Abumrad N A, Park J H, Park C R
J Biol Chem. 1984 Jul 25;259(14):8945-53.
This study extends our earlier work (Abumrad, N. A., Perkins, R.C., Park, J.H., and Park, C.R. J. Biol. Chem. 256, 9183-9191) which showed that oleate permeates the plasma membrane of the rat adipocyte principally by a transport process with the characteristics of facilitated diffusion. In the present study, fatty acid (FA) transport is characterized with regard to its specificity and susceptibility to inhibition by protein modifiers. The kinetics of competitive inhibition for transport of oleate and stearate are shown under conditions where complications due to competition for binding of FAs to the albumin in the medium are minimized. Stearate inhibits influx of tracer oleate with a Ki that closely approximates its Km and, conversely, oleate inhibits similarly the influx of tracer stearate. Specificity of the FA transport system is shown in studies using a variety of natural FAs of different chain length, or FA analogues. Oleate (Km = 0.06 microM), stearate (Km = 0.16 microM), linoleate (Km = 0.22 microM), palmitate, (Km = 0.2 microM), and laurate (Km = 1.5 microM) are good substrates, but octanoate is not transported. An oxazolidine ring on C-5 but not on C-16 of stearate blocks binding to the transporter. Methylation of the carboxyl function but not alpha-bromination inhibits transport. These studies suggest that a FA must have a hydrocarbon chain of at least nine carbons and a free carboxyl function to be recognized by the transporter. FA transport does not require Na or ATP. Pronase but not trypsin treatment of intact cells reduces fatty acid influx. Transport is insensitive to maleimides. It is strongly and irreversibly blocked by pretreatment of the cells with the stilbene compounds, 4,4'-diisothiocyanostilbene-2,2'-disulfonate and 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid, but only slightly inhibited by dipyridamole. Polyacrylamide gel electrophoresis of plasma membrane proteins from cells treated with [3H] 4,4'-diisothiocyanostilbene-2,2'-disulfonate shows a peak of radioactivity at about Mr = 85,000. When cells are incubated in various concentrations of this agent, the counts recovered in the peak reach a maximum coincident with maximum inhibition of transport. We conclude that permeation of the plasma membrane of the adipocyte by long-chain FAs at physiological concentrations is mediated by a protein transporter with distinct specificity requirements.
本研究扩展了我们早期的工作(阿布姆拉德,N.A.,珀金斯,R.C.,朴,J.H.,和朴,C.R.《生物化学杂志》256,9183 - 9191),该工作表明油酸主要通过具有易化扩散特征的转运过程穿过大鼠脂肪细胞的质膜。在本研究中,对脂肪酸(FA)转运的特异性及其对蛋白质修饰剂抑制的敏感性进行了表征。在使脂肪酸与培养基中白蛋白结合竞争引起的并发症最小化的条件下,展示了油酸和硬脂酸转运的竞争性抑制动力学。硬脂酸以紧密近似其Km的Ki抑制示踪油酸的流入,反之,油酸同样抑制示踪硬脂酸的流入。在使用各种不同链长的天然脂肪酸或脂肪酸类似物的研究中显示了FA转运系统的特异性。油酸(Km = 0.06微摩尔)、硬脂酸(Km = 0.16微摩尔)、亚油酸(Km = 0.22微摩尔)、棕榈酸(Km = 0.2微摩尔)和月桂酸(Km = 1.5微摩尔)是良好的底物,但辛酸不被转运。硬脂酸C - 5而非C - 16上的恶唑烷环阻断与转运体的结合。羧基功能的甲基化而非α - 溴化抑制转运。这些研究表明,脂肪酸必须具有至少九个碳的烃链和游离的羧基功能才能被转运体识别。FA转运不需要钠或ATP。用链霉蛋白酶而非胰蛋白酶处理完整细胞会降低脂肪酸流入。转运对马来酰亚胺不敏感。用芪化合物4,4'-二异硫氰酸芪 - 2,2'-二磺酸盐和4 - 乙酰氨基 - 4'-异硫氰酸芪 - 2,2'-二磺酸预处理细胞会强烈且不可逆地阻断转运,但双嘧达莫仅轻微抑制转运。用[3H]4,4'-二异硫氰酸芪 - 2,2'-二磺酸盐处理的细胞质膜蛋白的聚丙烯酰胺凝胶电泳显示在约Mr = 85,000处有一个放射性峰。当细胞在该试剂的各种浓度下孵育时,峰中回收的计数达到最大值,与转运的最大抑制同时出现。我们得出结论,生理浓度下长链脂肪酸穿过脂肪细胞质膜的渗透是由具有独特特异性要求的蛋白质转运体介导的。
