Endocannabinoids via CB<sub>1</sub>receptors act as neurogenic niche cues during cortical development

Díaz-Alonso, Javier; Guzmán, Manuel; Galve‐Roperh, Ismael

doi:10.1098/rstb.2011.0385

Cited by 84 publications

(69 citation statements)

References 116 publications

(216 reference statements)

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“…These results reflect that disruption of chronic morphine treatment might be associated with a progressive waning of structural plasticity established in the NAc during morphine treatment. Similar results have also been described in dendrites of MSN of the NAc after prolonged withdrawal from a chronic cocaine treatment (Dumitriu et al, 2012). In contrast, disruption of chronic morphine treatment was associated with an increase in dendritic spine density, mainly thin spines, in the mPFC in both WT and CB1-R KO mice.…”

Section: Discussionsupporting

confidence: 84%

Morphine-induced locomotor sensitization produces structural plasticity in the mesocorticolimbic system dependent on CB1-R activity

et al. 2015

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Section: Discussionsupporting

confidence: 84%

Morphine-induced locomotor sensitization produces structural plasticity in the mesocorticolimbic system dependent on CB1-R activity

et al. 2015

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“…In agreement, early developmental exposure of chicken embryos to a THC analog (27) and genetic manipulation of the CB 1 R-interacting protein CRIP1 (28) have been shown to disrupt the appropriate balance of transcription factors that intrinsically drive neuronal development. Thus, CB 1 R signaling refines the molecular, laminar, and hodological identity of projection neurons in the pre-and postnatal cerebral cortex (5,6). The present findings support that THC can act as a functional suppressor of CB 1 R signaling, as restricted exposure to THC interferes with developmental CB 1 R function in a transient but functionally impacting manner.…”

Section: Discussionsupporting

confidence: 75%

“…The CB 1 R plays a pivotal neurodevelopmental role by transducing information from the endocannabinoid ligands present in the neurogenic niche into the coordination of the intrinsic developmental program of developing neurons (6,26). In agreement, early developmental exposure of chicken embryos to a THC analog (27) and genetic manipulation of the CB 1 R-interacting protein CRIP1 (28) have been shown to disrupt the appropriate balance of transcription factors that intrinsically drive neuronal development.…”

Section: Discussionmentioning

confidence: 96%

Prenatal exposure to cannabinoids evokes long-lasting functional alterations by targeting CB ₁ receptors on developing cortical neurons

Salas-Quiroga

Díaz-Alonso

García-Rincón

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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The CB 1 cannabinoid receptor, the main target of Δ 9 -tetrahydrocannabinol (THC), the most prominent psychoactive compound of marijuana, plays a crucial regulatory role in brain development as evidenced by the neurodevelopmental consequences of its manipulation in animal models. Likewise, recreational cannabis use during pregnancy affects brain structure and function of the progeny. However, the precise neurobiological substrates underlying the consequences of prenatal THC exposure remain unknown. As CB 1 signaling is known to modulate long-range corticofugal connectivity, we analyzed the impact of THC exposure on cortical projection neuron development. THC administration to pregnant mice in a restricted time window interfered with subcerebral projection neuron generation, thereby altering corticospinal connectivity, and produced long-lasting alterations in the fine motor performance of the adult offspring. Consequences of THC exposure were reminiscent of those elicited by CB 1 receptor genetic ablation, and CB 1 -null mice were resistant to THC-induced alterations. The identity of embryonic THC neuronal targets was determined by a Cre-mediated, lineage-specific, CB 1 expression-rescue strategy in a CB 1 -null background. Early and selective CB 1 reexpression in dorsal telencephalic glutamatergic neurons but not forebrain GABAergic neurons rescued the deficits in corticospinal motor neuron development of CB 1 -null mice and restored susceptibility to THC-induced motor alterations. In addition, THC administration induced an increase in seizure susceptibility that was mediated by its interference with CB 1 -dependent regulation of both glutamatergic and GABAergic neuron development. These findings demonstrate that prenatal exposure to THC has long-lasting deleterious consequences in the adult offspring solely mediated by its ability to disrupt the neurodevelopmental role of CB 1 signaling.R ecreational cannabis consumption during pregnancy can exert deleterious consequences in the progeny, including anxiety, depression, psychosis risk, and cognitive and social impairments (1, 2). In the last two decades, important advances in our understanding of the endocannabinoid system have paved the way to elucidate the particular neurobiological substrates responsible for some cannabinoid-induced neurological alterations in adult animals and humans (3). The currently accepted scenario is that the CB 1 cannabinoid receptor (CB 1 R), the main target of marijuana-derived cannabinoids, is located presynaptically and, upon engagement by endocannabinoids [2-arachidonoylglycerol (2-AG) and anandamide], can act as a key neuromodulatory and plasticity-tuning signaling platform at many different mature synapses (4). In fact, CB 1 R constitutes one of the most abundant and functionally relevant G proteincoupled receptors in several regions of the adult mammalian brain (3, 4).Manipulation of CB 1 R function in animal models, either directly or indirectly, by modulating 2-AG or anandamide levels through the main endocannabinoid-synthesi...

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“…Although prenatal exposure is associated with negative effects on fetal brain development in humans [2,3,4,5,6,7,8,9], cannabis use is self-reported by over 25% of pregnant women [10]. The major psychoactive ingredient in cannabis is Δ9-tetrahydrocannabinol (THC), which acts primarily via the G-protein coupled cannabinoid receptor 1 (CB1R) [11], signaling via the activation of ERK kinases and/or the inhibition of adenyl cyclase (reviewed in [12,13]). …”

Section: Introductionmentioning

confidence: 99%

THC Treatment Alters Glutamate Receptor Gene Expression in Human Stem Cell-Derived Neurons

et al. 2017

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Given the cognitive and behavioral effects following in utero Δ9-tetrahydrocannabinol (THC) exposure that have been reported in humans and rodents, it is critical to understand the precise consequences of THC on developing human neurons. Here, we utilize excitatory neurons derived from human-induced pluripotent stem cells (hiPSCs), and report that in vitro THC exposure reduced expression of glutamate receptor subunit genes (GRIA1, GRIA2, GRIN2A, and GRIN2B). By expanding these studies across hiPSC-derived neurons from individuals with a variety of genotypes, we believe that a hiPSC-based model will facilitate studies of the interaction of THC exposure and the genetic risk factors underlying neuropsychiatric disease vulnerability.

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Endocannabinoids via CB₁receptors act as neurogenic niche cues during cortical development

Cited by 84 publications

References 116 publications

Morphine-induced locomotor sensitization produces structural plasticity in the mesocorticolimbic system dependent on CB1-R activity

Morphine-induced locomotor sensitization produces structural plasticity in the mesocorticolimbic system dependent on CB1-R activity

Prenatal exposure to cannabinoids evokes long-lasting functional alterations by targeting CB ₁ receptors on developing cortical neurons

THC Treatment Alters Glutamate Receptor Gene Expression in Human Stem Cell-Derived Neurons

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Endocannabinoids via CB1receptors act as neurogenic niche cues during cortical development

Cited by 84 publications

References 116 publications

Morphine-induced locomotor sensitization produces structural plasticity in the mesocorticolimbic system dependent on CB1-R activity

Morphine-induced locomotor sensitization produces structural plasticity in the mesocorticolimbic system dependent on CB1-R activity

Prenatal exposure to cannabinoids evokes long-lasting functional alterations by targeting CB 1 receptors on developing cortical neurons

THC Treatment Alters Glutamate Receptor Gene Expression in Human Stem Cell-Derived Neurons

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Endocannabinoids via CB₁receptors act as neurogenic niche cues during cortical development

Prenatal exposure to cannabinoids evokes long-lasting functional alterations by targeting CB ₁ receptors on developing cortical neurons