Chuang T H, Xu X, Knaus U G, Hart M J, Bokoch G M
Department of Immunology, Scripps Research Institute, La Jolla, California 92037.
J Biol Chem. 1993 Jan 15;268(2):775-8.
The majority of the GTP-binding proteins of the Ras superfamily hydrolyze GTP to GDP very slowly. A notable exception to this are the Rac proteins, which have intrinsic GTPase rates at least 50-fold those of Ras or Rho. A protein (or proteins) capable of inhibiting this GTPase activity exists in human neutrophil cytosol. Since Rac appears to exist normally in neutrophils as a cytosolic protein complexed to (Rho)GDI, we examined the ability of (Rho)GDI to inhibit GTP hydrolysis by Rac. (Rho)GDI produced a concentration-dependent inhibition of GTP hydrolysis by Rac1 that paralleled its ability to inhibit GDP dissociation from the Rac protein. Maximal inhibition occurred at or near equimolar concentrations of the GDI and the Rac substrate. The ability of two molecules exhibiting GTPase activating protein (GAP) activity toward Rac to stimulate GTP hydrolysis was also inhibited by the presence of (Rho)GDI. The inhibitory effect of the GDI could be overcome by increasing the GAP concentration to levels equal to that of the GDI. (Rho)GDI weakly, but consistently, inhibited GTP gamma S (guanosine 5'-3-O-(thio)triphosphate) dissociation from Rac1, confirming an interaction of (Rho)GDI with the GTP-bound form of the protein. These data describe an additional activity of (Rho)GDI and suggest a mechanism by which Rac might be maintained in an active form in vivo in the presence of regulatory GAPs.
Ras超家族的大多数GTP结合蛋白将GTP水解为GDP的速度非常缓慢。Rac蛋白是一个显著的例外,其内在的GTP酶活性速率至少是Ras或Rho的50倍。人中性粒细胞胞质溶胶中存在一种能够抑制这种GTP酶活性的蛋白质。由于Rac在中性粒细胞中似乎通常以与(Rho)GDI复合的胞质蛋白形式存在,我们研究了(Rho)GDI抑制Rac水解GTP的能力。(Rho)GDI对Rac1的GTP水解产生浓度依赖性抑制,这与其抑制GDP从Rac蛋白上解离的能力平行。在GDI和Rac底物等摩尔浓度或接近等摩尔浓度时出现最大抑制。两种对Rac表现出GTP酶激活蛋白(GAP)活性的分子刺激GTP水解的能力也受到(Rho)GDI的抑制。增加GAP浓度至与GDI相等的水平可以克服GDI的抑制作用。(Rho)GDI对Rac1上GTPγS(鸟苷5'-3-O-(硫代)三磷酸)的解离有微弱但持续的抑制作用,证实了(Rho)GDI与该蛋白的GTP结合形式之间存在相互作用。这些数据描述了(Rho)GDI的另一种活性,并提出了一种在体内存在调节性GAP的情况下Rac可能维持在活性形式的机制。
