Nanda A, Curnutte J T, Grinstein S
Division of Cell Biology, Hospital for Sick Children, Toronto, Canada.
J Clin Invest. 1994 Apr;93(4):1770-5. doi: 10.1172/JCI117162.
In phagocytes, superoxide generation by the NADPH oxidase is accompanied by metabolic acid production. Cytoplasmic acidification during this metabolic burst is prevented by a combination of H+ extrusion mechanisms, including a unique H+ conductance. NADPH oxidase is deficient in chronic granulomatous disease (CGD) patients. The burst of acid production is absent in CGD patients lacking the 47-kD (p47-phox) or the 91-kD (gp91-phox) subunits of the oxidase. Activation of the H+ conductance is also defective in these patients suggesting that (a) the oxidase itself undertakes H+ translocation or (b) oxidase assembly is required to stimulate a separate H+ conducting entity. To discern between these possibilities, three rare forms of CGD were studied. In neutrophils expressing nonfunctional cytochrome b, the conductance was activated to near-normal levels, implying that functional oxidase is not required to activate H+ extrusion. CGD cells expressing diminished amounts of cytochrome displayed H+ conductance approaching normal levels, suggesting that the oxidase itself does not translocate H+. Finally, the conductance was only partially inhibited in patients lacking the 67-kD subunit, indicating that this component is not essential for stimulation of H+ transport. We propose that normal assembly of the oxidase subunits is required for optimal activation of a closely associated but distinct H+ conducting entity.
在吞噬细胞中,NADPH氧化酶产生超氧化物的同时伴随着代谢性产酸。在这个代谢爆发过程中,细胞质酸化通过多种H⁺ 排出机制得以防止,其中包括一种独特的H⁺ 电导。NADPH氧化酶在慢性肉芽肿病(CGD)患者中存在缺陷。缺乏氧化酶47-kD(p47-phox)或91-kD(gp91-phox)亚基的CGD患者不会出现产酸爆发。这些患者中H⁺ 电导的激活也存在缺陷,这表明:(a)氧化酶本身承担H⁺ 转运,或者(b)氧化酶组装是刺激一个独立的H⁺ 传导实体所必需的。为了区分这些可能性,对三种罕见形式的CGD进行了研究。在表达无功能细胞色素b的中性粒细胞中,电导被激活至接近正常水平,这意味着激活H⁺ 排出不需要功能性氧化酶。表达减少量细胞色素的CGD细胞显示H⁺ 电导接近正常水平,这表明氧化酶本身不会转运H⁺。最后,在缺乏67-kD亚基的患者中,电导仅被部分抑制,这表明该成分对于刺激H⁺ 转运并非必不可少。我们提出,氧化酶亚基的正常组装是紧密相关但又不同的H⁺ 传导实体最佳激活所必需的。