Adolescent Rats Find Repeated Δ9-THC Less Aversive Than Adult Rats but Display Greater Residual Cognitive Deficits and Changes in Hippocampal Protein Expression Following Exposure

Quinn, Heidi; Matsumoto, Izuru; Callaghan, Paul D.; Long, Leonora E.; Arnold, Jonathon C.; Gunasekaran, Nathan; Thompson, Murray R.; Dawson, Bronwyn; Mallet, Paul E.; Kashem, Mohammed A.; Matsuda-Matsumoto, Haruka; Iwazaki, Takeshi; McGregor, Iain S.

doi:10.1038/sj.npp.1301475

Cited by 272 publications

(269 citation statements)

References 77 publications

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“…Chronic adolescent, but not adult, cannabinoid-induced oscillation suppression suggests that attenuated network synchrony is not merely a consequence of repeated cannabinoid exposure, but reflects a unique sensitivity of the adolescent brain to modification by cannabinoids. Our data are consistent with findings that adolescent, but not adult, cannabinoid exposure produces lasting cognitive impairments in rodents (Schneider and Koch, 2003;O'Shea et al, 2004;Quinn et al, 2008) and humans (Solowij et al, 2002;Meier et al, 2012).…”

Section: Discussionsupporting

confidence: 81%

“…We also report impaired novel object recognition behavior in adolescent WIN-treated mice, which is consistent with previous reports of cognitive impairments after persistent adolescent cannabis exposure in both rodents (Schneider and Koch, 2003;O'Shea et al, 2004;Quinn et al, 2008) and humans (Solowij et al, 2002;Meier et al 2012).…”

Section: Discussionsupporting

confidence: 81%

“…Persistent marijuana use before adulthood may permanently impair cognitive functioning (Solowij et al, 2002;Meier et al, 2012) and confer a higher risk of developing psychiatric diseases, such as schizophrenia, in susceptible individuals (Arseneault et al, 2004). Chronic adolescent, but not adult, cannabinoid exposure produces lasting working memory impairments and recapitulates other schizophrenia endophenotypes in rodents, including impaired sensorimotor gating, social avoidance, and anhedonia/avolition (Schneider and Koch, 2003;O'Shea et al, 2004;Quinn et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

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Adolescent Cannabinoid Exposure Permanently Suppresses Cortical Oscillations in Adult Mice

Raver

Haughwout

Keller

2013

Neuropsychopharmacol

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Regular marijuana use during adolescence, but not adulthood, may permanently impair cognition and increase the risk for psychiatric diseases, such as schizophrenia. Cortical oscillations are integral for cognitive processes and are abnormal in patients with schizophrenia. We test the hypothesis that adolescence is a sensitive period because of the active development of cortical oscillations and neuromodulatory systems that underlie them. The endocannabinoid system upon which marijuana acts is one such system. Here we test the prediction that adolescent cannabinoid exposure alters cortical oscillations in adults. Using in vitro local field potential, in vivo electrocorticogram recordings and cognitive behavioral testing in adult mice, we demonstrate that chronic adolescent, but not adult, cannabinoid exposure suppresses pharmacologically evoked cortical oscillations and impairs working memory performance in adults. The later-maturing prefrontal cortex is more sensitive to adolescent exposure than the earlier-maturing, primary somatosensory cortex. These data establish a link between chronic adolescent cannabinoid exposure and alterations in adult cortical network activity that underlie cognitive processes.

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Section: Discussionsupporting

confidence: 81%

Section: Discussionsupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

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Adolescent Cannabinoid Exposure Permanently Suppresses Cortical Oscillations in Adult Mice

Raver

Haughwout

Keller

2013

Neuropsychopharmacol

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“…However, we did not investigate whether a similar picture was produced as a long-term consequence after chronic THC treatment in adult rats, although recent papers support the idea of adolescents being specifically vulnerable to enduring adverse effects of cannabinoids (Quinn et al, 2007). Therefore, the potential problems arising in relation to marijuana consumption in adolescence suggest that this developmental phase is a vulnerable period for persistent adverse effects of cannabinoids.…”

Section: Resultsmentioning

confidence: 89%

Chronic Δ9-Tetrahydrocannabinol During Adolescence Provokes Sex-Dependent Changes in the Emotional Profile in Adult Rats: Behavioral and Biochemical Correlates

Rubino

Viganò

Realini

et al. 2008

Neuropsychopharmacol

301

303

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Few and often contradictory reports exist on the long-term neurobiological consequences of cannabinoid consumption in adolescents. The endocannabinoid system plays an important role during the different stages of brain development as cannabinoids influence the release and action of different neurotransmitters and promote neurogenesis. This study tested whether long-lasting interference by cannabinoids with the developing endogenous cannabinoid system during adolescence caused persistent behavioral alterations in adult rats. Adolescent female and male rats were treated with increasing doses of D 9 -tetrahydrocannabinol (THC) for 11 days (postnatal day (PND) 35-45) and left undisturbed until adulthood (PND 75) when behavioral and biochemical assays were carried out. CB1 receptor level and CB1/G-protein coupling were significantly reduced by THC exposure in the amygdala (Amyg), ventral tegmental area (VTA) and nucleus accumbens (NAc) of female rats, whereas male rats had significant alterations only in the amygdala and hippocampal formation. Neither female nor male rats showed any changes in anxiety responses (elevated plus maze and open-field tests) but female rats presented significant 'behavioral despair' (forced swim test) paralleled by anhedonia (sucrose preference). In contrast, male rats showed no behavioral despair but did present anhedonia. This different behavioral picture was supported by biochemical parameters of depression, namely CREB alteration. Only female rats had low CREB activity in the hippocampal formation and prefrontal cortex and high activity in the NAc paralleled by increases in dynorphin expression. These results suggest that heavy cannabis consumption in adolescence may induce subtle alterations in the emotional circuit in female rats, ending in depressive-like behavior, whereas male rats show altered sensitivity to rewarding stimuli.

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“…Further, some of the reported effects appear to last for a considerable period following drug exposure [12]. In rats, the timing of the exposure during the neurophysiological development of the organism appears to contribute to impairments in working memory when tested as adults while adult Δ-9-THC-treated rats does not produce persistent impairments [13,14]. Last, such adolescent exposure effects may, in part, be associated with the sex of the animal as well, with more severe effects reported in female rats [15].…”

Section: Introductionmentioning

confidence: 99%

Adolescent Exposure of JWH-018 “Spice” Produces Subtle Effects on Learning and Memory Performance in Adulthood

Compton¹,

Seeds²,

Pottash³

et al. 2012

JBBS

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The active components associated with the bio-designer drugs known variously as "Spice" or "K2" have rapidly gained in popularity among recreational users, forcing the United States Drug Enforcement Administration to classify these compounds as Schedule I drugs in the Spring of 2011. However, although there is some information about many of the synthetic cannabinoids used in Spice products, little is known about the consequences of the main constituent, (1-pentyl-3-(1-naphthoyl)indole; JWH-018), on neuropsychological development or behavior. In the present experiment, adolescent rats were given repeated injections of either saline or 100 μg/kg of JWH-018. Once the animals were 75 days of age, they were trained using tasks with spatial components of various levels of difficulty and a spatial learning set task. On early trials with water maze tasks of varying difficulty, the JWH-018 treated rats were impaired relative to controls. However, by the end of each phase of testing, drug and control animals were comparable, although on probe trials the drug-treated animals spent significantly less time in the target quadrant. In addition, the performance of the drug-treated rats was inferior to that of the control animals on a learning set task, suggesting some difficulty in adapting their responses to changing task demands. The results suggest that chronic exposure to this potent cannabinoid CB1 receptor agonist during adolescence is capable of producing a variety of subtle changes affecting spatial learning and memory performance in adulthood, well after the drug exposure period.

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Adolescent Rats Find Repeated Δ9-THC Less Aversive Than Adult Rats but Display Greater Residual Cognitive Deficits and Changes in Hippocampal Protein Expression Following Exposure

Cited by 272 publications

References 77 publications

Adolescent Cannabinoid Exposure Permanently Suppresses Cortical Oscillations in Adult Mice

Adolescent Cannabinoid Exposure Permanently Suppresses Cortical Oscillations in Adult Mice

Chronic Δ9-Tetrahydrocannabinol During Adolescence Provokes Sex-Dependent Changes in the Emotional Profile in Adult Rats: Behavioral and Biochemical Correlates

Adolescent Exposure of JWH-018 “Spice” Produces Subtle Effects on Learning and Memory Performance in Adulthood

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