Doussiere J, Poinas A, Blais C, Vignais P V
Laboratoire de Biochimie et Biophysique des Systèmes Intégrés (UMR 314 CEA/CNRS), Département de Biologie Moléculaire et Structurale, CEA/Grenoble, France.
Eur J Biochem. 1998 Feb 1;251(3):649-58. doi: 10.1046/j.1432-1327.1998.2510649.x.
Plasma membranes of neutrophil cells contain the redox component of the O2(-)-generating NADPH oxidase complex, namely a heterodimeric flavocytochrome b consisting of an alpha subunit of 22 kDa and a beta subunit of 85-105 kDa of a glycoprotein nature. The NADPH oxidase is dormant in resting neutrophils. When neutrophils are exposed to a variety of particulate or soluble stimuli, the oxidase becomes activated, due to the assembly on the membrane-bound flavocytochrome b of three cytosolic factors, p47phox, p67phox and Rac 2 (or Rac 1). The effect of phenylarsine oxide (PAO), which reacts specifically with vicinal and neighbouring thiol groups in proteins, was assayed on the NADPH oxidase activity of bovine neutrophils, elicited after activation of the oxidase in a cell-free system consisting of plasma membranes and cytosol from resting neutrophils, GTP[S], ATP and arachidonic acid; the effect of PAO on the oxidase activation itself was measured independently. PAO preferentially inhibited oxidase activation rather than the elicited oxidase activity, and inhibition resulted from binding of PAO to the membrane component of the cell-free system. To determine the PAO-binding protein responsible for the loss of oxidase activation, we used photoaffinity labeling with a tritiated azido derivative of PAO, 4-[N-(4-azido-2-nitrophenyl)amino-[3H]acetamido]phenylarsine oxide, ([3H]azido-PAO). Photoirradiation of plasma membranes from resting neutrophils in the presence of [3H]azido-PAO resulted in the prominent labeling of a protein of 85-105 kDa whose migration on SDS/PAGE coincided with that of the beta subunit of flavocytochrome b as identified by immunoreaction. Upon deglycosylation, the photolabeled band at 85-105 kDa was shifted to 50-60 kDa as was the immunodetected beta subunit. Similar results were obtained with isolated flavocytochrome b in liposomes. Photoaffinity labeling of the beta subunit of the membrane-bound flavocytochrome b or the isolated flavocytochrome b in liposomes resulted in abolition of oxidase activation in the reconstituted cell-free system. Incorporation of [3H]azido-PAO into flavocytochrome b was negligible when photoaffinity labeling was performed on neutrophil membranes that had been previously activated. The results suggest that the beta subunit of flavocytochrome contains two target sites for PAO which are accessible in resting neutrophils, but not in activated neutrophils.
中性粒细胞的质膜含有产生超氧阴离子(O₂⁻)的NADPH氧化酶复合物的氧化还原成分,即一种异二聚体黄素细胞色素b,由一个22 kDa的α亚基和一个85 - 105 kDa的糖蛋白性质的β亚基组成。NADPH氧化酶在静息中性粒细胞中处于休眠状态。当中性粒细胞暴露于各种颗粒性或可溶性刺激物时,由于三种胞质因子p47phox、p67phox和Rac 2(或Rac 1)在膜结合的黄素细胞色素b上组装,氧化酶被激活。在一个由静息中性粒细胞的质膜和胞质溶胶、GTP[S]、ATP和花生四烯酸组成的无细胞系统中,氧化酶被激活后,检测了苯胂酸氧化物(PAO)对牛中性粒细胞NADPH氧化酶活性的影响,PAO能特异性地与蛋白质中的邻位和相邻巯基反应;同时独立测量了PAO对氧化酶激活本身的影响。PAO优先抑制氧化酶激活而非诱导的氧化酶活性,这种抑制是由于PAO与无细胞系统的膜成分结合所致。为了确定导致氧化酶激活丧失的PAO结合蛋白,我们使用了PAO的氚化叠氮衍生物4 - [N - (4 - 叠氮 - 2 - 硝基苯基)氨基 - [³H]乙酰氨基]苯胂酸氧化物([³H]叠氮 - PAO)进行光亲和标记。在[³H]叠氮 - PAO存在的情况下,对静息中性粒细胞的质膜进行光照射,导致一种85 - 105 kDa的蛋白质显著标记,其在SDS/PAGE上的迁移与通过免疫反应鉴定的黄素细胞色素b的β亚基一致。去糖基化后,85 - 105 kDa处的光标记条带与免疫检测到的β亚基一样,迁移到了50 - 60 kDa。在脂质体中分离的黄素细胞色素b也得到了类似的结果。对膜结合的黄素细胞色素b的β亚基或脂质体中分离的黄素细胞色素b进行光亲和标记,导致重组无细胞系统中的氧化酶激活被消除。当对先前已激活的中性粒细胞膜进行光亲和标记时,[³H]叠氮 - PAO掺入黄素细胞色素b的量可以忽略不计。结果表明,黄素细胞色素的β亚基含有两个PAO的靶位点,在静息中性粒细胞中可及,但在激活的中性粒细胞中不可及。
