Physiology Department, Faculty of Biology and Medicine, University of Lausanne, Lausanne.
Metabolic Center, Hôpital Intercantonal de la Broye, Estavayer-le-lac, Switzerland.
Curr Opin Clin Nutr Metab Care. 2018 May;21(3):214-222. doi: 10.1097/MCO.0000000000000460.
There is increasing concern that dietary fructose may contribute to the development of noncommunicable diseases. This review identifies major new findings related to fructose's physiological or adverse effects.
Fructose is mainly processed in splanchnic organs (gut, liver, kidneys) to glucose, lactate, and fatty acids, which can then be oxidized in extrasplanchnic organs and tissues. There is growing evidence that splanchnic lactate production, linked to extrasplanchnic lactate metabolism, represents a major fructose disposal pathway during and after exercise. Chronic excess fructose intake can be directly responsible for an increase in intrahepatic fat concentration and for the development of hepatic, but not muscle insulin resistance. Although it has long been thought that fructose was exclusively metabolized in splanchnic organs, several recent reports provide indirect that some fructose may also be metabolized in extrasplanchnic cells, such as adipocytes, muscle, or brain cells; the quantity of fructose directly metabolized in extrasplanchnic cells, and its physiological consequences, remain however unknown. There is also growing evidence that endogenous fructose production from glucose occurs in humans and may have important physiological functions, but may also be associated with adverse health effects.
Fructose is a physiological nutrient which, when consumed in excess, may have adverse metabolic effects, mainly in the liver (hepatic insulin resistance and fat storage). There is also concern that exogenous or endogenously produced fructose may be directly metabolized in extrasplanchnic cells in which it may exert adverse metabolic effects.
人们越来越担心饮食中的果糖可能会导致非传染性疾病的发生。本篇综述确定了与果糖的生理或不良反应相关的主要新发现。
果糖主要在肠内器官(肠道、肝脏、肾脏)中被加工为葡萄糖、乳酸和脂肪酸,然后这些物质可以在肠外器官和组织中被氧化。越来越多的证据表明,与肠外乳酸代谢有关的内脏乳酸生成代表了运动期间和运动后的果糖主要处理途径。慢性过量摄入果糖可直接导致肝内脂肪浓度增加,并导致肝胰岛素抵抗,但不会导致肌肉胰岛素抵抗。尽管长期以来人们一直认为果糖仅在肠内器官中代谢,但最近的几项研究报告提供了间接证据,表明一些果糖也可能在肠外细胞(如脂肪细胞、肌肉或脑细胞)中代谢;然而,目前仍不清楚肠外细胞中直接代谢的果糖数量及其生理后果。越来越多的证据表明,葡萄糖在人体内也会产生内源性果糖,这可能具有重要的生理功能,但也可能与不良健康影响有关。
果糖是一种生理营养素,过量摄入可能会产生不良的代谢影响,主要是在肝脏(肝胰岛素抵抗和脂肪储存)中。此外,还担心外源性或内源性产生的果糖可能会直接在肠外细胞中代谢,从而在这些细胞中产生不良的代谢影响。
