Thompson Zoe, Argueta Donovan, Garland Theodore, DiPatrizio Nicholas
Neuroscience Graduate Program, University of California, Riverside, CA 92521, USA.
Division of Biomedical Sciences, School of Medicine, University of California, Riverside, CA 92521, USA.
Physiol Behav. 2017 Mar 1;170:141-150. doi: 10.1016/j.physbeh.2016.11.041. Epub 2016 Dec 22.
The endocannabinoid system serves many physiological roles, including in the regulation of energy balance, food reward, and voluntary locomotion. Signaling at the cannabinoid type 1 receptor has been specifically implicated in motivation for rodent voluntary exercise on wheels. We studied four replicate lines of high runner (HR) mice that have been selectively bred for 81 generations based on average number of wheel revolutions on days five and six of a six-day period of wheel access. Four additional replicate lines are bred without regard to wheel running, and serve as controls (C) for random genetic effects that may cause divergence among lines. On average, mice from HR lines voluntarily run on wheels three times more than C mice on a daily basis. We tested the general hypothesis that circulating levels of endocannabinoids (i.e., 2-arachidonoylglycerol [2-AG] and anandamide [AEA]) differ between HR and C mice in a sex-specific manner. Fifty male and 50 female mice were allowed access to wheels for six days, while another 50 males and 50 females were kept without access to wheels (half HR, half C for all groups). Blood was collected by cardiac puncture during the time of peak running on the sixth night of wheel access or no wheel access, and later analyzed for 2-AG and AEA content by ultra-performance liquid chromatography coupled to tandem mass spectrometry. We observed a significant three-way interaction among sex, linetype, and wheel access for 2-AG concentrations, with females generally having lower levels than males and wheel access lowering 2-AG levels in some but not all subgroups. The number of wheel revolutions in the minutes or hours immediately prior to sampling did not quantitatively predict plasma 2-AG levels within groups. We also observed a trend for a linetype-by-wheel access interaction for AEA levels, with wheel access lowering plasma concentrations of AEA in HR mice, while raising them in C mice. In addition, females tended to have higher AEA concentrations than males. For mice housed with wheels, the amount of running during the 30min before sampling was a significant positive predictor of plasma AEA within groups, and HR mice had significantly lower levels of AEA than C mice. Our results suggest that voluntary exercise alters circulating levels of endocannabinoids, and further demonstrate that selective breeding for voluntary exercise is associated with evolutionary changes in the endocannabinoid system.
内源性大麻素系统发挥着多种生理作用,包括调节能量平衡、食物奖赏和自主运动。大麻素1型受体的信号传导尤其与啮齿动物在轮子上自主运动的动机有关。我们研究了四个高跑步量(HR)小鼠的重复品系,这些小鼠基于在为期六天的轮子使用期的第五天和第六天的平均轮子转动次数,经过81代的选择性培育。另外四个重复品系的培育不考虑轮子跑步情况,作为对照(C),以控制可能导致品系间差异的随机遗传效应。平均而言,HR品系的小鼠每天在轮子上自主跑步的次数是C品系小鼠的三倍。我们检验了一个总体假设,即内源性大麻素(即2-花生四烯酸甘油酯[2-AG]和花生四烯乙醇胺[AEA])的循环水平在HR和C品系小鼠之间存在性别特异性差异。50只雄性和50只雌性小鼠被给予轮子使用六天,而另外50只雄性和50只雌性小鼠被饲养在没有轮子的环境中(所有组均为一半HR,一半C)。在轮子使用或不使用的第六晚跑步高峰期,通过心脏穿刺采集血液,随后通过超高效液相色谱-串联质谱法分析2-AG和AEA含量。我们观察到2-AG浓度在性别、品系类型和轮子使用之间存在显著的三因素交互作用,雌性的水平通常低于雄性,并且轮子使用在一些但并非所有亚组中降低了2-AG水平。采样前几分钟或几小时内的轮子转动次数并不能定量预测组内血浆2-AG水平。我们还观察到AEA水平存在品系类型与轮子使用的交互作用趋势,轮子使用降低了HR小鼠的血浆AEA浓度,而在C小鼠中则升高了AEA浓度。此外,雌性的AEA浓度往往高于雄性。对于有轮子的小鼠,采样前30分钟内的跑步量是组内血浆AEA的显著正预测因子,并且HR小鼠的AEA水平显著低于C小鼠。我们的结果表明,自主运动改变了内源性大麻素的循环水平,并进一步证明针对自主运动的选择性培育与内源性大麻素系统的进化变化有关。
