High times for cannabis: Epigenetic imprint and its legacy on brain and behavior

•Long-term developmental effects of cannabis largely lack in-depth scientific data.•The epigenome underlies molecular and behavioral effects of cannabinoids.•We discuss epigenetic dysregulation by prenatal, adolescent and germline cannabis.•Expanding epigenetic knowledge will provide targets for tre...

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Veröffentlicht in:	Neuroscience and biobehavioral reviews 2018-02, Vol.85, p.93-101
Hauptverfasser:	Szutorisz, Henrietta, Hurd, Yasmin L.
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Sprache:	eng
Schlagworte:	Adolescence Cannabinoid Chromatin DNA methylation Epigenetics Multigenerational inheritance Prenatal development Synaptic plasticity Transcription
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description	•Long-term developmental effects of cannabis largely lack in-depth scientific data.•The epigenome underlies molecular and behavioral effects of cannabinoids.•We discuss epigenetic dysregulation by prenatal, adolescent and germline cannabis.•Expanding epigenetic knowledge will provide targets for treatment interventions. Extensive debates continue regarding marijuana (Cannabis spp), the most commonly used illicit substance in many countries worldwide. There has been an exponential increase of cannabis studies over the past two decades but the drug’s long-term effects still lack in-depth scientific data. The epigenome is a critical molecular machinery with the capacity to maintain persistent alterations of gene expression and behaviors induced by cannabinoids that have been observed across the individual’s lifespan and even into the subsequent generation. Though mechanistic investigations regarding the consequences of developmental cannabis exposure remain sparse, human and animal studies have begun to reveal specific epigenetic disruptions in the brain and the periphery. In this article, we focus attention on long-term disturbances in epigenetic regulation in relation to prenatal, adolescent and parental germline cannabinoid exposure. Expanding knowledge about the protracted molecular memory could help to identify novel targets to develop preventive strategies and treatments for behaviors relevant to neuropsychiatric risks associated with developmental cannabis exposure.
doi_str_mv	10.1016/j.neubiorev.2017.05.011
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Extensive debates continue regarding marijuana (Cannabis spp), the most commonly used illicit substance in many countries worldwide. There has been an exponential increase of cannabis studies over the past two decades but the drug’s long-term effects still lack in-depth scientific data. The epigenome is a critical molecular machinery with the capacity to maintain persistent alterations of gene expression and behaviors induced by cannabinoids that have been observed across the individual’s lifespan and even into the subsequent generation. Though mechanistic investigations regarding the consequences of developmental cannabis exposure remain sparse, human and animal studies have begun to reveal specific epigenetic disruptions in the brain and the periphery. In this article, we focus attention on long-term disturbances in epigenetic regulation in relation to prenatal, adolescent and parental germline cannabinoid exposure. 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subjects	Adolescence Cannabinoid Chromatin DNA methylation Epigenetics Multigenerational inheritance Prenatal development Synaptic plasticity Transcription
title	High times for cannabis: Epigenetic imprint and its legacy on brain and behavior
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