Dinauer M C, Orkin S H, Brown R, Jesaitis A J, Parkos C A
Nature. 1987;327(6124):717-20. doi: 10.1038/327717a0.
The bacteriocidal capacity of phagocytic cells is impaired in X-linked chronic granulomatous disease (X-CGD), a disorder characterized by the absence of functional plasma-membrane-associated NADPH oxidase. The components of this oxidase system, their correspondence with specific genetic loci, and the primary protein defect in X-CGD remain incompletely defined. We recently reported cloning of the putative X-CGD gene on the basis of DNA linkage. To identify the predicted protein in vivo, antibodies were raised to a synthetic peptide derived from the complementary DNA sequence and to a fusion protein produced in Escherichia coli. In Western blots antisera detect a neutrophil protein of relative molecular mass in 90,000 (90K) that is absent in X-CGD patients. Antisera also react with the larger component of cytochrome b recently purified from neutrophil plasma membranes as a complex of glycosylated 90K and non-glycosylated 22K polypeptides. Based on our identification of the X-CGD protein in vivo, we propose that one of its critical roles is to interact with the 22K species to form a functional cytochrome b complex.
在X连锁慢性肉芽肿病(X-CGD)中,吞噬细胞的杀菌能力受损,该病的特征是缺乏功能性的与质膜相关的NADPH氧化酶。这种氧化酶系统的组成成分、它们与特定基因位点的对应关系以及X-CGD中的主要蛋白质缺陷仍未完全明确。我们最近报道了基于DNA连锁克隆推定的X-CGD基因。为了在体内鉴定预测的蛋白质,制备了针对源自互补DNA序列的合成肽和在大肠杆菌中产生的融合蛋白的抗体。在蛋白质印迹中,抗血清检测到相对分子质量为90,000(90K)的中性粒细胞蛋白,而X-CGD患者中不存在该蛋白。抗血清还与最近从中性粒细胞质膜纯化的细胞色素b的较大成分发生反应,该成分是糖基化的90K和非糖基化的22K多肽的复合物。基于我们在体内对X-CGD蛋白的鉴定,我们提出其关键作用之一是与22K成分相互作用以形成功能性细胞色素b复合物。
