Synthetic cannabinoids and their impact on neurodevelopmental processes

Alexandre, João; Carmo, Helena; Carvalho, Félix; Silva, João Pedro

doi:10.1111/adb.12824

Cited by 34 publications

(28 citation statements)

References 63 publications

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“…Similar to our findings, such results were reversed by cells' co-treatment with AM251, an inverse CB1R agonist. However, data on the impact of SCs on neuronal differentiation have been contradictory, usually depending on several distinct factors, including the cell model used, tested SC and respective concentrations, or frequency of administration [9], suggesting that the role of SCs on neuronal differentiation may be likely related to the activation of different mechanisms. In fact, others have reported that CB1R activation by the non-selective CBR agonist WIN 55,212-2 inhibited new synapse formation in rat hippocampal neurons by preventing the formation of cyclic adenosine monophosphate (cAMP) [10].…”

Section: Discussionmentioning

confidence: 99%

“…Nevertheless, the effects of both tested SCs on neuronal differentiation depended on the activation of CB1R, suggesting that each of the SCs may induce a different response from these receptors, which requires further clarification. In fact, the involvement of CB1R in the activation of distinct signaling cascades, including the inhibition of the adenylyl cyclase (AC)-cyclic AMP-protein kinase A (PKA) pathway, activation of mitogen-activated protein kinase (MAPK) cascades, or the regulation of ion flux via inhibition of voltage-sensitive Ca2+ channels (VSCC) has already been described [9]. Moreover, it has been reported that an agonist binding to a given G protein-coupled receptor, as is the case of CBRs, can stabilize distinct receptor conformations and subsequently activate different signaling cascades that may favor one signaling pathway over the other.…”

Section: Discussionmentioning

confidence: 99%

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The Synthetic Cannabinoids THJ-2201 and 5F-PB22 Enhance In Vitro CB1 Receptor-Mediated Neuronal Differentiation at Biologically Relevant Concentrations

Alexandre

Malheiro

Silva

et al. 2020

IJMS

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Recreational use of synthetic cannabinoids (SCs) before and during pregnancy poses a major public health risk, due to the potential onset of neurodevelopmental disorders in the offspring. Herein, we report the assessment of the neurotoxic potential of two commonly abused SCs, THJ-2201 and 5F-PB22, particularly focusing on how they affect neuronal differentiation in vitro. Differentiation ratios, total neurite length, and neuronal marker expression were assessed in NG108-15 neuroblastoma x glioma cells exposed to the SCs at non-toxic, biologically relevant concentrations (≤1 μM), either in acute or repeated exposure settings. Both SCs enhanced differentiation ratios and total neurite length of NG108-15 cells near two-fold compared to vehicle-treated cells, in a CB1R activation-dependent way, as the CB1R blockade with a specific antagonist (SR141718) abrogated SC-induced effects. Interestingly, repeated 5F-PB22 exposure was required to reach effects similar to a single THJ-2201 dose. Cell viability and proliferation, mitochondrial membrane potential, and intracellular ATP levels were also determined. The tested SCs increased mitochondrial tetramethyl rhodamine ethyl ester (TMRE) accumulation after 24 h at biologically relevant concentrations but did not affect any of the other toxicological parameters. Overall, we report firsthand the CB1R-mediated enhancement of neurodifferentiation by 5F-PB22 and THJ-2201 at biologically relevant concentrations.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

The Synthetic Cannabinoids THJ-2201 and 5F-PB22 Enhance In Vitro CB1 Receptor-Mediated Neuronal Differentiation at Biologically Relevant Concentrations

Alexandre

Malheiro

Silva

et al. 2020

IJMS

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“…They can lead to severe intoxication and death, disrupt neurodevelopmental processes, induce psychotic behavior, and lead to a rapid onset of CUD. [51][52][53] Cannabis products and synthetic cannabinoids interact with the reward system and lead to CUD through this interaction. As outlined in the previous chapter, we have a good understanding of the molecular interactions of cannabinoids with the reward system and can therefore provide mechanism-based interventions for CUD.…”

Section: Original Articlementioning

confidence: 99%

Cannabinoids and the endocannabinoid system in reward processing and addiction: from mechanisms to interventions

Spanagel

2020

Dialogues in Clinical Neuroscience

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The last decades have seen a major gain in understanding the action of cannabinoids and the endocannabinoid system in reward processing and the development of addictive behavior. Cannabis-derived psychoactive compounds such as Δ9-tetrahydrocannabinol and synthetic cannabinoids directly interact with the reward system and thereby have addictive properties. Cannabinoids induce their reinforcing properties by an increase in tonic dopamine levels through a cannabinoid type 1 (CB1 ) receptor–dependent mechanism within the ventral tegmental area. Cues that are conditioned to cannabis smoking can induce drug-seeking responses (ie, craving) by eliciting phasic dopamine events. A dopamine-independent mechanism involved in drug-seeking responses involves an endocannabinoid/glutamate interaction within the corticostriatal part of the reward system. In conclusion, pharmacological blockade of endocannabinoid signaling should lead to a reduction in drug craving and subsequently should reduce relapse behavior in addicted individuals. Indeed, there is increasing preclinical evidence that targeting the endocannabinoid system reduces craving and relapse, and allosteric modulators at CB1 receptors and fatty acid amide hydrolase inhibitors are in clinical development for cannabis use disorder. Cannabidiol, which mainly acts on CB1 and CB2 receptors, is currently being tested in patients with alcohol use disorder and opioid use disorder.

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“…In addition to these, there are two other types: the endocannabinoids (naturally produced by the body) and the synthetic cannabinoids (eliciting cannabis effects, generally with a higher potency than endocannabinoids) [16]. The most important psychoactive phytocannabinoid is the delta-9-tetrahydrocannabinol (delta9THC), a partial agonist of the endocannabinoids receptors CBr1 and CBr2, the ativation of which generates central and peripheral effects [17][18][19][20][21]. The concentration of delta9THC varies in the diferent strains of cannabis (6% to 20%), and due to its physicochemical properties (small molecular size and lipophilic nature) has high distribution and transport capacity in the human body, quickly crossing the transplacental membranes [2,[22][23][24].…”

Section: Cannabis Cannabinoids and Endocannabinoid Systemmentioning

confidence: 99%

“…The effects of delta9THC are due to its action on cannabinoid receptors CBr1 and CBr2 -widely distributed throughout various organs and tissues that, together with endogenously produced cannabionids and the regulatory enzymes of synthesis and degradation, constitute the endocannabinoid system (ECS) [19,27]. The ECS is a neuromodulatory system, detected from the earliest embryonic stage and throughout preand postnal development, responsible for several controls related to the regulation of many important function, since its receptors has been found to play a key role in neuronal progenitor cell proliferation, pyramidal specification, axon pattering modulation of dendritic arbor, and promotion of neuronal differentiation [5,20,28,29]. Also, the ECS influences metabolism and physiology of multiple systems with its anabolic action, leading to protein and glycogen synthesis and fat deposition [30].…”

Section: Cannabis Cannabinoids and Endocannabinoid Systemmentioning

confidence: 99%

Cannabis “in utero”: the fetus as a compulsive consumer

Ciampo

2019

ijmsci

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Cannabis sativa, a plant known for millennia for its hallucinogenic and medicinal effects, contains widely consumed psychoactive substances worldwide, with increasing numbers among adolescents and adults, including pregnant women. Due to its potential adverse effects on users, it is of fundamental importance to know and disseminate the harm caused to humans in order to reduce the consumption of this drug. This article presents a review of the physiological and pharmacological characteristics of psychoactive substances present in cannabis, their actions on the endocannabinoid system and the placenta. It also highlights the main clinical repercussions that can occur with the fetus and, in the long run, with children whose mothers used cannabis during pregnancy.

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Synthetic cannabinoids and their impact on neurodevelopmental processes

Cited by 34 publications

References 63 publications

The Synthetic Cannabinoids THJ-2201 and 5F-PB22 Enhance In Vitro CB1 Receptor-Mediated Neuronal Differentiation at Biologically Relevant Concentrations

The Synthetic Cannabinoids THJ-2201 and 5F-PB22 Enhance In Vitro CB1 Receptor-Mediated Neuronal Differentiation at Biologically Relevant Concentrations

Cannabinoids and the endocannabinoid system in reward processing and addiction: from mechanisms to interventions

Cannabis “in utero”: the fetus as a compulsive consumer

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