Beijing Sport University, Exercise Biochemistry, Beijing, China.
National Institute of Sports Medicine, Center for Sports Nutrition, Beijing, China.
J Int Soc Sports Nutr. 2023 Dec;20(1):2254741. doi: 10.1080/15502783.2023.2254741.
Accumulation of body fat and dyslipidemia are associated with the development of obesity and cardiometabolic diseases. Moreover, the degree to which lipids can be metabolized has been cited as a determinant of cardiometabolic health and prolonged endurance capacity. In the backdrop of increasing obesity and cardiometabolic diseases, lipid metabolism and its modulation by physical activity, dietary adjustments, and supplementation play a significant role in maintaining health and endurance. Food-derived oligopeptides, such as rice and soybean peptides, have been shown to directly regulate abnormal lipid metabolism or promote hypolipidemia and fat oxidation in cell culture models, animal models, and human studies. However, whether supplementation with oligopeptides derived from multiple food sources can promote lipid degradation and fat oxidation in athletes remains unclear. Therefore, in a randomized controlled crossover trial, we investigated the impact of food-derived oligopeptide supplementation before and during exercise on lipid metabolism in young male cyclists.
Sixteen young male cyclists (age: 17.0 ± 1.0 years; height: 178.4 ± 6.9 cm; body mass: 68.7 ± 12.7 kg, body mass index: 21.5 ± 3.4 kg/m; maximum oxygen uptake: 56.3 ± 5.8 mL/min/kg) participated in this randomized controlled crossover trial. Each participant drank two beverages, one containing a blend of three food-derived oligopeptides (treatment, 0.5 g/kg body weight in total) and the other without (control), with a 2-week washout period between two experiments. The cyclists completed a one-day pattern protocol that consisted of intraday fasting, 30 min of sitting still, 85 min of prolonged exercise plus a 5-min sprint (PE), a short recovery period of 60 min, a 20-min time trial (TT), and recovery till next morning. Blood samples were collected for biochemical analyses of serum lipids and other biomarkers. We analyzed plasma triglyceride species (TGs), free amino acids (FAAs), and tricarboxylic acid (TCA) cycle intermediates using omics methods. In addition, exhaled gas was collected to assess the fat oxidation rate.
Five of 20 plasma FAAs were elevated pre-exercise (pre-Ex) only 20 min after oligopeptide ingestion, and most FAAs were markedly increased post PE and TT. Serum levels of TG and non-esterified fatty acids were lower in the experimental condition than in the control condition at the post PE and TT assessments, respectively. Further, the omics analysis of plasma TGs for the experimental condition demonstrated that most TGs were lower post PE and at the next fasting when compared with control levels. Simultaneously, the fat oxidation rate began to increase only 20 min after ingestion and during the preceding 85 min of PE. Levels of TCA cycle intermediates did not differ between the conditions.
The study noted that continuous ingestion of food-derived oligopeptides accelerated total body triglyceride breakdown, non-esterified fatty acid uptake, and fat oxidation during both sedentary and exercise states. Elevated circulating and intracellular FAA flux may modulate the selection of substrates for metabolic pathways in conjunction with the release of neuroendocrinological factors that slow down carbohydrate metabolism via acetyl coenzyme A feedback inhibition. This may increase the availability of fatty acids for energy production, with FAAs supplying more substrates for the TCA cycle. The findings of this study provide novel insight into strategies for promoting lipid metabolism in populations with dyslipidemia-related metabolic disorders such as obesity and for improving physiological functioning during endurance training. However, the absence of a non-exercising control group and verification of long-term supplementation effects was a limitation. Future studies will emphasize the impacts of whole protein supplementation as a control and of combined food-derived peptides or oligopeptides with probiotics and healthy food components on lipid metabolism in individuals who exercise.
体脂肪积累和血脂异常与肥胖和心脏代谢疾病的发展有关。此外,脂质的代谢能力被认为是心脏代谢健康和耐力持久力的决定因素。在肥胖和心脏代谢疾病不断增加的背景下,脂质代谢及其通过体力活动、饮食调整和补充剂的调节在维持健康和耐力方面发挥着重要作用。来源于食物的寡肽,如大米和大豆肽,已被证明可直接调节异常的脂质代谢或在细胞培养模型、动物模型和人体研究中促进血脂异常和脂肪氧化。然而,是否补充多种食物来源的寡肽可以促进运动员的脂肪降解和脂肪氧化仍然不清楚。因此,在一项随机对照交叉试验中,我们研究了运动前和运动期间补充食物来源的寡肽对年轻男性自行车运动员脂质代谢的影响。
16 名年轻男性自行车运动员(年龄:17.0±1.0 岁;身高:178.4±6.9cm;体重:68.7±12.7kg,体重指数:21.5±3.4kg/m;最大摄氧量:56.3±5.8mL/min/kg)参与了这项随机对照交叉试验。每位参与者饮用两种饮料,一种含有三种食物来源的寡肽混合物(处理组,总剂量为 0.5g/kg 体重),另一种不含寡肽(对照组),两次实验之间有两周的洗脱期。自行车运动员完成了一天的模式方案,包括日内禁食、30 分钟静坐、85 分钟长时间运动加 5 分钟冲刺(PE)、60 分钟短暂恢复期、20 分钟计时赛(TT)和恢复到第二天早上。采集血样进行血清脂质和其他生物标志物的生化分析。我们使用组学方法分析血浆甘油三酯(TGs)、游离氨基酸(FAAs)和三羧酸(TCA)循环中间产物。此外,收集呼出气体以评估脂肪氧化率。
在运动前 20 分钟摄入寡肽后,有 5 种血浆游离氨基酸(FAAs)升高,而在运动后和 TT 评估时大多数 FAAs 显著升高。与对照组相比,实验组在运动后和 TT 评估时血清甘油三酯和非酯化脂肪酸水平较低。此外,实验组血浆 TGs 的组学分析表明,与对照组相比,大多数 TGs 在运动后和下次禁食时较低。同时,脂肪氧化率仅在摄入后 20 分钟开始增加,并在之前的 85 分钟 PE 期间增加。两种条件下 TCA 循环中间产物的水平没有差异。
本研究表明,连续摄入食物来源的寡肽可加速全身甘油三酯分解、非酯化脂肪酸摄取和运动和静坐状态下的脂肪氧化。循环和细胞内 FAA 通量的增加可能通过乙酰辅酶 A 反馈抑制调节碳水化合物代谢的神经内分泌因子来调节代谢途径中底物的选择,从而增加脂肪酸用于能量产生的可用性,FAA 提供更多的 TCA 循环底物。本研究的结果为促进血脂异常相关代谢紊乱(如肥胖)人群的脂质代谢以及改善耐力训练期间生理功能的策略提供了新的见解。然而,缺乏不运动的对照组和对长期补充效果的验证是一个限制。未来的研究将强调整个蛋白质补充作为对照,以及食物来源的寡肽或肽与益生菌和健康食物成分联合对运动人群的脂质代谢的影响。
