toward CB1 and CB2. Reported here is the discovery of the first representatives of this series of selective binding to CB2. Preliminary data showed that this class of molecules display potential binding efficacy toward the cannabinoid receptors tested. Intriguingly, initial cannabinoid binding assay showed a selective binding affinity of 4g and 4h showed Ki of 0.49 and 4.7 μM toward CB2 receptors while no binding was observed to CB1. The designed leads have shown remarkable stability pattern at the physiological pH magnifying their therapeutic values. We hypothesize that the PBD tricyclic structure offers the molecule an appropriate three-dimensional conformation to fit snugly within the active site of CB2 receptors, giving them superiority over the reported CB2 agonists/inverse agonists. Our findings suggested that the attachment of heterocyclic ring through the condensation of diazepine hydrazone and S- or N-heterocyclic aldehydes enhances the selectivity of CB2 over CB1. [Figure not available: see fulltext.]. Cannabinoid receptors CB1/CB2 Central nervous system (CNS) neurodegenerative diseases neuroinflammation pyrrolobenzodiazepines
50	The Endocannabinoid System and Heart Disease: The Role of Cannabinoid Receptor Type 2 Fulmer, Makenzie L., Thewke, Douglas P. 01 January 2018 (has links) Decades of research has provided evidence for the role of the endocannabinoid system in human health and disease. This versatile system, consisting of two receptors (CB1 and CB2), their endogenous ligands (endocannabinoids), and metabolic enzymes has been implicated in a wide variety of disease states, ranging from neurological disorders to cancer. CB2 has gained much interest for its beneficial immunomodulatory role that can be obtained without eliciting psychotropic effects through CB1. Recent studies have shed light on a protective role of CB2 in cardiovascular disease, an ailment which currently takes more lives each year in Western countries than any other disease or injury. By use of CB2 knockout mice and CB2-selective ligands, knowledge of how CB2 signaling affects atherosclerosis and ischemia has been acquired, providing a major stepping stone between basic science and translational clinical research. Here, we summarize the current understanding of the endocannabinoid system in human pathologies and provide a review of the results from preclinical studies examining its function in cardiovascular disease, with a particular emphasis on possible CB2-targeted therapeutic interventions to alleviate atherosclerosis. 2-AG AEA atherosclerosis cannabinoids CB1 CB2 ischemia/reperfusion. Biomedical Sciences

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