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Modulation der Insulinsignalgebung durch Prostaglandin E2 und Endocannabinoide / Modulation of insulin signaling by prostaglandin E2 and endocannabinoidsStrohm, Daniela January 2010 (has links)
Die adipositasbedingte Insulinresistenz geht mit einer unterschwelligen Entzündungsreaktion einher. Als Antwort auf dieses Entzündungsgeschehen wird PGE2 unter anderem von Kupffer Zellen der Leber freigesetzt und kann seine Wirkung über vier PGE2-Rezeptorsubtypen (EP1-EP4) vermitteln. In vorangegangenen Arbeiten konnte gezeigt werden, dass PGE2 in Rattenhepatozyten über den EP3 R ERK1/2-abhängig die intrazelluläre Weiterleitung des Insulinsignals hemmt. Über die Modulation der Insulinrezeptorsignalkette durch andere EP-Rezeptoren war bisher nichts bekannt. Daher sollte in stabil transfizierten Zelllinien, die jeweils nur einen der vier EP-Rezeptorsubtypen exprimierten, der Einfluss von PGE2 auf die Insulinrezeptorsignalkette untersucht werden. Es wurden HepG2-Zellen, die keinen funktionalen EP-Rezeptor aufwiesen, sowie HepG2-Zellen, die stabil den EP1-R (HepG2-EP1), den EP3β-R (HepG2 EP3β) oder den EP4-R (HepG2 EP4) exprimierten, sowie die humane fötale Hepatozytenzelllinie, Fh hTert, die den EP2- und den EP4-R exprimierte, für die Untersuchungen verwendet. Die Zellen wurden für 330 min mit PGE2 (10 µM) vorinkubiert, um die pathophysiologische Situation nachzustellen und anschließend mit Insulin (10 nM) für 15 min stimuliert. Die insulinabhängige Akt- und ERK1/2-Phosphorylierung wurde im Western-Blot bestimmt.
In allen Hepatomzelllinien die EP-R exprimierten, nicht aber in der Zelllinie, die keinen EP R exprimierte, hemmte PGE2 die insulinstimulierte Akt-Phosphorylierung. In allen drei stabil transfizierten Zelllinien, nicht jedoch in den Fh-hTert-Zellen, steigerte PGE2 die basale und insulinstimulierte Phosphorylierung der Serin/Threoninkinase ERK1/2. In den HepG2 EP1- und den HepG2-EP3β-Zellen steigerte PGE2 mutmaßlich über die ERK1/2-Aktivierung die Serinphosphorylierung des IRS, welche die Weiterleitung des Insulinsignals blockiert. Die Hemmung der Aktivierung von ERK1/2 hob in EP3 R-exprimierenden Zellen die Abschwächung der Insulinsignalübertragung teilweise auf. In diesen Zellen scheint die ERK1/2-Aktivierung die größte Bedeutung für die Hemmung der insulinstimulierten Akt-Phosphorylierung zu haben. Da durch die Hemmstoffe die PGE2-abhängige Modulation nicht vollständig aufgehoben wurde, scheinen darüber hinaus aber noch andere Mechanismen zur Modulation beizutragen. In den Fh hTert-Zellen wurde die Insulinrezeptorsignalkette offensichtlich über einen ERK1/2-unabhängigen, bisher nicht identifizierten Weg unterbrochen.
Eine gesteigerte PGE2-Bildung im Rahmen der Adipositas ist nicht auf die peripheren Gewebe beschränkt. Auch im Hypothalamus können bei Adipositas Zeichen einer Entzündung nachgewiesen werden, die mit einer gesteigerten PGE2-Bildung einhergehen. Daher wurde das EP R-Profil von primären hypothalamischen Neuronen und neuronalen Modellzelllinien charakterisiert, um zu prüfen, ob PGE2 in hypothalamischen Neuronen die Insulinsignalkette in ähnlicher Weise unterbricht wie in Hepatozyten. In allen neuronalen Zellen hemmte die Vorinkubation mit PGE2 die insulinstimulierte Akt-Phosphorylierung nicht. In der neuronalen hypothalamischen Zelllinie N 41 wirkte PGE2 eher synergistisch mit Insulin. In durch Retinsäure ausdifferenzierten SH SY5Y-Zellen waren die Ergebnisse allerdings widersprüchlich. Dies könnte darauf zurückzuführen sein, dass die Expression der EP Rezeptoren im Verlauf der Kultur stark schwankte und somit die EP R-Ausstattung der Zellen zwischen den Zellversuchen variierte. Auch in den primären hypothalamischen Neuronen variierte die EP R-Expression abhängig vom Differenzierungszustand und PGE2 beeinflusste die insulinstimulierte Akt-Phosphorylierung nicht. Obwohl in allen neuronalen Zellen die Akt-Phosphorylierung durch Insulin gesteigert wurde, konnte in keiner der Zellen eine insulinabhängige Regulation der Expression von Insulinzielgenen (POMC und AgRP) nachgewiesen werden. Das liegt wahrscheinlich an dem niedrigen Differenzierungsgrad der untersuchten Zellen.
Im Rahmen der Adipositas kommt es zu einer Überaktivierung des Endocannabinoidsystems. Endocannabinoidrezeptoren sind mit den EP Rezeptoren verwandt. Daher wurde geprüft, ob Endocannabinoide die Insulinsignalweiterleitung in ähnlicher Weise beeinflussen können wie PGE2. Die Vorinkubation der N 41-Zellen für 330 min mit einem Endocannabinoidrezeptoragonisten steigerte die insulinstimulierte Akt-Phosphorylierung, was auf einen insulinsensitiven Effekt von Endocannabinoiden hindeutet. Dies steht im Widerspruch zu der in der Literatur beschriebenen endocannabinoidabhängigen Insulinresistenz, die aber auf indirekte, durch Endocannabinoide ausgelöste Veränderungen zurückzuführen sein könnte. / The obesity related insulin resistance is accompanied by a low grade inflammation. In response to inflammatory stimuli, PGE2 is released from Kupffer cells and signals through four G-Protein coupled PGE2-receptors (EP1-EP4). Previous work showed that PGE2 attenuated insulin signaling in rat hepatocytes through an EP3ß- and ERK1/2-dependent mechanism. Since EP-receptor expression on hepatocytes varies between species and physiological conditions, the effect of the individual EP receptor subtypes on insulin signaling was studied in hepatoma cell lines expressing individual EP receptor subtypes. HepG2 cells lacking functional EP-receptors, and derivatives stably expressing either EP1 receptor (HepG2-EP1), EP3ß receptor (HepG2-EP3ß) or EP4 receptor (HepG2-EP4) and Fh-hTert cells expressing EP2- and EP4-receptor were pre-incubated with PGE2 for 330 min to mimic the sub-acute inflammation. The cells were subsequently stimulated with insulin for 15 min. Akt and ERK1/2 activation was determined by Western Blotting with phospho-specific antibodies.
PGE2 inhibited insulin stimulated Akt phosphorylation in all cell lines expressing EP receptors, except in HepG2 cells which are lacking functional EP receptors. PGE2 increased insulin stimulated phosphorylation of the serine/threonine kinase ERK1/2 in all EP R expressing HepG2 cell lines except in Fh-hTert cells. In HepG2-EP1 and HepG2 EP3ß cells PGE2 increased the serine phosphorylation of the insulin receptor substrate, presumably through an ERK1/2 activation. This IRS-serine phosphorylation leads to attenuation of insulin signal transduction. Inhibiting ERK1/2 activation with a specific inhibitor attenuated the PGE2-dependent inhibition of insulin signal transmission in HepG2 EP3ß cells to some extent. ERK1/2 activation in these cells seems to be of major importance for the observed attenuation of insulin stimulated Akt phosphorylation. Application of inhibitors in the other cell lines stably expressing EP receptors provided evidence that other mechanisms contributed to the attenuation of insulin signaling. Insulin signal transduction in Fh-hTert cells by PGE2 was apparently blocked by an ERK1/2-independent mechanism.
Increased PGE2 production during obesity is not limited to the periphery. Signs of inflammation have been detected in the hypothalamus, which might be associated with an increased PGE2 production. Therefore, the EP receptor profile of primary neurons as well as neuronal cell models was characterised in order to investigate, whether PGE2 attenuates insulin signal transduction in neuronal cells similar to what was observed in hepatocytes. Pre-incubation with PGE2 did not attenuate insulin stimulated Akt phosphorylation in all neuronal cells. The EP receptor profile in SH SY5Y cells and in primary neurons varied depending on the differentiation status of the cells. Although Akt-kinase was phosphorylated in response to insulin stimulation in all neuronal cells studied, gene expression of insulin target genes (POMC, AgRP) was not modulated by insulin. This might be due to the low level of differentiation of the investigated cells.
In the course of obesity, an over-activation of the endocannabinoid system is detected. Since endocannabinoid receptors are related to EP receptors, it was investigated whether endocannabinoids can interfere with insulin signaling in a similar way as PGE2. Pre-incubation of the neuronal cell line N 41 for 330 min with an endocannabinoid receptor agonist, increased insulin stimulated Akt phosphorylation. This implies an insulin sensitising effect of endocannabinoids. This is contradictory to the endocannabinoid-dependent insulin resistance described in the literature and might be caused by indirect endocannabinoid-triggered mechanisms.
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Neuromodulation via endocannabinoids and nitric oxide in the lamprey spinal cordKyriakatos, Alexandros, January 2009 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2009. / Härtill 5 uppsatser.
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The Endocannabinoid Antagonist AM251 as a Method of Protection Prior to Global Cerebral Ischemia: Implications for Dopamine Function, Neuronal Survival and BehaviourDunbar, Megan 24 July 2013 (has links)
Implications for the endocannabinoid system in global cerebral ischemia has not been clearly defined. Ischemia produces an excitotoxic environment that is severely damaging to neurons, causing degradation of cell membrane and ultimately cell death. Contradicting research suggests both the benefits and adverse effects of endocannabinoids on neurological injury. Due to the excitotoxic nature of ischemic injury, and the mechanisms at play with endocannabinoid agonists, such as increased transmission of dopamine and glutamate, it is suspected that endocannabinoid antagonists, such as AM251, may a provide cell protection.40 male Wistar rats were separated into 4 groups (n=10/group). The first group of rats were administered AM251 (2 mg/kg, i.p) 30 minutes prior to global cerebral ischemia (four vessel occlusion), while the second group were given AM251, 30 minutes prior to sham surgery. Finally the last two groups were given a vehicle control instead of AM251 and given either ischemia or the sham surgery. Behavioural testing, open field test and elevated plus maze, took place after a five day recovery period following ischemia. Immunohistochemical analyses were performed using to mark tyrosine hydroxylase (TH) and dopamine receptor 1(DRD1) to compare dopamine function amongst groups. Cell survival was also evaluated using thionin staining. Ischemia induced significant reduction in dopamine within the mesolimbic circuit, including: ventral tegmental area, nucleus accumbens, CA3 & CA1 of the hippocampus, and basolateral amygdala. These reductions in dopamine transmission by global ischemia were partially or fully reversed when AM251 was given beforehand. Furthermore, cell survival was increased in the CA1 from treatment of AM251. Behavioural results show similar results that AM251 reversed emotional irregularities associated with ischemia insult. The endocannabinoid antagonist AM251 improves deficits in dopamine function, prevents cell death and regulates emotionality when given prior global cerebral ischemia.
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Synthesis of fatty acid derivatives of catechol compounds that exhibit negative modulation of food intake and antioxidant propertiesAlmeida 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
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Brain-derived neurotrophic factor and endocannabinoid functions i GABAergic interneuron development /Berghuis, Paul, January 2007 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.
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EFEITO DA ANANDAMIDA NOS MOVIMENTOS DE MASCAR NO VAZIO INDUZIDOS POR HALOPERIDOL EM RATOS: PARTICIPAÇÃO DO RECEPTOR CB1 / EFFECT OF ANANDAMIDE ON VACUOUS CHEWING MOVEMENTS INDUCED BY HALOPERIDOL IN RATS: PARTICIPATION OF CB1 RECEPTORRodrigues, Jivago Röpke 05 September 2012 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Treatment with antipsychotic drugs may cause tardive dyskinesia in humans and orofacial dyskinesia in rodents. Although the dopaminergic system in basal ganglia has been implicated in these movement disorders, their underlying mechanisms remain unclear. In recent years, the identification of high density of CB1 cannabinoid receptors within the basal ganglia has suggested a potential role for endocannabinoids in the control of basal ganglia-related movement disorders. Thus, the present study aimed to investigate whether CB1 receptors are involved in haloperidol-induced orofacial dyskinesia in rats. Adult male rats were treated with haloperidol decanoate (38 mg/kg, i.m., single administration). After 24 days, the animals were submitted to stereotaxic surgery for insertion of cannulas on right ventricle. After recovery, the effect of anandamide (6 nmol, i.c.v.) and/or the CB1 receptor antagonist SR141716A (30 μg, i.c.v.) on haloperidol-induced VCMs was assessed. Anandamide reversed haloperidol-induced VCMs. SR141716A (30 μg, i.c.v.) did not alter haloperidol-induced VCM per se, but prevented the effect of anandamide on VCM in rats. In conclusion, our results show that activation of CB1 receptor may prevent haloperidol-induced VCMs in rats, implicating cannabinoid signaling via CB1 receptor in orofacial dyskinesia. / O tratamento com antipsicóticos pode causar discinesia tardia em humanos e discinesia orofacial em roedores. Embora a via dopaminérgica nigroestriatal tem sido implicada nestas alterações motoras, seus mecanismos continuam não completamente esclarecidos. Recentemente, a identificação da alta densidade de receptores canabinóides (CB1) nos gânglios da base tem sugerido que os canabinoides possuem um papel importante no controle das desordens de movimento. Desta forma, o objetivo do presente estudo foi investigar se os receptores CB1 estão envolvidos na discinesia orofacial induzida por haloperidol em ratos. Ratos machos adultos receberam decanoato de haloperidol (38 mg/kg, i.m., administração única). Após 24 dias os mesmos foram submetidos a cirurgia estereotáxica para a implantação de cânula no ventrículo direito. Após um período de recuperação, o efeito da anandamida (agonista canabinóide) (6 nmol, i.c.v.) e/ou do antagonista do receptor CB1, SR141716A (30 μg, i.c.v.), sobre os MMVs foi analisado. A anandamida reverteu os MMVs induzidos por haloperidol. O SR141716A (30 μg, i.c.v.) per se não alterou os MMVs induzidos por haloperidol, mas preveniu o efeito da anandamida sobre os MMVs em ratos. Em conclusão, nossos resultados mostram que a ativação dos receptores CB1 pode prevenir os MMVs induzidos por haloperidol em ratos, sugerindo a participação da sinalização canabinóide via receptor CB1 na discinesia orofacial.
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Endocannabinoid Modulation of Post-Ischemia DepressionBonneville, Marika January 2016 (has links)
Post-ischemia depression (PID) is a condition that affects approximately 30% of survivors from stroke or cardiac arrest and has an important impact on patients’ quality of life. Previous studies support important roles of the endocannabinoid (eCB) system in depression and brain ischemia. This study attempts to link all three variables together by investigating the role and mechanism of eCB signaling in the development of PID. A global ischemia + hypotension model was used to induce a PID phenotype in CD1 mice. Three ischemic time frames were tested, and even though all three could induce significant cell death in the CA1 region of the hippocampus, only the 15-minute time point led to an increased immobility time on the forced swimming test (FST). The main goal of this study was to investigate the effect of a cannabinoid type-I receptor (CB1R) antagonist/inverse agonist, AM281, on the development of two depressive symptoms: anhedonia, measured with the sucrose preference test (SPT), and behavioral despair, measured with the FST. AM281 administration was able to significantly reduce the symptoms of anhedonia and behavioural despair. Subsequently, the mechanism behind this antidepressant-like effect was investigated. Administration of bicuculine with AM281 did not significantly affect the antidepressant effect on the FST, therefore suggesting that AM281 does not act on GABAergic synapses. A similar protocol was adopted with NVP-AM077, where its administration combined with AM281 was able to block the effect of AM281, thus confirming the importance of glutamatergic synapses for the antidepressant effect of AM281. Furthermore, the administration of a TAT-GLUR2 peptide did not significantly affect the effect of AM281, implying that the astroglial cell-mediated LTD (long-term depression) at glutamatergic synapses is not involved in the antidepressant effects of AM281. Finally, a bilateral intra-BLA (basolateral nucleus of the amygdala) administration of AM281 was able to reduce the immobility time on the FST. In conclusion, these results highlight the important contribution of BLA glutamatergic synapses to the antidepressant-like effect conferred by AM281.
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The Endocannabinoid Antagonist AM251 as a Method of Protection Prior to Global Cerebral Ischemia: Implications for Dopamine Function, Neuronal Survival and BehaviourDunbar, Megan January 2013 (has links)
Implications for the endocannabinoid system in global cerebral ischemia has not been clearly defined. Ischemia produces an excitotoxic environment that is severely damaging to neurons, causing degradation of cell membrane and ultimately cell death. Contradicting research suggests both the benefits and adverse effects of endocannabinoids on neurological injury. Due to the excitotoxic nature of ischemic injury, and the mechanisms at play with endocannabinoid agonists, such as increased transmission of dopamine and glutamate, it is suspected that endocannabinoid antagonists, such as AM251, may a provide cell protection.40 male Wistar rats were separated into 4 groups (n=10/group). The first group of rats were administered AM251 (2 mg/kg, i.p) 30 minutes prior to global cerebral ischemia (four vessel occlusion), while the second group were given AM251, 30 minutes prior to sham surgery. Finally the last two groups were given a vehicle control instead of AM251 and given either ischemia or the sham surgery. Behavioural testing, open field test and elevated plus maze, took place after a five day recovery period following ischemia. Immunohistochemical analyses were performed using to mark tyrosine hydroxylase (TH) and dopamine receptor 1(DRD1) to compare dopamine function amongst groups. Cell survival was also evaluated using thionin staining. Ischemia induced significant reduction in dopamine within the mesolimbic circuit, including: ventral tegmental area, nucleus accumbens, CA3 & CA1 of the hippocampus, and basolateral amygdala. These reductions in dopamine transmission by global ischemia were partially or fully reversed when AM251 was given beforehand. Furthermore, cell survival was increased in the CA1 from treatment of AM251. Behavioural results show similar results that AM251 reversed emotional irregularities associated with ischemia insult. The endocannabinoid antagonist AM251 improves deficits in dopamine function, prevents cell death and regulates emotionality when given prior global cerebral ischemia.
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The Role of Endocannabinoids in AtherosclerosisMatthews, Anberitha Tyiona 11 December 2015 (has links)
Cardiovascular disease leads in morbidity and mortality in Western societies with no known cure. NADPH oxidase (Nox) contributes to atherosclerosis through the indirect activation of macrophages leading to the internalization of oxidized low density lipoproteins (oxLDL). Chronic inflammation in activated macrophages contributes to atherosclerosis. Because macrophages are positioned at the cross-roads of lipid metabolism in vessel walls, they are important in the cellular pathology of atherosclerosis. Components of the endocannabinoid (eCB) system are vital to atherosclerotic development, since the eCB system has been found to play an important role in the amelioration of atherosclerosis. The eCB system has several components, including the G-protein-coupled cannabinoid receptors (CB1 and CB2); their endogenous ligands, 2-arachidonoylglycerol (2-AG) and anandamide (AEA); and biosynthetic enzymes that produce and degrading these compounds. CB2 signaling has been shown to upregulate immunoprotective and anti-oxidative pathways, whereas CB1 signaling has opposite effects. We hypothesized a mechanistic link between scavenger receptor activation and Nox activity, which leads to enhanced 2-AG biosynthesis via a signaling pathway that activates diacylglycerol lipase beta (DAGLB). Activation of CB2-mediated signaling by enhanced “eCB tone” can potentially reduce oxidative stress in macrophages. The released 2-AG is subsequently catabolized hydrolytic enzymes, leading to enhanced 2-AGbiosynthesis via activated DAGLB. We first proved that macrophage treated with oxLDL can activate Nox and increase reactive oxygen species production. We used human and mouse macrophages to demonstrate cause and effect. Secondly, we demonstrated that increased levels of superoxide causes enhanced 2-AG biosynthesis within the macrophage, and that upregulation in eCB production is an adaptive response to oxidative stress. Finally, we identified and quantified the serine hydrolases found in smooth muscle cells (SMCs) using an activity-based protein profiling (ABPP)-MudPIT approach that our laboratory has previously done using human macrophages. Additionally, the catabolism of 2-AG by primary SMCs was explored to demonstrate SMCs can hydrolyze 2-AG to its metabolites arachidonic acid and glycerol by the known hydrolytic enzymes. We demonstrated that enhancing endocannabinoid tone within the vessel wall is a valuable strategy to reduce the occurrence of inflammation that leads to atherosclerosis.
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Endocannabinoid-Dependent Long-Term Depression of Ventral Tegmental Area GABA NeuronsWeed, Jared Mark 01 December 2013 (has links) (PDF)
GABA neurons in the ventral tegmental area of the midbrain are important components in the brain's reward circuit. Long term changes in this circuit occur through the process of synaptic plasticity. It has been shown that high frequency stimulation, as well as treatment with endocannabinoids, can cause GABA neurons in the ventral tegmental area to undergo long term depression, a form of synaptic plasticity that decreases excitability of cells. The present study elaborates on the mechanism whereby high frequency stimulation can result in long term depression of ventral tegmental area GABA neurons. Using the whole cell patch clamp technique in acute brain slices, we recorded excitatory currents from ventral tegmental area GABA neurons in GAD-GFP expressing CD1 mice and observed how the excitatory currents changed in response to different treatments. We confirm that high frequency stimulation causes long term depression, and the cannabinoid type 1 receptor antagonist AM-251 blocks this effect. Long term depression is also elicited by treatment with the cannabinoid type 1 receptor agonist 2-arachidonylglycerol. It is inconclusive whether treatment with 2-arachidonylglycerol occludes further long term depression by high frequency stimulation. We also demonstrate that activation of group I metabotropic glutamate receptors by DHPG produces long term depression. These results support the model that at these excitatory synapses, high frequency stimulation causes the release of glutamate from presynaptic terminals, activating group I metabotropic glutamate receptors, causing production of 2-arachidonylglycerol. 2-arachidonylglycerol in turn acts on presynaptic cannabinoid type 1 receptors to decrease release of glutamate onto GABA neurons. This model can be tested by further research, which should include cannabinoid type 1 receptor knockout mice. This study provides more insight into how drugs of abuse such as tetrahydrocannabinol, the active component of marijuana that activate cannabinoid type I receptors, can corrupt the natural reward mechanisms of the brain.
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