Garlid K D, Shariat-Madar Z, Nath S, Jezek P
Department of Pharmacology, Medical College of Ohio, Toledo 43699.
J Biol Chem. 1991 Apr 5;266(10):6518-23.
Na+/H+ antiporters play important physiological roles in most biological membranes. Although they were first discovered in mitochondria (Mitchell, P., and Moyle, J. (1969) Eur. J. Biochem. 9, 149-155), the mitochondrial Na+/H+ antiporter has not yet been reconstituted nor has the protein responsible for its activity been identified. We used detergents to extract proteins from beef heart mitochondria and reconstituted these proteins into lipid vesicles loaded with the fluorescent probe, sodium-binding benzofuran isophthalate. The vesicles exhibited spontaneous, electroneutral Na+ transport that was inhibited by Li+ and Mn2+ with appropriate kinetic constants. These protocols were then used to follow fractionation of the solubilized proteins with DEAE-cellulose columns. We obtained a fraction that catalyzed Na+/H+ antiport with Vmax values of 75-120 mumol/mg protein/min, 500-700 times faster than observed in intact mitochondria. Na+ transport was inhibited by Li+ with I50 values of 0.5-1.0 mM and by Mn2+ with I50 value of 0.5 mM. The Km for Na+ was 31 mM. These values correspond to those found in intact mitochondria, and we conclude that the solubilized mitochondrial Na+/H+ antiporter has been partially purified in a reconstitutively active state.
钠氢反向转运体在大多数生物膜中发挥着重要的生理作用。尽管它们最初是在线粒体中被发现的(米切尔,P.,和莫伊尔,J.(1969年)《欧洲生物化学杂志》9卷,第149 - 155页),但线粒体钠氢反向转运体尚未被重组,其活性所对应的蛋白质也未被鉴定出来。我们使用去污剂从牛心线粒体中提取蛋白质,并将这些蛋白质重组到装载有荧光探针——钠结合苯并呋喃间苯二甲酸酯的脂质体中。这些脂质体表现出自发的、电中性的钠转运,该转运被锂离子和锰离子以适当的动力学常数所抑制。然后使用这些方案通过二乙氨基乙基纤维素柱对溶解的蛋白质进行分级分离。我们得到了一个催化钠氢反向转运的级分,其最大反应速率值为75 - 120微摩尔/毫克蛋白质/分钟,比在完整线粒体中观察到的快500 - 700倍。钠转运被锂离子以0.5 - 1.0毫摩尔的半数抑制浓度所抑制,被锰离子以0.5毫摩尔的半数抑制浓度所抑制。钠的米氏常数为31毫摩尔。这些值与在完整线粒体中发现的值相对应,我们得出结论,溶解的线粒体钠氢反向转运体已在重组活性状态下被部分纯化。
