Acute Cannabinoid Treatment 'in vivo' Causes an Astroglial CB1R-Dependent LTD At Excitatory CA3-CA1 Synapses Involving NMDARs and Protein Synthesis

Kesner, Philip

January 2012

Cannabinoids have been shown to alter synaptic plasticity but the mechanism by which this occurs at hippocampal CA3-CA1 synapses in vivo is not yet known. Utilizing in vivo electrophysiological recordings of field excitatory postsynaptic potentials (fEPSP) on anesthetized rats and mice as well as three lines of conditional knockout mouse models, the objective was to show a two-part mechanistic breakdown of cannabinoid-evoked CA3-CA1 long-term depression (LTD) in its induction as well as early and later-phase expression stages. It was determined that this cannabinoid-induced in vivo LTD requires cannabinoid type-1 receptors (CB1Rs) on astrocytes, but not CB1Rs on glutamatergic or GABAergic neuronal axons/terminals. Pharmacological testing determined that cannabinoid-induced in vivo LTD also requires activation of NMDA receptors (NMDAR) and subsequent postsynaptic endocytosis of AMPA receptors (AMPAR). There exists a clear role for NR2B-containing NMDARs in a persistent, transitory form, potentially related to prolonged or delayed glutamate release (possibly as a result of the astrocytic network). A key determination of the expression phase is the involvement of new protein synthesis (using translation and transcription inhibitors) – further evidence of the long-term action of the synaptic plasticity from a single cannabinoid dose.

Cannabinoid

NMDAR

Protein Synthesis

CB1R

Hippocampus

Philip Kesner

Astrocyte

Knockout mice

fEPSP

Working Memory

LTD

Long-term depression

in vivo

Synaptic Plasticity

Involviment of cannabinoids CB1, CB2 recepotrs and KAPT channel in the anti-hiperalgesic effect mediated by dipyrone and its bioactives metabolites = Envolvimento dos receptores canabinóides CB-1 e CB-2 e canais KATP do tecido periférico na analgesia mediada pela dipirona e seus metabólitos bioativos / Envolvimento dos receptores canabinóides CB-1 e CB-2 e canais KATP do tecido periférico na analgesia mediada pela dipirona e seus metabólitos bioativos

Dos Santos, Gilson Gonçalves, 1986-

26 August 2018

Orientador: Carlos Amilcar Parada / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-26T11:05:11Z (GMT). No. of bitstreams: 1 DosSantos_GilsonGoncalves_M.pdf: 2757194 bytes, checksum: 3b5bda3ca0fc7912d13b42ba51399734 (MD5) Previous issue date: 2014 / Resumo: A dipirona (metamizol) é um pró-fármaco analgésico utilizado no controle da dor moderada, sendo metabolizada em dois metabolitos bioativos: 4-metil-aminoantipirina (4-MAA) e 4-aminoantipirina (4-AA). O objetivo deste estudo foi investigar a participação de receptores canabinóides periféricos, CB1, CB2 e canais de KATP sobre o efeito anti-hiperalgésico da dipirona, 4-MAA ou 4- AA. Para indução de hiperalgesia, PGE2 (100 ng/pata ) foi administrada localmente na pata traseira de ratos Wistar machos, e o limiar hiperalgésico mecânico foi quantificado por Von- Frey eletrônico, antes e três horas após a injeção. Dipirona, 4-MAA ou 4-AA foram administrados 30 minutos antes do Von Frey. Os antagonistas seletivos do receptor CB1 (AM251), CB2 (AM630) e glibenclamida, um bloqueador KATP (80 ug) ou ODQ um inibidor de cGMP (32 ?g) foram administrados 30 minutos antes da Dipirona, 4-MAA ou 4 -AA. O ODN-antisense para reduzir a expressão do receptor CB1 (30 ?g) foi administrado por via intratecal, uma vez por dia durante quatro dias consecutivos. A hiperalgesia mecânica induzida pela PGE2 foi reduzida pela dipirona, 4-MAA, e 4-AA de maneira dose-dependente. AM251 ou ODN-antisense contra o receptor neuronal CB1, mas não AM630, reduziu o efeito anti-hiperalgésico mediado por 4-AA, mas não da dipirona ou 4-MAA. Por outro lado, o efeito anti-hiperalgésico da dipirona, ou 4-MAA foi revertido por glibenclamida ou ODQ. Os resultados sugerem que a ativação de receptores neuronal CB1, mas não do receptor CB2, no tecido periférico esteja envolvido no efeito anti-hiperalgésico do metabólito 4-AA. Além disso, a dipirona e 4-MAA possui um efeito anti-hiperalgesico dependente de cGMP e consequente abertura KATP / Abstract: Dipyrone (metamizole) is an analgesic pro-drug used to control moderate pain. It is metabolized in two bioactive metabolites: 4-methylaminoantipyrine (4-MAA) and 4-aminoantipyrine (4-AA). The aim of this study was to investigate the participation of peripheral CB1 and CB2 cannabinoid receptors activation on the anti-hyperalgesic effect of Dypirone, 4-MAA or 4-AA. For induction of hyperalgesia, PGE2 (100 ng) was locally administrated in hindpaw of male Wistar rats, and the mechanical nociceptive threshold was quantified by electronic von-Frey, before and 3 hours after its injection. Dypirone, 4-MAA or 4-AA was administrated 30 minutes before the von-Frey test. The selective CB1 receptor antagonist AM251, CB2 receptor antagonist AM630, cGMP inhibitor ODQ (32 ?g) or KATP blocker glibenclamide (80 ?g) was administrated 30 minutes before Dypirone, 4-MAA or 4-AA. The antisense-ODN against CB1 receptor expression (30 ?g) was intrathecally administrated once a day during four consecutive days. PGE2-induced mechanical hyperalgesia was inhibited by dypirone, 4-MAA, and 4-AA in a dose-response manner. AM251 or ODN anti-sense against neuronal CB1 receptor, but not AM630, reversed the antihyperalgesic effect mediated by 4-AA, but not by dypirone or 4-MAA. On the other hand, the anti-hyperalgesic effect of dypirone or 4-MAA was reversed by Glibenclamide or ODQ. These results suggest that the activation of neuronal CB1, but not CB2 receptor, in the peripheral tissue is involved in the anti-hyperalgesic effect of 4-aminoantipyrine. In addition, 4- methylaminontipyrine mediates anti-hyperalgesic effect by the cGMP activation and the KATP opening / Mestrado / Fisiologia / Mestre em Biologia Funcional e Molecular

Dipirona

Metabólitos

Receptores de canabinoides

Canais KATP

Dipyrone

Metabolites

Receptors, Cannabinoid

Cyclic GMP-dependent protein kinases

KATP channels

Role of Type 2 Cannabinoid Receptor (CB2) in Atherosclerosis.

Netherland, Courtney Denise

17 December 2011

Atherosclerosis is a macrophage-dominated nonresolving inflammatory disease of the arterial wall. Macrophage processes, including apoptosis, influence lesion development in atherosclerosis. Cannabinoids, compounds structurally related to Δ9-tetrahydrocannabinol (THC), the active ingredient in marijuana, exert their effects through cannabinoid receptors, CB1 and CB2. Cannabinoid treatment, THC or Win55,212-2, reduces atherosclerosis in ApoE-null mice by a mechanism thought to involve CB2. However, the exact role of CB2 in atherosclerosis remains unclear. We found that CB2-null macrophages are resistant to oxysterol/oxLDL-induced apoptosis leading us to hypothesize that CB2 may modulate macrophage apoptosis in atherosclerosis. To determine the functions of CB2 in atherosclerosis, we fed low density lipoprotein receptor-null (Ldlr-/-) and Ldlr-/- mice genetically deficient in CB2, an atherogenic diet for 8 and 12 weeks. CB2 deficiency did not significantly affect aortic root lesion area after 8 or 12 weeks; however, after 12 weeks, CB2-deficient lesions displayed increased lesional macrophage and smooth muscle cell (SMC) content and a ~2-fold reduction in lesional apoptosis. CB2-deficienct lesions also displayed reduced collagen content and elevated elastin fiber fragmentation that was associated with elevated levels of the extracellular matrix degrading enzyme, matrix metalloproteinase 9 (MMP9). These results demonstrate that although CB2 signaling does not affect atherosclerotic lesion size it does modulate lesional apoptosis, cellularity and ECM composition. Ldlr-/- and CB2-deficient Ldlr-/- mice were also subjected to daily treatments with Win55,212-2, a synthetic cannabinoid, over the last 2 weeks of an 8 week atherogenic diet to identify CB2-dependent and CB2-independent effects of cannabinoid receptor stimulation on atherosclerosis. Win55,212-2 did not affect hypercholesterolemia, aortic root lesion area, lesional macrophage infiltration, or ECM composition in either genotype but did significantly reduce total plasma triglyceride levels and lesional SMC content, independent of CB2. Surprisingly, lesional apoptosis was dose-dependently repressed by Win55,212-2 in Ldlr-/- mice by a CB2-dependent mechanism. All together, these results support the suggestion that CB2 may be a target for novel therapies aimed at modulating lesional apoptosis and cellularity to increase lesion stability and reduce the vulnerability to rupture.

Cannabinoid receptor type 2

Elastin

ACAT

Atherosclerosis

Apoptosis

Macrophages

Matrix Metalloproteinase 9

Smooth Muscle Cells

Collagen

Medical Pharmacology

Medical Sciences

Medicine and Health Sciences

Identification of an Orally Bioavailable, Brain-Penetrant Compound with Selectivity for the Cannabinoid Type 2 Receptor

Ospanov, Meirambek, Sulochana, Suresh P., Paris, Jason J., Rimoldi, John M., Ashpole, Nicole, Walker, Larry, Ross, Samir A., Shilabin, Abbas G., Ibrahim, Mohamed A.

14 January 2022

Modulation of the endocannabinoid system (ECS) is of great interest for its therapeutic relevance in several pathophysiological processes. The CB2 subtype is largely localized to immune effectors, including microglia within the central nervous system, where it promotes anti-inflammation. Recently, a rational drug design toward precise modulation of the CB2 active site revealed the novelty of Pyrrolo[2,1-c][1,4]benzodiazepines tricyclic chemotype with a high conformational similarity in comparison to the existing leads. These compounds are structurally unique, confirming their chemotype novelty. In our continuing search for new chemotypes as selective CB2 regulatory molecules, following SAR approaches, a total of 17 selected (S,E)-11-[2-(arylmethylene)hydrazono]-PBD analogs were synthesized and tested for their ability to bind to the CB1 and CB2 receptor orthosteric sites. A competitive [H]CP-55,940 binding screen revealed five compounds that exhibited >60% displacement at 10 μM concentration. Further concentration-response analysis revealed two compounds, and , as potent and selective CB2 ligands with sub-micromolar activities ( = 146 nM and 137 nM, respectively). In order to support the potential efficacy and safety of the analogs, the oral and intravenous pharmacokinetic properties of compound were sought. Compound was orally bioavailable, reaching maximum brain concentrations of 602 ± 162 ng/g (p.o.) with an elimination half-life of 22.9 ± 3.73 h. Whether administered via the oral or intravenous route, the elimination half-lives ranged between 9.3 and 16.7 h in the liver and kidneys. These compounds represent novel chemotypes, which can be further optimized for improved affinity and selectivity toward the CB2 receptor.

administration

oral

animals

chemistry)

binding sites

brain (metabolism)

drug design

endocannabinoids (metabolism)

kidney (metabolism)

ligands

liver (metabolism)

male

mice

models

molecular

pyrroles (administration & dosage

chemistry)

receptors

cannabinoid (chemistry

metabolism)

structure-activity relationship

cannabinoid receptors CB1/CB2

central nervous system (CNS)

neurodegenerative diseases

neuroinflammation

pharmacokinetics (PK)

pyrrolobenzodiazepines

radioligand binding assay

Chemistry

Caractérisation de l'anatomie et de la fonction du système endocannabinoïde dans la rétine adulte

Cécyre, Bruno

08 1900

Au cours des dernières années, un intérêt grandissant concernant les rôles physiologiques des endocannabinoïdes (eCBs) a été observé. Le système eCB est une cible attrayante pour la modulation du système immunitaire et de la douleur périphérique. Bien que le récepteur CB1 soit distribué dans le système nerveux, le récepteur CB2 est traditionnellement associé au système immunitaire. Ce dogme fait maintenant l’objet d’un débat depuis la découverte de l’expression du récepteur CB2 dans certains neurones. La rétine est un modèle important pour l’étude de processus neuronaux. La présence du récepteur CB1 y a été démontrée. Des études fonctionnelles rapportent que l’activation des récepteurs cannabinoïdes affecte le fonctionnement de plusieurs cellules rétiniennes. À ce jour, aucune étude ne s’est intéressée au rôle global des récepteurs CB1 et CB2 dans la rétine. Nous avons investigué les conséquences de l’élimination du récepteur CB1 (cnr1-/-) ou du récepteur CB2 (cnr2-/-) sur la fonction rétinienne mesurée par électrorétinographie. Nous avons également caractérisé la distribution du récepteur CB2 dans la rétine. Pour ce faire, nous avons comparé la spécificité de plusieurs anticorps dirigés contre le récepteur CB2. Seulement l’un des anticorps testés a montré une spécificité satisfaisante. Il a permis de détecter la présence du récepteur CB2 dans les cônes, les bâtonnets, les cellules horizontales, amacrines, bipolaires et ganglionnaires. Nos résultats d’électrorétinographie indiquent que seules les souris cnr2-/- présentent une amplitude accrue de l’onde a des ERG, en conditions scotopiques. En conditions photopiques, l’amplitude de l’onde b des souris cnr2-/- montre un schéma d’adaptation à la lumière différent des autres groupes. Aucun effet significatif n’a été observé chez les animaux cnr1-/-. Ces résultats permettent de conclure que les récepteurs CB1 et CB2 jouent des rôles différents dans le traitement visuel et que le récepteur CB2 semble être impliqué dans l’établissement des réponses rétiniennes. / Cannabinoid receptors (CB1R and CB2R) are among the most abundant G-protein coupled receptors in the central nervous system. The endocannabinoid system is an attractive target for immune system modulation and peripheral pain management. While CB1R is distributed in the nervous system, CB2R has traditionally been associated to the immune system. This dogma is currently a subject of debate since the discovery of CB2R expression in neurons. The retina is an interesting model for neuronal processes’ study. The activation of cannabinoid receptors modulates neurotransmitter release from photoreceptors and could also affect bipolar cell synaptic release. However, the impact of CB1r and CB2R on the retinal function as a whole is currently unknown. In the present study, we investigated the function of cannabinoid receptors in the retina by recording electroretinographic responses (ERG) from mice lacking either CB1 or CB2 receptors (cnr1-/- and cnr2-/-, respectively). We also documented the precise distribution of CB2R by comparing the specificity of library of CB2R antibodies. One of the antibodies tested exhibited a valuable specificity and localized CB2R expression in cones and rods photoreceptors, horizontal cells, some amacrine cells, and bipolar and ganglion cells. In scotopic conditions, the amplitudes of the awave of the ERG were increased in cnr2-/- mice, while they remained unchanged in cnr1-/- mice. Under photopic conditions, b-wave amplitudes of cnr2-/- mice required more light adaptation time to reach stable values. No effect was observed in cnr1-/- mice. These data indicate that CB2R is likely to be involved in shaping retinal responses to light and suggest that CB1 and CB2 receptors could have different roles in visual processing.

Récepteurs aux cannabinoïdes

Récepteur CB2

Rétine

Électrorétinographie

Immunohistochimie

Microscopie confocale

Spécificité

Anticorps

Souris

Cannabinoid receptors

CB2 receptor

Retina

Electroretinography

Immunohistochemistry

Confocal microscopy

Specificity

Antibody

Mouse

Caractérisation de l'anatomie et de la fonction du système endocannabinoïde dans la rétine adulte

Cécyre, Bruno

08 1900

Au cours des dernières années, un intérêt grandissant concernant les rôles physiologiques des endocannabinoïdes (eCBs) a été observé. Le système eCB est une cible attrayante pour la modulation du système immunitaire et de la douleur périphérique. Bien que le récepteur CB1 soit distribué dans le système nerveux, le récepteur CB2 est traditionnellement associé au système immunitaire. Ce dogme fait maintenant l’objet d’un débat depuis la découverte de l’expression du récepteur CB2 dans certains neurones. La rétine est un modèle important pour l’étude de processus neuronaux. La présence du récepteur CB1 y a été démontrée. Des études fonctionnelles rapportent que l’activation des récepteurs cannabinoïdes affecte le fonctionnement de plusieurs cellules rétiniennes. À ce jour, aucune étude ne s’est intéressée au rôle global des récepteurs CB1 et CB2 dans la rétine. Nous avons investigué les conséquences de l’élimination du récepteur CB1 (cnr1-/-) ou du récepteur CB2 (cnr2-/-) sur la fonction rétinienne mesurée par électrorétinographie. Nous avons également caractérisé la distribution du récepteur CB2 dans la rétine. Pour ce faire, nous avons comparé la spécificité de plusieurs anticorps dirigés contre le récepteur CB2. Seulement l’un des anticorps testés a montré une spécificité satisfaisante. Il a permis de détecter la présence du récepteur CB2 dans les cônes, les bâtonnets, les cellules horizontales, amacrines, bipolaires et ganglionnaires. Nos résultats d’électrorétinographie indiquent que seules les souris cnr2-/- présentent une amplitude accrue de l’onde a des ERG, en conditions scotopiques. En conditions photopiques, l’amplitude de l’onde b des souris cnr2-/- montre un schéma d’adaptation à la lumière différent des autres groupes. Aucun effet significatif n’a été observé chez les animaux cnr1-/-. Ces résultats permettent de conclure que les récepteurs CB1 et CB2 jouent des rôles différents dans le traitement visuel et que le récepteur CB2 semble être impliqué dans l’établissement des réponses rétiniennes. / Cannabinoid receptors (CB1R and CB2R) are among the most abundant G-protein coupled receptors in the central nervous system. The endocannabinoid system is an attractive target for immune system modulation and peripheral pain management. While CB1R is distributed in the nervous system, CB2R has traditionally been associated to the immune system. This dogma is currently a subject of debate since the discovery of CB2R expression in neurons. The retina is an interesting model for neuronal processes’ study. The activation of cannabinoid receptors modulates neurotransmitter release from photoreceptors and could also affect bipolar cell synaptic release. However, the impact of CB1r and CB2R on the retinal function as a whole is currently unknown. In the present study, we investigated the function of cannabinoid receptors in the retina by recording electroretinographic responses (ERG) from mice lacking either CB1 or CB2 receptors (cnr1-/- and cnr2-/-, respectively). We also documented the precise distribution of CB2R by comparing the specificity of library of CB2R antibodies. One of the antibodies tested exhibited a valuable specificity and localized CB2R expression in cones and rods photoreceptors, horizontal cells, some amacrine cells, and bipolar and ganglion cells. In scotopic conditions, the amplitudes of the awave of the ERG were increased in cnr2-/- mice, while they remained unchanged in cnr1-/- mice. Under photopic conditions, b-wave amplitudes of cnr2-/- mice required more light adaptation time to reach stable values. No effect was observed in cnr1-/- mice. These data indicate that CB2R is likely to be involved in shaping retinal responses to light and suggest that CB1 and CB2 receptors could have different roles in visual processing.

Récepteurs aux cannabinoïdes

Récepteur CB2

Rétine

Électrorétinographie

Immunohistochimie

Microscopie confocale

Spécificité

Anticorps

Souris

Cannabinoid receptors

CB2 receptor

Retina

Electroretinography

Immunohistochemistry

Confocal microscopy

Specificity

Antibody

Mouse

The innate defensive behaviour and unconditioned fear-induced antinociception evoked by NMDA receptor activation in the medial hypothalamus are modulated by the intradiencephalic treatment with cannabidiol: the role of CB1 cannabinoid receptor / O comportamento de defesa inato e a antinocicepção induzida pelo medo incondicionado induzidos pela ativação de receptores NMDA no hipotálamo medial são modulados pelo tratamento intradiencefálico com cannabidiol: papel do receptor canabinoide CB1

Khan, Asmat Ullah

15 October 2018

The impacts of exogenous cannabinoids, such as the chemical constituents of Cannabis sativa like cannabidiol (CBD), on brain regions having a modest number of cannabinoid receptors, for example, the ventromedial hypothalamus, are not yet surely knew. A few researches have shown evidence that ventromedial hypothalamus (VMH) neurons play a role in modulating innate fear-induced behavioural reactions in rodents submitted to experimental models of panic attack, for example those based on prey versus wild snake confrontation paradigm. The panic attack-like state was also potentially induced in laboratory animals by N-Methyl-D-aspartate (NMDA), an excitatory amino acid, which stimulates neurons that organize defensive behavioural reactions in the central nervous system. Despite the fact that CB1 receptor-mediated endocannabinoid signaling mechanism underlies the antiaversive effect of exogenous anandamide in medial hypothalamus, there is still a lack of morphological evidence to support the distribution of CB1 receptors in the VMH. Henceforth, this study was designed to explore the specific pattern of distribution of the CB1 receptors in the VMH and, subsequently, the implication of these receptors in the endocannabinoidmodulated defensive behavioural responses followed by fear-induced antinociception evoked by NMDA microinjected in the VMH. A stainless steel guide-cannula was embedded in the rodent\'s brain coordinated towards VMH by means of stareotaxic surgery. Three different doses of cannabidiol (CBD) were microinjected in the VMH. The most effective dose was used after the pretreatment with the CB1 receptor-antagonist AM251, followed by NMDA microinjection in the VMH. The outcomes demonstrated that the defensive behavioural responses evoked in response to intra-VMH administration of NMDA (6 nmol) were decreased by intra-hypothalamic microinjections of CBD at the highest dose (100 nmol).These effects, however, were blocked by the administration of the CB1 receptor-antagonist AM251 (100 pmol) in the VMH. In addition, the fear-induced antinociception elicited by VMH chemical stimulation diminished after the VMH treatment with CBD, an effect reversed by the intra-diencephalic pretreatment with AM251. These findings suggested that CBD causes panicolytic-like effects when administered in the VMH, and that antiaversive effect recruits the CB1 receptor-endocannabinoid signaling mechanism in VMH. / O papel dos canabinoides exógenos nas regiões do cérebro com um número modesto de receptores cannabinoides, por exemplo, o hipotálamo ventromedial, ainda não está plenamente esclarecido. Algumas pesquisas de nosso grupo, não obstante, mostraram o hipotálamo ventromedial (HVM) exerce modulação de reações comportamentais provocadas pelo medo inato em animais submetidos a um modelo de ataques de pânico. Crises de pânico foram induzidas em animais de laboratório por N-metil-D-aspartato (NMDA), um aminoácido excitatório que, ao ser microinjetado em estruturas do sistema encefálico de aversão, estimula reações comportamentais defensivas no sistema nervoso central que mimetizam as respostas defensivas eliciadas por roedores confrontados com serpentes. Apesar do mecanismo de sinalização endocanabinoide mediado pelos receptores CB1 desempenhar um papel na modulação da neurotransmissão excitadora e inibitória no SNC, ainda há escassez de evidências morfológicas que embasem a distribuição dos receptores CB1 no HVM. Por conseguinte, este estudo foi idealizado para explorar a forma específica de distribuição dos receptores CB1 no HVM e, posteriormente, estudar a implicação desses receptores na modulação de respostas comportamentais defensivas, seguidas por antinocicepção induzida pelo medo, moduladas por endocanabinoides e evocadas por microinjetação de NMDA no HVM. Uma cânula-guia feita de aço inoxidável foi implantada no cérebro do roedor, e direcionada para o HVM por meio de cirurgia estareotóxica. Três diferentes doses de cannabidiol (CBD) foram microinjetadas no HVM. A dosagem mais eficaz foi utilizada após o pré-tratamento do hipotálamo medial com um antagonista do receptor CB1, o AM251, seguido da microinjeção NMDA no HVM. Os resultados demonstraram que as respostascomportamentais defensivas evocadas em resposta à administração intra-HVM de NMDA (6 nmol) foram diminuídas por microinjeções intra-hipotalâmicas de CBD na dose mais alta (100 nmol). Estes efeitos, no entanto, foram atenuados pela administração do antagonista do receptor CB1, AM251, na dose de 100 pmol no HVM. Além disso, a antinocicepção induzida pelo medo foi atenuada pela administração intra-diencefálica de CBA, o que foi revertido pelo pré-tratamenot do HVM com AM251. Esses dados sugerem que o CBD causa efeitos panicolíticos, quando administrado no HVM, envolvendo o mecanismo de sinalização do receptor CB1-endocannabinoide.

Antinocicepção induzida pelo medo

Ataques de pânico

Cannabidiol

Cannabinoid receptor type-1

Comportamento de defesa

Defensive behavior

Hipotálamo ventromedial

Innate fear-induced antinociception

NMDA

NMDA

Panic attack-like responses

Receptores canabinoides de tipo 1

Ventromedial hypothalamus

Sistemas cannabinoide y purinérgico: posibles sustratos neurobiológicos de la drogadicción

Soria Rodríguez, Guadalupe

21 June 2006

La adicción es un trastorno crónico de la conducta caracterizado por la búsqueda y el consumo compulsivos de la droga, la pérdida de control para limitar dicho consumo, a aparición de un estado emocional negativo cuando el acceso a la droga está impedido y la recaída en el proceso incluso tras largos períodos de abstinencia. El sistema dopaminérgico mesolímbico cortical ha sido propuesto como la principal base neurobiológica de la adicción, sin embargo existen otros sistemas de neurotransmision que participan en la consolidación del proceso adictivo.El sistema endocannabinoide, a traves del receptor CB1, participa en las propiedades adictivas de diferentes drogas de abuso como el delta9-tetrahidrocannabinol, la nicotina y la morfina. Sin embargo, hasta el momento de iniciar este trabajo, pocos estudios han demostrado una clara implicación del sistema endocannabinoide en las propiedades reforzantes de los psicoestimulantes. Mediante el uso de ratones CB1 knockout, hemos demostrado que el receptor CB1 participa en la eficacia reforzante de la cocaína. Además, la presencia de dicho receptor es necesaria para los procesos de consolidación de una conducta operante mantenida por la autoadministración de cocaína. Este estudio demuestra la importancia de dicho receptor CB1 en las propiedades adictivas de la cocaína, confirmando que el sistema endocannabinoide es un sustrato común para la adicción de drogas de abuso. Por otra parte, el sistema purinérgico modula numerosos sistemas de neurotransmisión en el SNC. La estrecha relación a nivel celular y funcional entre los receptores de adenosina y los receptores dopaminérgicos proporciona evidencias de que el sistema purinérgico podría modular los sistemas de recompensa. Utilizando diferentes modelos animales, hemos demostrado que los receptores de adenosina A2A son necesarios para que las propiedades adictivas de las drogas de abuso como los cannabinoides, los opioides, la nicotina y los psicoestimulantes se produzcan de un modo completo.Nuestros estudios nos permiten afirmar que ambos sistemas, el cannabinoide y el purinérgico podría suponer la existencia de nuevos sistemas de modulación común de los procesos adictivos. Asi, sería de gran interés desarrollar nuevas estrategias de bloqueo de los receptores A2A y CB1 para atenuar e incluso prevenir el desarrollo de la adicción. / Drug addiction is a chronically relapsing disorder that is defined by a compulsion to take the drug intake, a loss of control in limiting intake and a withdrawal-negative affect state when the access to the drug is interrupted. Mesolimbic dopaminergic system has been proposed as a fundamental neurobiological substrate for drug addiction. However, there is evidence for other neurotransmitter systems involved in the consolidation of the addictive process. The endocannabinoid system, through the activation of CB1 receptor, participates in the addictive properties of different drugs of abuse such as delta9-tetrahydrocannabinol, morphine and nicotine. Nevertheless, few studies have revealed an important implication of CB1 receptor in the reinforcing properties of psychostimulants. By using CB1 knockout mice, we have demonstrated that CB1 receptor participates in the reinforcing efficacy of cocaine. Moreover, this receptor is necessary for the consolidation processes involved in cocaine maintained intravenous self-administration. Therefore, this study reveals an essential role of CB1 receptor in cocaine addictive properties, confirming that the endocannabinoid system is a common substrate of addiction to drugs of abuse.On the other hand, the purinergic system modulates different neurotransmitter systems in the CNS. Adenosine receptors are closely related to dopaminergic receptors at both cellular and functional levels, suggesting that purinergic system could modulate the reward systems. By using different animal models, we have demonstrated that A2A adenosine receptors are necessary for the development of the addictive properties of drugs of abuse such as opioids, cannabinoids, nicotine and cocaine. Our studies suggest that both cannabinoid and purinergic systems could represent new and common modulatory systems of addictive processes. Thus, it would be of interest to develop new therapeutic targets blocking CB1 and A2A receptors to attenuate the development of addiction.

withdrawal syndrome

dependence

reinforcement

interaction

reward

mice

knockout

adenosine

A2A receptor

purinergic system

CB1 receptor

dopamina

cannabinoid system

adicción

comportamiento

abstinencia

refuerzo

dependencia

knockout

interacción

ratón

adenosina

receptor A2A

sistema purinérgico

receptor CB1

sistema cannabinoide

behaviour

addiction

dopamine

575

616.8

Hormetic dietary phytochemicals from Western Canadian plants: Identification, characterization and mechanistic insights

2013 June 1900

Activation of mammalian stress responsive pathways by plant secondary metabolites may contribute to the protection against certain chronic diseases afforded by fruit and vegetable consumption. This work focuses on the identification of plant compounds that activate the stress-responsive enzyme quinone reductase (QR) by stabilizing the transcription factor NF-E2 related factor-2 (Nrf2). Screening methanolic extracts of plants from Western Canada for QR induction in a mouse hepatoma cell line (Hepa-1c1c7) led to the identification of twenty-one extracts capable of doubling the activity of QR. Bioassay-guided fractionation of six extracts led to the identification of novel classes of compounds with QR-inducing activity including fatty-acid derived polyacetylenes, phthalides, and cannabinoids. Studies using low molecular weight thiols and the recombinantly expressed protein Keap1, the principal negative regulator of Nrf2, supported a mechanism of QR activation involving covalent modification of Keap1 cysteines for the polyacetylenes and phthalides. Analysis of transcriptional changes in response to treatment with a panel of QR-inducing compounds provided strong support for Nrf2 activation by the polyacetylene (3S,8S)-falcarindiol and the isothiocyanate (R)-sulforaphane and weaker support for the compounds (3R,8S)-falcarindiol, 6-isovaleryl-umbelliferone (6-IVU) and (Z)-ligustilide. Additionally, transcript level analyses supported a role for the aryl-hydrocarbon receptor in QR-activation by (3R,8S)-falcarindiol, (Z)-ligustilide, (R)-sulforaphane, 6-IVU and cannabidiol and suggested that treatment with polyacetylenes with a (3R)-configuration, (Z)-ligustilide and 6-IVU causes substantial changes in the expression of genes associated with lipid homeostasis and energy metabolism. As a whole, this work provides evidence that compounds that activate QR (and Nrf2) are widely distributed in the Canadian flora. However, of these QR activators, few are active at concentrations that are expected to be achieved through dietary consumption. Nevertheless, the most exceptional compounds isolated in this work, the compounds (3S,8S)-falcarindiol and epoxyfalcarindiol are highly potent and appear to be or are expected to be specific for activating Nrf2 and thus warrant attention with respect to dietary implications and as drug candidate leads.

Phytochemistry

Nrf2

Keap1

Canadian plants

disease prevention

xenobiotic metabolism

redox stress

indirect antioxidant

hormesis

stress response

quinone reductase

polyacetylene

phthalide

cannabinoid

hepa-1c1c7

bioassay-guided fractionation

RNA-seq

mass spectrometry

circular dichroism

NMR

liquid chromatography

Impacts des cannabinoïdes sur la vision: étude anatomique et fonctionnelle

Cécyre, Bruno

09 1900

Le système endocannabinoïde (eCB) est une cible thérapeutique intéressante pour traiter diverses conditions variées, allant de la modulation du système immunitaire à la prise en charge de la douleur neuropathique. De plus, le système eCB est impliqué dans les processus développementaux comme l’indique une exposition aux cannabinoïdes au cours du développement qui provoque des troubles neurofonctionnels. En raison de leur nature lipophile, les eCBs ne sont pas emmagasinés, mais sont plutôt synthétisés et dégradés sur demande par des enzymes. Ainsi, l’étude du patron d’expression de ces enzymes permettrait de mieux comprendre l’expression et ainsi le rôle joué par les eCBs pendant la formation du système nerveux central. Le récepteur CB1 est grandement distribué dans le système nerveux, alors que le récepteur CB2 est traditionnellement associé au système immunitaire. La découverte récente de l’expression et de l’impact fonctionnel du récepteur CB2 dans certains neurones, notamment au niveau rétinien, modifie la vision traditionnelle des rôles des eCBs. Notamment, une étude de notre laboratoire a montré que la délétion du récepteur CB2 chez des souris transgéniques (cnr2-/-) provoque une augmentation de l’amplitude de l’onde a en électrorétinographie, celle-ci reflétant l’activité des photorécepteurs rétiniens. Cette étude a mis en évidence l’importance du récepteur CB2 dans la vision, du moins au niveau rétinien. Jusqu’à ce jour, aucune étude ne s’est intéressée à l’impact des cannabinoïdes sur l’acuité visuelle. Nous avons caractérisé la distribution rétinienne des enzymes diacylglycérol lipase alpha (DAGLα) et monoacylglycérol lipase (MAGL), responsables respectivement de la synthèse et de la dégradation du ligand eCB 2-arachidonoyl glycérol (2-AG), pendant le développement postnatal. L’enzyme DAGLα est présente dès la naissance et est grandement distribuée dans la rétine, notamment dans les photorécepteurs, les cellules horizontales, amacrines et ganglionnaires. L’enzyme MAGL apparait plus tardivement et est limitée aux cellules amacrines et de Müller. Nos résultats fonctionnels indiquent que l’acuité visuelle des animaux cnr2-/- est plus élevée autant chez les adultes que pendant le développement postnatal. L’administration répétée d’un agoniste inverse du récepteur CB2 produit une augmentation de l’acuité visuelle similaire à la délétion du récepteur CB2 par génie génétique et inversement, l’administration d’un agoniste du récepteur CB2 diminue l’acuité visuelle. Enfin, l’administration d’un inhibiteur de l’enzyme MAGL, responsable de la dégradation du 2-AG, induit une diminution de l’acuité visuelle similaire à celle obtenue par un agoniste du récepteur CB2 tandis que l’administration d’un inhibiteur de l’enzyme DAGL, responsable de la synthèse du 2-AG, provoque une augmentation de l’acuité visuelle. Ces résultats suggèrent que le 2-AG est fortement présent tôt lors du développement rétinien et qu’il pourrait être impliqué dans la maturation structurelle et fonctionnelle de la rétine. De plus, les expériences fonctionnelles ont démontré que les cannabinoïdes affectent non seulement la réponse rétinienne, mais aussi l’acuité visuelle de manière significative. En outre, ces résultats confirment que les cannabinoïdes induisent leurs effets sur la vision exclusivement par le récepteur CB2. Enfin, les résultats de cette thèse accroissent les connaissances actuelles dans un contexte de légalisation grandissante du cannabis à des fins récréatives, puisqu’ils mettent en évidence l’importance des impacts sur l’acuité visuelle. / The endocannabinoid (eCB) system is a great therapeutic target for the treatment of many diseases, ranging from immune system modulation to pain management. This system is implicated in developmental processes as indicated by neurofunctional afflictions following developmental exposition to cannabinoids. Since eCBs are lipophilic, they are not stored in vesicles but rather synthesized and degraded on demand by specific enzymes. Thus, the expression pattern of these enzymes could help to better understand the expression of eCBs, and their role during central nervous system maturation. The CB1 receptor is strongly distributed in the nervous system, while the CB2 receptor is traditionally associated with the immune system. The recent finding of the CB2 receptor expression and function in some neurons, especially in the retina, changes the dogma associated with cannabinoids. A study from our laboratory found that deletion of the CB2 receptor in transgenic mice (cnr2-/-) enhances the a-wave amplitude in electroretinography, this wave reflecting photoreceptor activity. This report highlighted the importance of the CB2 receptor in vision, at least in the retina. Until now, no study aimed at the impact of cannabinoids on visual acuity. We characterized the retinal distribution of diacylglycerol lipase alpha (DAGLα) and monoacylglycerol lipase (MAGL) enzymes, responsible for the synthesis and degradation of the eCB ligand 2-arachidonoyl glycerol (2-AG) during postnatal development. The enzyme DAGLα is expressed since birth and is greatly distributed across the retina such as in photoreceptors, horizontal, amacrine and ganglion cells. The enzyme MAGL is expressed later during development and is present only in amacrine and Müller cells. Our functional results show that the visual acuity of cnr2-/- mice is enhanced in adults and during postnatal development. The repeated administration of a CB2 receptor antagonist yielded a better visual acuity, and inversely a CB2 receptor agonist decreased the visual acuity. Furthermore, the administration of a MAGL inhibitor, the enzyme in charge of 2-AG degradation, induced a strong decrease in visual acuity, similar to that obtained with a CB2 receptor agonist. Inversely, a DAGL inhibitor, the enzyme responsible for 2-AG synthesis, caused an increase in visual acuity. These results suggest that 2-AG is strongly expressed early during retinal development and could be implicated in structural and functional maturation of the retina. Furthermore, we demonstrated that cannabinoids do not only affect retinal function, but also visual acuity. These results confirm that cannabinoids modulate their visual effects exclusively via the CB2 receptor. Finally, in recent years, many countries legalized cannabis for recreational and therapeutic use. The findings from this thesis increase the understanding of cannabinoids since they highlight the great impact of cannabinoids on the visual acuity.

Acuité visuelle

Électrorétinographie

DAGL

Immunohistochimie

MAGL

Microscopie confocale

Récepteurs cannabinoïdes

Réflexe optomoteur

Rétine

Cannabinoid receptors

Confocal microscopy

Electroretinography

Immunohistochemistry

Optomotor reflex

Retina

Visual acuity