Tan A S, Berridge M V
Malaghan Institute of Medical Research, Wellington School of Medicine, P.O. Box 7060, Wellington South, New Zealand.
J Immunol Methods. 2000 Apr 21;238(1-2):59-68. doi: 10.1016/s0022-1759(00)00156-3.
Activation of the respiratory burst of granulocytes and macrophages by invading microorganisms is a key first line cellular defence against infection. Failure to generate this response leads to persistent life-threatening infection unless appropriate antibiotic treatment is given. The respiratory burst of neutrophils is usually measured spectrophotometrically by following ferricytochrome c reduction, and histologically by using the tetrazolium salt, nitroblue tetrazolium, which is reduced intracellularly to an insoluble formazan. In both assays, reduction is mediated by superoxide generated via NADPH oxidase. Because ferricytochrome c has a high molecular mass and high background absorbance at 550 nm, the assay lacks sensitivity and is not ideally suited to microplate measurement. We have circumvented these limitations by using the cell-impermeable, sulfonated tetrazolium salt, WST-1, which exhibits very low background absorbance and is efficiently reduced by superoxide to a stable water-soluble formazan with high molar absorptivity. This has permitted adaptation of the WST-1 assay to microplate format while retaining sensitivity. Reduction of WST-1 by activated human peripheral blood neutrophils correlated closely with ferricytochrome c reduction across a range of PMA concentrations and with time of activation by PMA and fMLP. Reduction of WST-1 was inhibited by 98% by superoxide dismutase (20 microg/ml) and by 88% by the NADPH oxidase inhibitor, diphenyleneiodinium (10 microM) but was resistant to catalase, azide and the NADH oxidase inhibitor, resiniferatoxin. WST-1 and ferricytochrome c reduction were also compared using xanthine/xanthine oxidase to generate superoxide. Under optimised assay conditions, both WST-1 and ferricytochrome c reduction were directly proportional to added xanthine. WST-1 generated approximately 2-fold greater increase in absorbance than ferricytochrome c at their respective wavelengths, and this translated into increased assay sensitivity. Addition of the intermediate electron acceptor, 1-methoxy phenazine methosulfate, increased the background of the neutrophil assay but did not affect the overall magnitude of the response. We have used the WST-1 assay to assess human neutrophil dysfunction and to compare anti-inflammatory activity.
入侵微生物激活粒细胞和巨噬细胞的呼吸爆发是抵御感染的关键一线细胞防御机制。若无法产生这种反应,除非给予适当的抗生素治疗,否则会导致危及生命的持续性感染。中性粒细胞的呼吸爆发通常通过分光光度法跟踪铁细胞色素c的还原进行测量,组织学上则使用四氮唑盐硝基蓝四氮唑,它在细胞内被还原为不溶性的甲臜。在这两种测定中,还原均由通过NADPH氧化酶产生的超氧化物介导。由于铁细胞色素c具有高分子量且在550nm处背景吸光度高,该测定缺乏灵敏度,不太适合微孔板测量。我们通过使用细胞不可渗透的磺化四氮唑盐WST-1克服了这些限制,WST-1背景吸光度极低,能被超氧化物高效还原为具有高摩尔吸光率的稳定水溶性甲臜。这使得WST-1测定能够适应微孔板形式,同时保持灵敏度。在一系列佛波酯(PMA)浓度范围内,活化的人外周血中性粒细胞对WST-1的还原与铁细胞色素c的还原密切相关,且与PMA和N-甲酰甲硫氨酸-亮氨酸-苯丙氨酸(fMLP)的激活时间相关。超氧化物歧化酶(20μg/ml)可使WST-1的还原受到98%的抑制,NADPH氧化酶抑制剂二亚苯基碘鎓(10μM)可使其受到88%的抑制,但它对过氧化氢酶、叠氮化物和NADH氧化酶抑制剂树脂毒素具有抗性。还使用黄嘌呤/黄嘌呤氧化酶产生超氧化物来比较WST-1和铁细胞色素c的还原。在优化的测定条件下,WST-1和铁细胞色素c的还原均与添加的黄嘌呤成正比。在各自波长下,WST-1产生的吸光度增加约为铁细胞色素c的2倍,这转化为测定灵敏度的提高。添加中间电子受体1-甲氧基吩嗪硫酸甲酯会增加中性粒细胞测定的背景,但不影响反应的总体幅度。我们已使用WST-1测定来评估人类中性粒细胞功能障碍并比较抗炎活性。
