Turku PET Centre, University of Turku, Turku, Finland.
Heart Center, Turku University Hospital, Turku, Finland.
Nat Metab. 2021 Jun;3(6):798-809. doi: 10.1038/s42255-021-00409-4. Epub 2021 Jun 21.
Brown adipose tissue (BAT) thermogenesis is activated by feeding. Recently, we revealed a secretin-mediated gut-BAT-brain axis, which stimulates satiation in mice, but the purpose of meal-induced BAT activation in humans has been unclear. In this placebo-controlled, randomized crossover study, we investigated the effects of intravenous secretin on BAT metabolism (measured with [F]FDG and [O]HO positron emission tomography) and appetite (measured with functional magnetic resonance imaging) in healthy, normal weight men (GUTBAT trial no. NCT03290846). Participants were blinded to the intervention. Secretin increased BAT glucose uptake (primary endpoint) compared to placebo by 57% (median (interquartile range, IQR), 0.82 (0.77) versus 0.59 (0.53) μmol per 100 g per min, 95% confidence interval (CI) (0.09, 0.89), P = 0.002, effect size r = 0.570), while BAT perfusion remained unchanged (mean (s.d.) 4.73 (1.82) versus 6.14 (3.05) ml per 100 g per min, 95%CI (-2.91, 0.07), P = 0.063, effect size d = -0.549) (n = 15). Whole body energy expenditure increased by 2% (P = 0.011) (n = 15). Secretin attenuated blood-oxygen level-dependent activity (primary endpoint) in brain reward circuits during food cue tasks (significance level false discovery rate corrected at P = 0.05) (n = 14). Caloric intake did not significantly change, but motivation to refeed after a meal was delayed by 39 min (P = 0.039) (n = 14). No adverse effects were detected. Here we show in humans that secretin activates BAT, reduces central responses to appetizing food and delays the motivation to refeed after a meal. This suggests that meal-induced, secretin-mediated BAT activation is relevant in the control of food intake in humans. As obesity is increasing worldwide, this appetite regulating axis offers new possibilities for clinical research in treating obesity.
棕色脂肪组织 (BAT) 的产热作用是由进食激活的。最近,我们揭示了一种肠 - BAT - 脑轴的分泌素介导途径,它可以刺激小鼠饱腹感,但在人类中,进食诱导的 BAT 激活的目的尚不清楚。在这项安慰剂对照、随机交叉研究中,我们调查了静脉内分泌素对健康、正常体重男性的 BAT 代谢(用 [F]FDG 和 [O]HO 正电子发射断层扫描测量)和食欲(用功能磁共振成像测量)的影响(GUTBAT 试验号 NCT03290846)。参与者对干预措施不知情。与安慰剂相比,分泌素使 BAT 葡萄糖摄取增加了 57%(主要终点)(中位数(四分位距,IQR),0.82(0.77)比 0.59(0.53)μmol/100g/min,95%置信区间(CI)(0.09,0.89),P=0.002,效应大小 r=0.570),而 BAT 灌注保持不变(平均值(标准差),4.73(1.82)比 6.14(3.05)ml/100g/min,95%CI(-2.91,0.07),P=0.063,效应大小 d=-0.549)(n=15)。全身能量消耗增加了 2%(P=0.011)(n=15)。在食物线索任务期间,分泌素减弱了大脑奖励回路中的血氧水平依赖活性(主要终点)(在 P=0.05 时经假发现率校正的显著性水平)(n=14)。热量摄入没有显著变化,但餐后再进食的动机延迟了 39 分钟(P=0.039)(n=14)。未发现不良反应。在这里,我们在人类中表明,分泌素激活 BAT,减少了对开胃食物的中枢反应,并延迟了餐后再进食的动机。这表明,在人类中,进食诱导的、分泌素介导的 BAT 激活与控制食物摄入有关。随着肥胖在全球范围内的增加,这种食欲调节轴为治疗肥胖的临床研究提供了新的可能性。
