SCREENING OF RESISTANT TRIACYLGLYCEROLS TO THE PANCREATIC LIPASE AND THEIR POTENTIALITIES AS A DIGESTIVE RETARDANT

Journal of Food Lipids Pub Date : 2009-02-19 DOI:10.1111/j.1745-4522.2009.01133.x

TOSHIHARU ARISHIMA, NOBUHIKO TACHIBANA, MAKIKO KOJIMA, KIYOHARU TAKAMATSU, KATSUMI IMAIZUMI

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引用次数: 16

Abstract

ABSTRACT

A gradual retarding of lipid digestion and absorption might contribute to preventing the visceral fat accumulation and obesity in humans. The lipolysis rates of different triacylglycerols (TAGs) by pancreatic lipase in vitro were studied in order to find suitable components as a retardant for lipolysis. Several TAGs containing longer acyl chains than stearic acid or containing unsaturated fatty acids whose double bonds are located closely to the carboxyl group like petroserinic and γ-linolenic acid showed significantly lower lipolysis rates as compared with triolein (OOO) control. Most of these resistant TAGs contributed to decelerating the lipolysis rate when replaced at 10% into the OOO control. Especially, 1-behenoyl-2,3-dioleoyl-rac-glycerol (BOO) was comprehensively thought to be a suitable TAG as a digestive retardant among them. Each 10% replacement of edible oils by BOO gave 15% to 30% reduction of the lipolysis rate in vitro. Resistant TAGs that are able to melt or solubilize into liquid oil at body temperature have some potential as a digestive retardant for lipids.

PRACTICAL APPLICATIONS

Visceral fat accumulation and obesity in humans are thought to be correlated with the rate of lipid digestion and absorption. The entire rate of lipid absorption is controlled by their partial replacement with some digestive retardant. Resistant triacylglycerols may have some potential as a digestive retardant of lipids. Results of the present study propose a new fat system for foods with antiobesity effect.

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耐胰脂肪酶三酰基甘油的筛选及其作为消化抑制剂的潜力

逐渐延缓脂质消化和吸收可能有助于防止人类内脏脂肪堆积和肥胖。研究了胰脂肪酶对三酰甘油(TAGs)的体外脂解速率，以寻找合适的脂解抑制剂。一些含有比硬脂酸更长的酰基链的标签或含有双键靠近羧基的不饱和脂肪酸的标签，如石油丝氨酸和γ-亚麻酸，与三油酸(OOO)对照相比，其脂解率显著降低。当将这些耐药标签替换为10%的OOO对照时，大多数耐药标签有助于减慢脂肪分解速率。其中，1-苯乙烯基-2,3-二聚乙二醇-丙三醇(BOO)被广泛认为是一种较适合作为消化阻燃剂的TAG。每用BOO替代10%的食用油，体外脂肪分解率降低15%至30%。耐药标签能够在体温下融化或溶解到液体油中，具有作为脂类消化阻燃剂的潜力。人类内脏脂肪的积累和肥胖被认为与脂质消化和吸收的速度有关。脂质吸收的总速率是由它们的部分替代来控制的。耐腐蚀的三酰甘油可能有作为脂类消化阻燃剂的潜力。本研究结果为具有抗肥胖作用的食品提出了一种新的脂肪系统。

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Journal of Food Lipids 工程技术-食品科技

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