Laboratory of Phytochemicals in Physiology, Department of Food and Drugs, University of Parma, Parma, Italy.
University of Cambridge Metabolic Research Laboratories, Level 4, Wellcome Trust-Medical Research Council Institute of Metabolic Science, Addenbrooke's Hospital, Cambridge, United Kingdom.
Adv Nutr. 2017 Sep 15;8(5):694-704. doi: 10.3945/an.117.015792. Print 2017 Sep.
The incidence of overweight and obesity has reached epidemic proportions, making the control of body weight and its complications a primary health problem. Diet has long played a first-line role in preventing and managing obesity. However, beyond the obvious strategy of restricting caloric intake, growing evidence supports the specific antiobesity effects of some food-derived components, particularly (poly)phenolic compounds. The relatively new rediscovery of active brown adipose tissue in adult humans has generated interest in this tissue as a novel and viable target for stimulating energy expenditure and controlling body weight by promoting energy dissipation. This review critically discusses the evidence supporting the concept that the antiobesity effects ascribed to (poly)phenols might be dependent on their capacity to promote energy dissipation by activating brown adipose tissue. Although discrepancies exist in the literature, most in vivo studies with rodents strongly support the role of some (poly)phenol classes, particularly flavan-3-ols and resveratrol, in promoting energy expenditure. Some human data currently are available and most are consistent with studies in rodents. Further investigation of effects in humans is warranted.
超重和肥胖的发病率已达到流行程度,使体重控制及其并发症成为主要的健康问题。饮食在预防和管理肥胖方面一直起着一线作用。然而,除了限制热量摄入这一明显策略之外,越来越多的证据支持某些源自食物的成分(特别是(多)酚类化合物)具有特定的抗肥胖作用。在成年人体内重新发现活跃的棕色脂肪组织,这一发现引起了人们对这种组织的兴趣,因为它是一种新颖且可行的目标,可以通过促进能量消耗来刺激能量消耗和控制体重。本综述批判性地讨论了支持以下概念的证据,即归因于(多)酚的抗肥胖作用可能取决于它们通过激活棕色脂肪组织促进能量消耗的能力。尽管文献中存在差异,但大多数关于啮齿动物的体内研究强烈支持某些(多)酚类,特别是黄烷-3-醇和白藜芦醇,在促进能量消耗方面的作用。目前有一些关于人类的研究数据,并且大多数与啮齿动物的研究一致。需要进一步研究人类的影响。