Presynaptic cannabinoid CB2 receptors modulate [<sup>3</sup>H]‐Glutamate release at subthalamo‐nigral terminals of the rat

Sánchez‐Zavaleta, Rodolfo; Cortés, Hernán; Ávalos-Fuentes, José Arturo; Garcı́a, Ubaldo; Vila, Jose Victor Segovia; Erlij, David; Florán, Benjamí­n

doi:10.1002/syn.22061

Cited by 28 publications

(13 citation statements)

References 72 publications

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“…The expression of faint CB 2 receptor immunolabeling in neurons and its absence in SGCs of canine DRG, partially agrees with previous findings in laboratory rodents, where only very weak immunoflorescence was found in basal conditions (56). Although CB 2 receptor was considered lacking in neurons and glial cells, recent literature highlights its expression in these cell types (57, 58), even in humans (54) and dogs (11, 59). Similarly to CB 1 (28), CB 2 receptor is upregulated in a variety of PNS and CNS diseases and is suggested as a promising pharmacological target in the management of chronic pain and neuroinflammation (29–31, 56).…”

Section: Discussionmentioning

confidence: 99%

Cellular Distribution of Canonical and Putative Cannabinoid Receptors in Canine Cervical Dorsal Root Ganglia

et al. 2019

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Growing evidence indicates cannabinoid receptors as potential therapeutic targets for chronic pain. Consequently, there is an increasing interest in developing cannabinoid receptor agonists for treating human and veterinary pain. To better understand the actions of a drug, it is of paramount importance to know the cellular distribution of its specific receptor(s). The distribution of canonical and putative cannabinoid receptors in the peripheral and central nervous system of dogs is still in its infancy. In order to help fill this anatomical gap, the present ex vivo study has been designed to identify the cellular sites of cannabinoid and cannabinoid-related receptors in canine spinal ganglia. In particular, the cellular distribution of the cannabinoid receptors type 1 and 2 (CB1 and CB2) and putative cannabinoid receptors G protein-coupled receptor 55 (GPR55), nuclear peroxisome proliferator-activated receptor alpha (PPARα), and transient receptor potential vanilloid type 1 (TRPV1) have been immunohistochemically investigated in the C6–C8 cervical ganglia of dogs. About 50% of the neuronal population displayed weak to moderate CB1 receptor and TRPV1 immunoreactivity, while all of them were CB2-positive and nearly 40% also expressed GPR55 immunolabeling. Schwann cells, blood vessel smooth muscle cells, and pericyte-like cells all expressed CB2 receptor immunoreactivity, endothelial cell being also PPARα-positive. All the satellite glial cells (SGCs) displayed bright GPR55 receptor immunoreactivity. In half of the study dogs, SGCs were also PPARα-positive, and limited to older dogs displayed TRPV1 immunoreactivity. The present study may represent a morphological substrate to consider in order to develop therapeutic strategies against chronic pain.

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Section: Discussionmentioning

confidence: 99%

Cellular Distribution of Canonical and Putative Cannabinoid Receptors in Canine Cervical Dorsal Root Ganglia

et al. 2019

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“…Although there are no direct data supporting this later hypothesis, it is possible that there is differential localization of various presynaptic receptors on Vglut2+ terminals within the SNpc versus SNpr that could variably regulate the release of glutamate. It has been reported that there are various presynaptic receptors located on STN terminals, such as the cannabinoid (Sánchez‐Zavaleta et al., 2018) and GABA (Wu, Song, Faull, & Waldvogel, 2018), making it possible that these receptors are differentially distributed within various neurons of the STN.…”

Section: Discussionmentioning

confidence: 99%

Differential ultrastructural alterations in the Vglut2 glutamatergic input to the substantia nigra pars compacta/pars reticulata following nigrostriatal dopamine loss in a progressive mouse model of Parkinson’s disease

Moore

Bohlen

et al. 2020

Eur J of Neuroscience

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Loss of nigrostriatal dopamine (DA) in Parkinson's disease results in over-activation/bursting of the subthalamic nucleus (STN). The STN projects to the substantia nigra (SN) pars compacta (SNpc) and pars reticulata (SNpr). The vesicular glutamate transporter 2 (Vglut2) is localized within at least STN terminals synapsing within the SN, but it is not known if there are differential changes in the Vglut2+ input to the SNpc versus SNpr following DA loss. The goal/rationale of this current study was to determine whether there were differential changes in the density/levels of glutamate immuno-gold labeling within Vglut2+ nerve terminals synapsing in the SNpc/ SNpr and in the proportion of Vglut2+ terminals contacting tyrosine hydroxylase (TH) positively(+) or negatively(−) labeled dendrites following DA loss. Within the SNpc, there was a significant increase (51.3%) in the density of nerve terminal glutamate immuno-gold labeling within Vglut2+ terminals synapsing on TH(−) dendrites following MPTP versus the vehicle (VEH) group. There was a significant decrease (16%) in the percentage of Vglut2+ terminals contacting TH(+) labeled dendrites in the MPTP-versus VEH-treated group within the SNpc. Within the SNpr, there was a significant decrease in the density of glutamate immuno-gold labeling in Vglut2+ terminals contacting TH(+) (71.5%) and TH(−) (55.5%) labeled dendrites, suggesting an increase in glutamate release. There was no change in the percentage of Vglut2+ terminals contacting TH(+) or TH(−) dendrites in the SNpr. We conclude that there is a differential effect following DA loss on the glutamate input from Vglut2+ terminals synapsing within the SNpr versus SNpc.

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“…Their activation inhibits the activity of adenylate cyclase and stimulates the protein kinase activated by mitogenesis (MAPK) as well as phosphoinositide 3-kinase (PI3K). Both receptors are distributed in the presynapses of both excitatory and inhibitory neurons, inhibiting voltage-regulated Ca 2+ channels and inhibiting the vesicular release of neurotransmitters such as γ-aminobutyric acid (GABA) and glutamate [ 17 , 18 , 25 ]. This cannabinoid-mediated response is a retrograde inhibitory signaling system that plays an important role in maintaining homeostasis in the CNS [ 26 , 27 ].…”

Section: The Endocannabinoid System (Ecs)mentioning

confidence: 99%

“…This makes sense, as the neurogenic process has been described to be a tightly regulated process [ 65 , 66 ]; for that reason, a strong stimulus may be necessary to disrupt this regulation. Additionally, it should be noted that the ECS is strongly associated with the modulation of GABAergic and glutamatergic neurotransmission [ 17 , 18 , 25 ]. Therefore, these synaptic mechanisms may participate in the neurogenic effect reported for CB1/CB2 stimulation.…”

Section: Cannabinoid Effect On Neurogenesismentioning

confidence: 99%

Early Consumption of Cannabinoids: From Adult Neurogenesis to Behavior

Netzahualcoyotzi

Rodríguez-Serrano

Chávez-Hernández

et al. 2021

IJMS

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The endocannabinoid system (ECS) is a crucial modulatory system in which interest has been increasing, particularly regarding the regulation of behavior and neuroplasticity. The adolescent–young adulthood phase of development comprises a critical period in the maturation of the nervous system and the ECS. Neurogenesis occurs in discrete regions of the adult brain, and this process is linked to the modulation of some behaviors. Since marijuana (cannabis) is the most consumed illegal drug globally and the highest consumption rate is observed during adolescence, it is of particular importance to understand the effects of ECS modulation in these early stages of adulthood. Thus, in this article, we sought to summarize recent evidence demonstrating the role of the ECS and exogenous cannabinoid consumption in the adolescent–young adulthood period; elucidate the effects of exogenous cannabinoid consumption on adult neurogenesis; and describe some essential and adaptive behaviors, such as stress, anxiety, learning, and memory. The data summarized in this work highlight the relevance of maintaining balance in the endocannabinoid modulatory system in the early and adult stages of life. Any ECS disturbance may induce significant modifications in the genesis of new neurons and may consequently modify behavioral outcomes.

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Presynaptic cannabinoid CB2 receptors modulate [³H]‐Glutamate release at subthalamo‐nigral terminals of the rat

Cited by 28 publications

References 72 publications

Cellular Distribution of Canonical and Putative Cannabinoid Receptors in Canine Cervical Dorsal Root Ganglia

Cellular Distribution of Canonical and Putative Cannabinoid Receptors in Canine Cervical Dorsal Root Ganglia

Differential ultrastructural alterations in the Vglut2 glutamatergic input to the substantia nigra pars compacta/pars reticulata following nigrostriatal dopamine loss in a progressive mouse model of Parkinson’s disease

Early Consumption of Cannabinoids: From Adult Neurogenesis to Behavior

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Presynaptic cannabinoid CB2 receptors modulate [3H]‐Glutamate release at subthalamo‐nigral terminals of the rat

Cited by 28 publications

References 72 publications

Cellular Distribution of Canonical and Putative Cannabinoid Receptors in Canine Cervical Dorsal Root Ganglia

Cellular Distribution of Canonical and Putative Cannabinoid Receptors in Canine Cervical Dorsal Root Ganglia

Differential ultrastructural alterations in the Vglut2 glutamatergic input to the substantia nigra pars compacta/pars reticulata following nigrostriatal dopamine loss in a progressive mouse model of Parkinson’s disease

Early Consumption of Cannabinoids: From Adult Neurogenesis to Behavior

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Presynaptic cannabinoid CB2 receptors modulate [³H]‐Glutamate release at subthalamo‐nigral terminals of the rat