Lin Shio-Jean, Huang Ya-Fang, Chen Jing-Yi, Heyworth Paul G, Noack Deborah, Wang Ji-Yao, Lin Ching-Yuan, Chiang Bor-Luen, Yang Chin-Mu, Liu Ching-Chuan, Shieh Chi-Chang
Department of Pediatrics, National Cheng-Kung University, 138 Sheng-Li Rd, Tainan 704, Taiwan.
Biochim Biophys Acta. 2002 Apr 24;1586(3):275-86. doi: 10.1016/s0925-4439(01)00106-5.
Chronic granulomatous disease (CGD) is an inherited immunodeficiency disease caused by defects in leukocyte NADPH oxidase. Various inherited defects in one of the membrane-bound components of NADPH oxidase, gp91-phox, cause X-linked (X91) CGD. Analysis of three patients with X91 CGD revealed that different mechanisms of molecular quality control lead to the common phenotype of absence of mature membrane-bound NADPH oxidase complex in leukocytes. In the first patient, aberrant intron splicing created a premature stop codon. However, the mutant mRNA was degraded prematurely, which prevented the production of truncated protein. In the second patient, a frameshift mutation with the potential to generate a gp91-phox polypeptide, with an aberrant and elongated C-terminus, led to barely detectable levels of gp91-phox, even though the reported functional domains of the protein appeared unaffected. In the third patient, a point mutation created a single amino acid change in the predicted FAD-binding site of gp91-phox. Although gp91-phox was detectable with Western blotting, no cytochrome b(558) was expressed on the cell surface. These analyses showed that molecular quality control machinery plays an important role in the pathogenesis of CGD, not only in the X910 but also in the X91- form of this X-linked disease.
慢性肉芽肿病(CGD)是一种由白细胞NADPH氧化酶缺陷引起的遗传性免疫缺陷病。NADPH氧化酶的膜结合成分之一gp91 - phox的各种遗传性缺陷导致X连锁(X91)CGD。对三名X91 CGD患者的分析表明,不同的分子质量控制机制导致白细胞中缺乏成熟膜结合NADPH氧化酶复合物这一共同表型。在第一名患者中,异常的内含子剪接产生了一个提前的终止密码子。然而,突变的mRNA被过早降解,这阻止了截短蛋白的产生。在第二名患者中,一个有可能产生具有异常且延长C末端的gp91 - phox多肽的移码突变,导致gp91 - phox水平几乎检测不到,尽管该蛋白的报道功能域似乎未受影响。在第三名患者中,一个点突变在gp91 - phox预测的FAD结合位点产生了单个氨基酸变化。尽管用蛋白质印迹法可检测到gp91 - phox,但细胞表面未表达细胞色素b(558)。这些分析表明,分子质量控制机制在CGD的发病机制中起重要作用,不仅在这种X连锁疾病的X910型中,而且在X91 - 型中也是如此。
