Cannabinoids delivery systems based on supramolecular inclusion complexes and polymeric nanocapsules for treatment of neuropathic pain

Astruc-Diaz, Fanny

09 July 2012

Cannabinoids (CBs) and particularly CB2 agonists have been shown to reduce pain andinflammation without eliciting any apparent psychotropic effect conversely to CB1agonist compounds. CBs candidates are usually lipophilic non drug-like compoundswith poor bioavailability. To serve the purpose of evaluating new synthetic CB2 agonistsdeveloped by our group, on in vivo neuropathic pain models, an enabling formulationstrategy has been set up and four Drug Delivery Systems (DDS) developed. Forparenteral administration, cyclodextrin (CD)-based inclusion complexes, liposomes andsurfactants/co-solvents micellar solution have been investigated whereas Self-Emulsifying DDS (SEDDS) was selected for oral administration. A pharmacologicalstudy conducted with lead compound MDA7, formulated in CD-based DDS resulted inthe higher antinociceptive activity. A comprehensive study of the inclusion mechanismof MDA7 in the CD supramolecular complexes prepared was carried out. MDA7pharmacokinetic profile was also generated formulated in micellar solution and SEDDS.Besides, cationic polymeric nanocapsules (NCs) have been designed to serve as aprotective DDS for oral administration of a dietary phytocannabinoid CB2 agonist.Studies were undertaken to characterize and evaluate the influence of differentparameters on NCs formation prepared by nanoprecipitation. The cationic NCsdeveloped have been explored for their property to yield proportion of counterioniccondensation in the presence of macrocycles bearing anionic groups such assulfobutylether-beta-cyclodextrin or to form electrostatic interactions/host-guestcomplexion with cucurbit[n]uril.

Cannabinoids

CB2 agonists receptors

Cyclodextrin

Cationic polymeric nanocapsules

Phytocannabinoid

Targeting the Endocannabinoid System to Reduce Inflammatory Pain

Ghosh, Sudeshna

01 January 2012

The endogenous cannabinoids (endocannabinoids) anandamide (AEA) and 2-arachidonylglycerol (2-AG) exert their effects predominantly through cannabinoid CB1 and CB2 receptors, but these actions are short-lived because of rapid hydrolysis by fatty acid amide hydrolase (FAAH) and monoacylglycerol lipase (MAGL), respectively. Selective inhibition of either enzyme elevates CNS levels of the appropriate endocannabinoid and produces analgesic effects with fewer psychomimetic side effects than Δ9-tetrahydrocannabinol (THC), the primary active constituent of marijuana. While cannabinoid receptor agonists and FAAH inhibitors reliably produce anti-inflammatory and anti-hyperalgesic effects in the carrageenan test and other inflammatory pain models, much less is known about the consequences of inhibiting MAGL in these assays. Here, we tested whether the selective MAGL inhibitor JZL184 would reduce nociceptive behavior in the carrageenan test. JZL184 significantly attenuated carrageenan-induced paw edema and mechanical allodynia, whether administered before or after carrageenan. Complementary genetic and pharmacological approaches revealed that JZL184’s anti-allodynic effects required both CB1 and CB2 receptors, but only CB2 receptors mediated its anti-edematous actions. Importantly, the anti-edematous and anti-allodynic effects of JZL184 underwent tolerance following repeated injections of high dose JZL184 (16 or 40 mg/kg), but repeated administration of low dose JZL184 (4 mg/kg) retained efficacy. Interestingly, the anti-allodynic effects of the combination of low dose of JZL184 (4mg/kg) and high dose of the selective and long-acting FAAH inhibitor PF-3845 (10 mg/kg) was augmented compared with each drug alone. On the contrary, the combination treatment did not reduce edema more than either JZL184 or PR-3845 given alone. These results suggest that low doses of MAGL inhibitors alone or in combination with FAAH inhibitors, reduce inflammatory nociception through the activation of both CB1 and CB2 receptors with no evidence of tolerance following repeated administration.

Carrageenan

Pain

Allodynia

Inflammation

2-arachidonylglycerol (2-AG)

Monoacylglycerol lipase (MAGL)

endogenous cannabinoid

anandamide

CB1 receptor

CB2 receptor.

Medical Pharmacology

Medical Sciences

Medicine and Health Sciences

Cannabinoids induce immunoglobulin class switching to IgE in B lymphocytes

Agudelo, Marisela.

January 2009

Dissertation (Ph.D.)--University of South Florida, 2009. / Title from PDF of title page. Document formatted into pages; contains 92 pages. Includes vita. Includes bibliographical references.

Implication du récepteur aux cannabinoïdes CB2 dans le développement de la voie rétinothalamique

Duff, Gabriel

08 1900

Durant le développement du système visuel, les cellules ganglionnaires de la rétine (CGRs) envoient des axones qui seront influencés par divers signaux guidant leur cône de croissance, permettant ainsi la navigation des axones vers leurs cibles terminales. Les endocannabinoïdes, des dérivés lipidiques activant les récepteurs aux cannabinoides (CB1 et CB2), sont présents de manière importante au cours du développement. Nous avons démontré que le récepteur CB2 est exprimé à différents points du tractus visuel durant le développement du hamster. L’injection d’agonistes et d’agonistes inverses pour le récepteur CB2 a modifié l’aire du cône de croissance et le nombre de filopodes présents à sa surface. De plus, l’injection d’un gradient d’agoniste du récepteur CB2 produit la répulsion du cône de croissance tandis qu’un analogue de l’AMPc (db-AMPc) produit son attraction. Les effets du récepteur CB2 sur le cône de croissance sont produits en modulant l’activité de la protéine kinase A(PKA), influençant la présence à la membrane cellulaire d’un récepteur à la nétrine-1 nommé Deleted in Colorectal Cancer (DCC). Notamment, pour que le récepteur CB2 puisse moduler le guidage du cône de croissance, la présence fonctionnelle du récepteur DCC est essentielle.. Suite à une injection intra-occulaire d’un agoniste inverse du récepteur CB2, nous avons remarqué une augmentation de la longueur des branches collatérales des axones rétiniens au niveau du LTN (noyau lateral terminal). Nous avons également remarqué une diminution de la ségrégation des projections ganglionnaires au niveau du dLGN, le noyau genouillé lateral dorsal, chez les animaux transgéniques cnr2-/-, ayant le gène codant pour le récepteur CB2 inactif. Nos données suggèrent l’implication des endocannabinoïdes et de leur récepteur CB2 dans la modulation des processus de navigation axonale et de ségrégation lors du développement du système visuel. / Retinal projection navigation towards their visual targets is regulated by guidance molecules and growth cone transduction mechanisms. Here, we show that cannabinoid receptor 2 (CB2R) is widely expressed throughout the visual pathway during development and in cultured retinal ganglion cells (RGCs) and cortical neurons. Both the number of filopodia and the surface area of the growth cone (GC) are modulated by CB2R activity in a PKA-dependant manner. Furthermore, DCC is required for CB2R induced morphological changes of the GC. CB2R agonists induce GC chemorepulsion. Treatments altering CB2R activity change retinal explants projections length. These effects are specific to CB2R as no changes were observed in cnr2 knockout mouse. A single intraocular injection of AM630 increases retinal projection branch length and aberrant projections were also observed. Moreover, we report defect in eye-specific segregation of retinal projections in the dLGN in cnr2-/- mice. These findings highlight the modulatory role of endocannabinoids and their CB2R during axon guidance.

Cône de croissance

Guidage axonal

DCC

AMPc

Ségrégation

Endocannabinoïde

Système visuel

CB2

Growth cone

CB2R

Axonal guidance

Development

Endocannabinoid

Visual system

Segregation

Implication du récepteur aux cannabinoïdes CB2 dans le développement de la voie rétinothalamique

Duff, Gabriel

08 1900

Durant le développement du système visuel, les cellules ganglionnaires de la rétine (CGRs) envoient des axones qui seront influencés par divers signaux guidant leur cône de croissance, permettant ainsi la navigation des axones vers leurs cibles terminales. Les endocannabinoïdes, des dérivés lipidiques activant les récepteurs aux cannabinoides (CB1 et CB2), sont présents de manière importante au cours du développement. Nous avons démontré que le récepteur CB2 est exprimé à différents points du tractus visuel durant le développement du hamster. L’injection d’agonistes et d’agonistes inverses pour le récepteur CB2 a modifié l’aire du cône de croissance et le nombre de filopodes présents à sa surface. De plus, l’injection d’un gradient d’agoniste du récepteur CB2 produit la répulsion du cône de croissance tandis qu’un analogue de l’AMPc (db-AMPc) produit son attraction. Les effets du récepteur CB2 sur le cône de croissance sont produits en modulant l’activité de la protéine kinase A(PKA), influençant la présence à la membrane cellulaire d’un récepteur à la nétrine-1 nommé Deleted in Colorectal Cancer (DCC). Notamment, pour que le récepteur CB2 puisse moduler le guidage du cône de croissance, la présence fonctionnelle du récepteur DCC est essentielle.. Suite à une injection intra-occulaire d’un agoniste inverse du récepteur CB2, nous avons remarqué une augmentation de la longueur des branches collatérales des axones rétiniens au niveau du LTN (noyau lateral terminal). Nous avons également remarqué une diminution de la ségrégation des projections ganglionnaires au niveau du dLGN, le noyau genouillé lateral dorsal, chez les animaux transgéniques cnr2-/-, ayant le gène codant pour le récepteur CB2 inactif. Nos données suggèrent l’implication des endocannabinoïdes et de leur récepteur CB2 dans la modulation des processus de navigation axonale et de ségrégation lors du développement du système visuel. / Retinal projection navigation towards their visual targets is regulated by guidance molecules and growth cone transduction mechanisms. Here, we show that cannabinoid receptor 2 (CB2R) is widely expressed throughout the visual pathway during development and in cultured retinal ganglion cells (RGCs) and cortical neurons. Both the number of filopodia and the surface area of the growth cone (GC) are modulated by CB2R activity in a PKA-dependant manner. Furthermore, DCC is required for CB2R induced morphological changes of the GC. CB2R agonists induce GC chemorepulsion. Treatments altering CB2R activity change retinal explants projections length. These effects are specific to CB2R as no changes were observed in cnr2 knockout mouse. A single intraocular injection of AM630 increases retinal projection branch length and aberrant projections were also observed. Moreover, we report defect in eye-specific segregation of retinal projections in the dLGN in cnr2-/- mice. These findings highlight the modulatory role of endocannabinoids and their CB2R during axon guidance.

Cône de croissance

Guidage axonal

DCC

AMPc

Ségrégation

Endocannabinoïde

Système visuel

CB2

Growth cone

CB2R

Axonal guidance

Development

Endocannabinoid

Visual system

Segregation

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

Study of the interaction between 3,4 methylenedioximethamphetamine and the endocannabinoid system

Touriño Raposo, Clara

17 February 2009

La 3,4-metilendioximetamfetamina (MDMA, èxtasi) i el cannabis són dues drogues les quals es consumeixen conjuntament de manera habitual. Malgrat que tots dos compostos presenten propietats reforçant i potencial addictiu, també tenen propietats farmacològiques oposades. La MDMA es una droga psicoestimulant, la qual causa hiperlocomoció, hipertèrmia, resposted de tipus asiogènic i neurotoxicitat. Per altra banda el Δ9-tetrahydrocannabinol (THC), principal compost psicoactiu del cannabis, posseeix efectes relaxants, hipolocomotors, hipotèrmics i neuroprotectors. Els efectes de la MDMA i el THC al sistema nerviós central es troben mediats per dos mecanismes notablement diferents. La MDMA augmenta els nivells extracel·lulars de dopamina i serotonina, mentre que el THC produeix l'activació del receptor cannabinoide CB1. Cal destacar a més que les interaccions entre els sistemes monoaminèrgic i endocannabinoide s'observa de manera freqüent en l'organisme.En el present estudi hem explorat la implicació del sistema endocannabinoide i la MDMA en diversos aspectes. Per una banda el receptor cannabinoide CB1 juga un important paper en els efectes hiperlocomotors i hipertèrmics, i en les respostes de tipus ansiogènic produïdes per la MDMA. Curiosament, encara que el receptor CB1 no participa en els efectes recompensants primaris de la MDMA, és imprescindible per que tinguin lloc els seus efectes reforçants. Així mateix, l'alliberació de serotonina per part de la MDMA redueix de manera dosi-depenent la simptomatologia física causada pel síndrome d'abstinència a cannabinoides precipitada per un antagonista del receptor CB1. Finalment, el tractament amb THC era capaç de prevenir la hipertèrmia, activació glial, estrès oxidatiu i pèrdua de terminals causada per la MDMA. Com a conseqüència el THC exerceix un efecte neuroprotector contra la neurotoxicitat induïda per la MDMA. / 3,4-methylenedioximethamphetamine (MDMA, ecstasy) and cannabis are two drugs frequently consumed in combination. Despite both compounds have rewarding properties and abuse liability, they show opposite pharmacological properties. On the one hand, MDMA is a psychostimulant drug with hyperlocomotor, hyperthermic, anxiogenic-like and neurotoxic effects. On the other hand, Δ9-tetrahydrocannabinol (THC), the main psychoactive compound of cannabis, has relaxant, hypolocomotor, hypothermic and neuroprotective properties. The effects of MDMA and THC in the central nervous system are mediated by two different mechanisms. MDMA enhances the extracellular levels of dopamine and serotonin, whereas THC activates the CB1 cannabinoid receptor. Likewise, interactions between the monoaminergic and the endogenous cannabinoid system have been frequently observed.In the current study, we explored the involvement of CB1 cannabinoid receptor on the hyperlocomotor, hyperthermic, anxiogenic-like, rewarding and reinforcing effects of MDMA. We also studied the effect of acute and chronic administration of MDMA on rimonabant-precipitated THC withdrawal syndrome. Furthermore, we explored the neuroprotective effects of THC on MDMA-induced neurotoxicity.As a result of this study we may conclude that endocannabinoid system and MDMA interact in a wide variety of aspects. CB1 receptor plays an important role on the hyperlocomotor, hyperthermic, and anxiogenic-like effects of MDMA. Interestingly, CB1 receptor is essential for the reinforcing but not the primary rewarding properties of MDMA. In addition, the release of serotonin by MDMA dose-dependently reduced the severity of THC withdrawal syndrome triggered by a CB1 antagonist. Finally, pretreatment with THC prevented the hyperthermia, glial activation, oxidative stress and terminal loss caused by MDMA. Consequently, THC exerts a neuroprotective effect against MDMA-induced neurotoxicity.

tremolor

transportador de dopamina

tirosina hidroxilasa

THC

temperatura corporal

sintasa d'òxid nítric

síndrome d'abstinència

serotonina

rotarod

rimonabant

reforç

recompensa

receptor cannabinoide

Ptosis

proteïna glial fibrilar acídica

preferència de plaça condicionada

piloerecció

pèrdua de terminals

nucli accumbens

neuroprotecció

neurotoxicitat

microglia

microdialisis

MDMA

masticació

laberint en creu elevat

infusió

inflamació

immunohistoquímica

hipotèrmia

hipolocomoció

hipertèrmia

hiperlocomoció

glutamat

èxtasi

estriat

dopamina

diarrea

dependència

DAT

dany neuronal

coordinació motora

CD11b

CB2

CB1

autoadministració

atàxia

astròcits

anxiolític

anxiogènic

ansietat

activitat locomotora

abstinència

4-metilendioximetamfetamina

3

Δ9-tetrahydrocannabinol

western blot

Δ9-tetrahydrocannabinol

3

4-methylenedioximethamphetamine

abstinence

anxiety

anxiogenic

anxiolytic

astrocytes

ataxia

body temperature

615

616.8