Cannabis - 7 - Références

 Références

. [1] O.F.D.T (Observatoire français des drogues toxicomanies). Drogues et chiffres clés. 8e éd. 2019.


. [2] Mura P, Brunet B, Dujourdy L. L'augmentation des teneurs en delta-9 tétrahydrocannabinol dans les produits à base de cannabis en France. Ann Toxicol Anal 2001;13:75–9.


. [3] Costentin J. Le cannabis — ses différentes présentations et leurs modalités de consom- mation. In: Mura P, Goullé J-P, Costentin J.    Cannabis — Ce qu'il faut savoir et faire savoir. Paris: Lavoisier TEC & DOC; 2019. p. 39– 94.


. [4] Costentin J. Chapitre V. In: Le désastre des
toxicomanies en France. Paris: Docis; 2018p.
89–132.

. [5] Waddington CH. The strategy of the genes: a
discussion of some aspects of theoretical biol-
ogy. London: Allen and Unwin; 1957.

. [6] Kornberg RD, Lorch Y. Twenty-five years of the nucleosome, fundamental particle of , 
eukaryote chromosome. Cell 1999;98(3):285–

.  [7] Zwiller J. Addiction et régulation épigénétique. Med Sci 2015;31(4):439–46.

. [8] Tessarz P, Kouzarides T. Histone core mod- ifications regulating nucleosome structure and dynamics. Nature Rev Mol Cell Biol 2014;15(11):703–8.

 . [9] Reik W, Dean W, Walter J. Epigenetic repro-
gramming in mammalian development. Science 2001;293:1089–93.


. [10] Yohn NL, Bartolomei MS, Blendy JA. Multigenerational and transgenerational inheri- tance of drug exposure: the effects of alcohol, opiates, cocaine, marijuana and nico- tine. Prog Biophys Mol Biol 2015;118:21–33.

. [11] Young-Wolff KC, Tucker L, Alexeeff S, Armstrong MA, Conway MA, Weisner C, et al. Trends in self-reported and biochemically tested marijuana use among pregnant females in California from 2009–2016. JAMA 2017;318:2490–1.

. [12] Dickson B, Mansfield C, Guiahi M, Allshouse AA, Borgett LM, Sheeder J, et al. Recommandations from cannabis dispensaries about first-trimester cannabis use. Obstetr Gynecol 2018;131:1031–8.

. [13] Reece AS, Hulse GK. Cannabis teratology explains current patterns of coloradan congenital defects: the contribution of increased cannabinoid exposure to rising teratological trends. Clin Pediatr (Phila) 2019;58:1085–123.

. [14] Reece AS, Hulse GK. Chromothripsis and epigenetics complete causality criteria for cannabis-and addiction-connected carcinogenicity, congenital toxicity and heritable genotoxicity. Mutat Res 2016;789:15–25.

. [15] Reece AS, Hulse GK. Impacts of cannabinoid epigenetics on human development: reflections on Murphy et al. "cannabiboid exposure and altered DNA methylation in rat and human sperm''. Epigenetics 2018;13:1208- 1221. Epigenetics 2019;14(11):1041–56. 
.

. [16] DiNieri JA, Wang X, Szutorisz H, Spano SM, Kaur J, Casaccia P, et al. Maternal cannabis use alters ventral dopamine D2 gene regulation in the offspring. Biol Psychiatry 2011;70:763–9.

. [17] Costentin J. Chapitre V. In: La dopamine dans tous ses états. Paris: Docis; 2015p. 57–67.

. [18] Thanos PK, Michaelides M, Umegaki H, Volkow ND. D2R DNA transfert into the nucleus accumbens attenuates cocaïne self- administration in rats. Synapse 2008;62:481– 6.

. [19] Zumbrun EE, Sido JM, Nagarktti PS, Nagarktti M. Epigenetic regulation of immunological alterations following prenatal exposure to marijuana cannabinoids and its long terme consequences in offspring. J Neuroimmune Pharmacol 2015;10:245–54.


. [20] Dong C, Chen J, Harrington A, Vinod KY, Hedge ML, Hedge VL. Cannabinoid exposure during pregnancy and its impact on immune function. Cell Mol Life Sci 2019;76(4):729–43.


. [21] Murphy SK, Itchon-Ramos N, Visco Z, Huang Z, Grenier C, Schrott R, et al. Cannabinoid exposure and altered DNA methylation in rat and human sperm. Epigenetics 2018;13 (12):1208–21.

 
. [22] Reece AS, Hulse GK. Impact of cannabinoid epigenetics on human development: reflections on Murphy et al. Cannabis exposure and altered DNA methylation in rat and human sperm. Epigenetics 2018;13:1208–21.


. [23] Szutorisz H, DiNieri JA, Sweet E, Egervari G, Michaelides M, CarterJM. et al. Parental THC exposure leads to compulsive heroin-seeking and altered striatal synaptic plasticity in the subsequent generation. Neuropsychopharmacology 2014;39:1315–23.

. [24] Watson CT, Szutorisz H, Garg P, Martin Q, Landry JA, Sharp AJ, et al. Genome-wide DNA methylation profiling reveals epigenetic changes in the nucleus accumbens associated with cross-generational effects of adolescent THC exposure. Neuropsychopharmacology 2015;40:2993–3005. 


. [25] Andaloussi ZIL, Taghzouti K, Abboussi O. Behavioural and epigenetic effects of paternal exposure to cannabinoids during adolescence of offspring vulnerability to stress. International J Develop Neurosci 2019;72:48–54.

. 
[26] Levin ED, Hawkey AB, Hall BJ, Cauley M, Slade S, Yazdani E, et al. exposure in rats causes long-lasting neurobehavioral effects in the offspring. Neurotoxicol Teratol 2019;74106806.

.[27] Vassoler FM, Johnson NL, Byrnes EM. Female adolescent exposure to cannabinoids causes transgenerational effects on morphine sensitization in female offspring in the absence of in utero exposure. J Psychopharmacol (Oxford) 2013;27:1015–22.

.[28] Tomasiewicz HC, Jacobs MM, Wilkinson MB, Wilson SP, Nezstler EJ, Hurd YL. Proenkephalin mediates the enduring effects of adolescent cannabis exposure associated with adult opiate vulnerability. Biol Psychiatry 2012;72:803–10.

.[29] Prini P, Ruszconi F, Zmberletti E, Gabaglio M, Penna F, Fasano M, et al. Adolescent exposure in female rats leads to cognitive deficits through a mechanism involving chromatin modifications in the prefrontal cortex. J Psychiatry Neurosci 2018;43:87–101.

.[30] Gerra MC, Jayanthi S, Manfredini M, Walther D, Schroeder J, Kan P, et al. Gene variants and educational attainment in cannabis use: mediating role of DNA methylation. Transl Psychiatry 2018;8:1–11.

.[31] Miller ML, Chadwick B, Dickstein DL, Purushothaman I, Egervari G, Rahman T, et al. Adolescent exposure to D9 - tetrahydrocannabinol alters the transcriptional trajectory and dendritic architecture of prefrontal pyramidal neurons. Mol Psychiatry 2019;24:588–600.

.[32] Hurd Y, Mazoni OJ, Pletnikov MV, Lee FS, Bhattacharyya S, Melis M. Cannabis and the developing brain: insights into its long-lasting effects. J Neurosci 2019;39:1165–2219.