Innis S M, Clandinin M T
Biochem J. 1981 Jul 15;198(1):167-75. doi: 10.1042/bj1980167.
A longitudinal cross-over feeding design was used to investigate the relationship of dietary lipid composition to the membrane lipid environment and activity of mitochondrial ATPase in vivo. Rats were fed a polyunsaturated fatty-acid-rich oil (soya-bean oil) for 12 days, crossed-over to a monounsaturated fatty-acid-rich oil (rapeseed oil) for the next 11 days, then returned to soya-bean oil for 11 more days. Additional rats were fed either soya-bean oil or rapeseed oil throughout. Rats fed rapeseed oil had lower rates of ATPase-catalysed ATP/[32P]Pi exchange than rats fed soya-bean oil. Arrhenius plots showed higher transition temperature (Tt) and activation energy (Ea) for rats fed rapeseed oil. Switching from soya-bean oil to rapeseed oil was dynamically followed by changes in the thermotropic and kinetic properties of the mitochondrial ATPase exchange reaction. Returning to soya-bean oil reversed these changes. The rapid and reversible modulation of Tt caused by a change of the type of fat ingested suggests that membrane physicochemical properties are not under rigid intrinsic control but are continually modified by the profile of exogenously derived fatty acids. The studies suggest that in vivo the activity of mitochondrial ATPase is in part determined by dietary lipid via its influence on the microenvironment of the enzyme. The rapidity and ready reversibility of changes observed for this subcellular-membrane-bound enzyme suggest that dietary fatty-acid balance may be an important determinant of other membrane functions in the body.
采用纵向交叉喂养设计,以研究饮食中脂质组成与体内线粒体ATP酶的膜脂质环境及活性之间的关系。给大鼠喂食富含多不饱和脂肪酸的油(大豆油)12天,接着在接下来的11天改喂富含单不饱和脂肪酸的油(菜籽油),然后再换回大豆油继续喂养11天。另外一些大鼠则全程喂食大豆油或菜籽油。喂食菜籽油的大鼠,其ATP酶催化的ATP/[32P]Pi交换速率低于喂食大豆油的大鼠。阿累尼乌斯曲线表明,喂食菜籽油的大鼠具有更高的转变温度(Tt)和活化能(Ea)。从大豆油转换为菜籽油后,线粒体ATP酶交换反应的热致性和动力学性质随即发生变化。换回大豆油后,这些变化发生逆转。因摄入脂肪类型改变而导致的Tt快速且可逆的调节表明,膜的物理化学性质并非受到严格的内在控制,而是不断地被外源脂肪酸的组成所改变。这些研究表明,在体内,线粒体ATP酶的活性部分由饮食中的脂质通过其对酶微环境的影响所决定。对于这种亚细胞膜结合酶所观察到的变化的快速性和易于逆转性表明,饮食脂肪酸平衡可能是体内其他膜功能的一个重要决定因素。