食物中脂肪的结构和分子组织:对人类消化和同化的可能影响

K. Raynal-Ljutovac, J. Bouvier, Constance Gayet, N. Simon, F. Joffre, F. Fine, J. Vendeuvre, C. Lopez, J. Chardigny, M. Michalski, C. Génot
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引用次数: 20

摘要

从营养学的角度来看,脂质主要被认为是能量的供应者,它们的膳食摄入量必须受到限制。事实上,脂质是各种脂肪酸的来源,饮食建议包括每日所需的不同脂肪酸摄入量(脂肪酸谱)。除了这些定量方面,脂肪酸是大分子的一部分,主要是三酰基甘油(TAG),它们以超分子结构组织,例如脂肪晶体和脂滴。营养研究的最新进展表明,这些结构和食物基质中的脂质组织影响脂肪酸的消化率和代谢。因此,技术网络Listral的成员提出了关于脂质分子和超分子结构对主要食品工业部门的膳食脂肪酸的消化和代谢命运影响的知识的综合。脂肪酸主要以TAG或磷脂(PL)的形式在饲料中提供,它们在甘油主链的外部(sn-1, sn-3)或内部(sn-2)位置酯化。它们也可以在特定配方中以乙酯(EE)的形式存在。脂质分子的这些分子特性影响了它们的水解和吸收率,也影响了它们在不同器官中的代谢,正如经常使用间酯化脂肪来源的研究所评估的那样。结果取决于脂肪酸的类型(饱和脂肪酸或多不饱和脂肪酸),但也取决于用于研究的模型:体外或体内研究;动物模型,新生儿或成人,健康或显示某些疾病。其中,发现脂肪酸谱影响的晶体形态和脂肪熔点,脂质分子结构通过修饰脂溶酶活性直接影响脂肪酸吸收动力学。然而,在这些研究中,脂类的热性质和饱和脂肪酸链sn-2位置的比例的相对影响很难区分。脂质的超分子结构,即脂滴的类型和大小及其界面组成,无论是天然形式还是食品加工后获得的,也会影响脂质的消化和吸收。重点介绍了乳制品、海洋产品、肉类、油料植物和蛋类产品。本文还讨论了这些食物基质中存在的其他营养成分对脂质吸收的影响。
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Organisation structurale et moléculaire des lipides dans les aliments : impacts possibles sur leur digestion et leur assimilation par l’Homme
From the nutrition point of view, lipids are primarily considered as energy suppliers, their dietary intake having to be limited. In fact, lipids are sources of various fatty acids, and dietary recommendations include the required daily intakes in different fatty acids (fatty acid profile). Beyond these quantitative aspects, fatty acids are part of larger molecules, mainly triacylglycerols (TAG), that are organized in supramolecular structures as for example fat crystals and lipid droplets. Recent advances in nutrition research have demonstrated that these structures, and lipid organization in food matrices, influence digestibility and metabolism of fatty acids. Therefore, the members of the technological network Listral propose a synthesis of the knowledge about the influence of molecular and supramolecular structures of lipids on digestion and metabolic fate of dietary fatty acids originating from for the main food industry sectors. Fatty acids are mainly provided in the diet in the form of TAG, or phospholipids (PL) where they are esterified in external (sn-1, sn-3) or internal (sn-2) position of the glycerol backbone. They can also be found as ethyl esters (EE) in specific formulations. These molecular characteristics of the lipid molecules affect their hydrolysis and their absorption rate but also their metabolism in indifferent organs, as assessed in studies often using inter esterified fat sources. The results depend on the types of fatty acids (saturated or polyunsaturated fatty acids) but also on the model used for the studies: in vitro or in vivo studies; animal model, human newborn or adult, either healthy or exhibiting some diseases. Among others, it was found that the crystal form and fat melting point as affected by the fatty acid profiles and the lipid molecular structures directly impact fatty acid absorption kinetics through modifications of lipolytic enzyme activities. However, in these studies, the relative effect of the thermal properties of lipids and the proportion of saturated fatty acids chains in sn-2 position were hardly distinguished. Supramolecular structures, namely type and size of the fat droplets and their interfacial composition, of lipids, either in their native forms or obtained after food processes, also affect the digestibility and absorption of lipids. This aspect is reviewed with specific focus on dairy, marine, meat, oil plant and egg products. The impact of other nutritional components present in these food matrices on the absorption of lipids is also discussed.
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