Rusznák Kitti, Csekő Kata, Varga Zsófia, Csabai Dávid, Bóna Ágnes, Mayer Mátyás, Kozma Zsolt, Helyes Zsuzsanna, Czéh Boldizsár
Neurobiology of Stress Research Group, János Szentágothai Research Centre and Centre for Neuroscience, Pécs, Hungary.
Molecular Pharmacology Research Group, János Szentágothai Research Centre and Centre for Neuroscience, Pécs, Hungary.
Front Pharmacol. 2018 Jul 23;9:786. doi: 10.3389/fphar.2018.00786. eCollection 2018.
Marijuana is a widely used recreational drug with increasing legalization worldwide for medical purposes. Most experimental studies use either synthetic or plant-derived cannabinoids to investigate the effect of cannabinoids on anxiety and cognitive functions. The aim of this study was to mimic real life situations where young people smoke cannabis regularly to relax from everyday stress. Therefore, we exposed young adult male NMRI mice to daily stress and concomitant marijuana smoke for 2 months and investigated the consequences on physiology, behavior and adult hippocampal neurogenesis. Animals were restrained for 6-h/day for 5-days a week. During the stress, mice were exposed to cannabis smoke for 2 × 30 min/day. We burned 2 "joints" (2 × 0.8 g marijuana) per occasion in a whole body smoking chamber. Cannabinoid content of the smoke and urine samples was measured by HPLC and SFC-MS/MS. Body weight gain was recorded daily and we did unrestrained, whole body plethysmography to investigate pulmonary functions. The cognitive performance of the animals was evaluated by the novel object recognition and Y maze tests. Anxietyrelated spontaneous locomotor activity and self-grooming were assessed in the open field test (OFT). Adult neurogenesis was quantified post mortem in the hippocampal dentate gyrus. The proliferative activity of the precursor cells was detected by the use of the exogenous marker 5-bromo-20-deoxyuridine. Treatment effects on maturing neurons were studied by the examination of doublecortin-positive neurons. Both stress and cannabis exposure significantly reduced body weight gain. Cannabis smoke had no effect on pulmonary functions, but stress delayed the maturation of several lung functions. Neither stress, nor cannabis smoke affected the cognitive functioning of the animals. Results of the OFT revealed that cannabis had a mild anxiolytic effect and markedly increased self-grooming behavior. Stress blocked cell proliferation in the dentate gyrus, but cannabis had no effect on this parameter. Marijuana smoke however had a pronounced impact on doublecortin-positive neurons influencing their number, morphology and migration. In summary, we report here that long-term stress in combination with cannabis smoke exposure can alter several health-related measures, but the present experimental design could not reveal any interaction between these two treatment factors except for body weight gain.
大麻是一种广泛使用的消遣性毒品,在全球范围内因医疗用途而日益合法化。大多数实验研究使用合成或植物来源的大麻素,来研究大麻素对焦虑和认知功能的影响。本研究的目的是模拟现实生活中年轻人经常吸食大麻以缓解日常压力的情况。因此,我们让年轻成年雄性NMRI小鼠每天承受压力并同时接触大麻烟雾,持续2个月,并研究其对生理、行为和成年海马神经发生的影响。动物每周有5天每天被束缚6小时。在承受压力期间,小鼠每天接触大麻烟雾2×30分钟。我们每次在全身吸烟室中燃烧2支“大麻烟”(2×0.8克大麻)。通过高效液相色谱法(HPLC)和超临界流体色谱-串联质谱法(SFC-MS/MS)测量烟雾和尿液样本中的大麻素含量。每天记录体重增加情况,并且我们进行无束缚的全身体积描记法以研究肺功能。通过新物体识别和Y迷宫测试评估动物的认知表现。在旷场试验(OFT)中评估与焦虑相关的自发运动活动和自我梳理行为。在死后对海马齿状回中的成年神经发生进行定量。通过使用外源性标记物5-溴-2'-脱氧尿苷检测前体细胞的增殖活性。通过检查双皮质素阳性神经元来研究对成熟神经元的治疗效果。压力和大麻暴露均显著降低体重增加。大麻烟雾对肺功能没有影响,但压力延迟了几种肺功能的成熟。压力和大麻烟雾均未影响动物的认知功能。旷场试验的结果表明,大麻具有轻度抗焦虑作用,并显著增加自我梳理行为。压力会阻止齿状回中的细胞增殖,但大麻对该参数没有影响。然而,大麻烟雾对双皮质素阳性神经元有显著影响,影响其数量、形态和迁移。总之,我们在此报告,长期压力与接触大麻烟雾相结合可改变多项与健康相关的指标,但目前的实验设计未能揭示这两个治疗因素之间除体重增加外的任何相互作用。
