Jennifer A DiNieri1, Xinyu Wang2, Henrietta Szutorisz1, Sabrina M Spano2, Jasbir Kaur3, Patrizia Casaccia3, Diana Dow-Edwards4, Yasmin L Hurd5. 1. Departments of Psychiatry, Neuroscience, Pharmacology and Systems Therapeutics, Mount Sinai School of Medicine, New York. 2. Section of Psychiatry, Department of Clinical Neuroscience, Karolinska Institutet, Stockholm, Sweden. 3. Department of Neuroscience, Mount Sinai School of Medicine, New York. 4. Department of Physiology and Pharmacology, State University of New York, Downstate Medical Center, Brooklyn, New York. 5. Departments of Psychiatry, Neuroscience, Pharmacology and Systems Therapeutics, Mount Sinai School of Medicine, New York. Electronic address: yasmin.hurd@mssm.edu.
Abstract
BACKGROUND: Prenatal cannabis exposure has been linked to addiction vulnerability, but the neurobiology underlying this risk is unknown. METHODS: Striatal dopamine and opioid-related genes were studied in human fetal subjects exposed to cannabis (as well as cigarettes and alcohol). Cannabis-related gene disturbances observed in the human fetus were subsequently characterized with an animal model of prenatal Δ-9-tetrahydrocannabinol (THC) (.15 mg/kg) exposure. RESULTS: Prenatal cannabis exposure decreased dopamine receptor D2 (DRD2) messenger RNA expression in the human ventral striatum (nucleus accumbens [NAc]), a key brain reward region. No significant alterations were observed for the other genes in cannabis-exposed subjects. Maternal cigarette use was associated with reduced NAc prodynorphin messenger RNA expression, and alcohol exposure induced broad alterations primarily in the dorsal striatum of most genes. To explore the mechanisms underlying the cannabis-associated disturbances, we exposed pregnant rats to THC and examined the epigenetic regulation of the NAc Drd2 gene in their offspring at postnatal day 2, comparable to the human fetal period studied, and in adulthood. Chromatin immunoprecipitation of the adult NAc revealed increased 2meH3K9 repressive mark and decreased 3meH3K4 and RNA polymerase II at the Drd2 gene locus in the THC-exposed offspring. Decreased Drd2 expression was accompanied by reduced dopamine D2 receptor (D(2)R) binding sites and increased sensitivity to opiate reward in adulthood. CONCLUSIONS: These data suggest that maternal cannabis use alters developmental regulation of mesolimbic D(2)R in offspring through epigenetic mechanisms that regulate histone lysine methylation, and the ensuing reduction of D(2)R might contribute to addiction vulnerability later in life.
BACKGROUND: Prenatal cannabis exposure has been linked to addiction vulnerability, but the neurobiology underlying this risk is unknown. METHODS: Striatal dopamine and opioid-related genes were studied in human fetal subjects exposed to cannabis (as well as cigarettes and alcohol). Cannabis-related gene disturbances observed in the human fetus were subsequently characterized with an animal model of prenatal Δ-9-tetrahydrocannabinol (THC) (.15 mg/kg) exposure. RESULTS: Prenatal cannabis exposure decreased dopamine receptor D2 (DRD2) messenger RNA expression in the human ventral striatum (nucleus accumbens [NAc]), a key brain reward region. No significant alterations were observed for the other genes in cannabis-exposed subjects. Maternal cigarette use was associated with reduced NAcprodynorphin messenger RNA expression, and alcohol exposure induced broad alterations primarily in the dorsal striatum of most genes. To explore the mechanisms underlying the cannabis-associated disturbances, we exposed pregnant rats to THC and examined the epigenetic regulation of the NAcDrd2 gene in their offspring at postnatal day 2, comparable to the human fetal period studied, and in adulthood. Chromatin immunoprecipitation of the adult NAc revealed increased 2meH3K9 repressive mark and decreased 3meH3K4 and RNA polymerase II at the Drd2 gene locus in the THC-exposed offspring. Decreased Drd2 expression was accompanied by reduced dopamine D2 receptor (D(2)R) binding sites and increased sensitivity to opiate reward in adulthood. CONCLUSIONS: These data suggest that maternal cannabis use alters developmental regulation of mesolimbic D(2)R in offspring through epigenetic mechanisms that regulate histone lysine methylation, and the ensuing reduction of D(2)R might contribute to addiction vulnerability later in life.
Authors: Olivier Binda; Gary LeRoy; Dennis J Bua; Benjamin A Garcia; Or Gozani; Stéphane Richard Journal: Epigenetics Date: 2010 Nov-Dec Impact factor: 4.528
Authors: Ian Maze; Herbert E Covington; David M Dietz; Quincey LaPlant; William Renthal; Scott J Russo; Max Mechanic; Ezekiell Mouzon; Rachael L Neve; Stephen J Haggarty; Yanhua Ren; Srihari C Sampath; Yasmin L Hurd; Paul Greengard; Alexander Tarakhovsky; Anne Schaefer; Eric J Nestler Journal: Science Date: 2010-01-08 Impact factor: 47.728
Authors: Pengfei Wang; Chengqi Lin; Edwin R Smith; Hong Guo; Brian W Sanderson; Min Wu; Madelaine Gogol; Tara Alexander; Christopher Seidel; Leanne M Wiedemann; Kai Ge; Robb Krumlauf; Ali Shilatifard Journal: Mol Cell Biol Date: 2009-08-24 Impact factor: 4.272
Authors: S C Jaques; A Kingsbury; P Henshcke; C Chomchai; S Clews; J Falconer; M E Abdel-Latif; J M Feller; J L Oei Journal: J Perinatol Date: 2014-01-23 Impact factor: 2.521
Authors: Alexander K Converse; Colleen F Moore; James E Holden; Elizabeth O Ahlers; Jeffrey M Moirano; Julie A Larson; Leslie M Resch; Onofre T DeJesus; Todd E Barnhart; Robert J Nickles; Dhanabalan Murali; Bradley T Christian; Mary L Schneider Journal: Alcohol Clin Exp Res Date: 2014-12 Impact factor: 3.455
Authors: Giuseppe Tortoriello; Claudia V Morris; Alan Alpar; Janos Fuzik; Sally L Shirran; Daniela Calvigioni; Erik Keimpema; Catherine H Botting; Kirstin Reinecke; Thomas Herdegen; Michael Courtney; Yasmin L Hurd; Tibor Harkany Journal: EMBO J Date: 2014-01-27 Impact factor: 11.598
Authors: Stephanie E Sillivan; John D Whittard; Michelle M Jacobs; Yanhua Ren; Amin R Mazloom; Francesca F Caputi; Monika Horvath; Eva Keller; Avi Ma'ayan; Ying-Xian Pan; Lillian W Chiang; Yasmin L Hurd Journal: Biol Psychiatry Date: 2013-05-20 Impact factor: 13.382