Becker E L, Sigman M, Oliver J M
Am J Pathol. 1979 Apr;95(1):81-97.
increased 0(2) consumption, activation of the hexose mono-phosphate shunt, and increased production of superoxide (0(2) (-)) and H(2)0(2). They do soalone but to a much greater extent when in the presence of cytochalasin B. Superoxidegeneration by the chemotactic peptides in the presence of cytochalasin B shows thesame relationship of structure to activity as does the stimulation of chemokinesis andchemotaxis, granule enzyme secretion, and neutrophil aggregation by these sameagents. Carbobenzoxy-phenylalanyl-methionine, CBZ-Phe-Met, competitively inhibitsthe induced stimulation of locomotion, granule enzyme secretion, and neutrophilaggregation caused by the synthetic peptides. It also is a competitive inhibitor of O(2) (-) generation by the same peptides. The structure-activity and the competitive inhibitor studies lead to the conclusion that in polymorphonuclear leukocytes the chemotactic peptides induce superoxide formation and presumably the other manifestations of the respiratory burst by interacting with the same membrane receptor responsible for the stimulation of chemokinesis, chemotaxis, granule enzyme secretion, and neutrophil aggregation. The effectiveness of formyl-methionyl-leucyl-phenylalanine, F-Met-Leu-Phe, in generating 0(2) (-) is greatly reduced but not abolished by removing calcium from the external medium. The calcium ionophore A23187 induces 0(2) (-) generation that requires external calcium and is greatly enhanced by cytochalasin B. From these findings we hypothesize that the proximate cause of the induction of 0(2) (-) formation and other manifestations of the respiratory burst by the chemotactic peptides is the influx into the neutrophil of Ca(2+) and/or possibly Na(+) previously shown to be induced by the peptides.
氧气消耗增加、己糖磷酸支路激活、超氧化物(O₂⁻)和过氧化氢(H₂O₂)生成增加。它们单独就能引发这些反应,但在细胞松弛素B存在时作用程度会大得多。趋化肽在细胞松弛素B存在时产生超氧化物的情况,与这些物质对趋化作用、趋化运动、颗粒酶分泌及中性粒细胞聚集的刺激作用呈现相同的结构 - 活性关系。苄氧羰基 - 苯丙氨酰 - 甲硫氨酸(CBZ - Phe - Met)可竞争性抑制合成肽诱导的运动刺激、颗粒酶分泌及中性粒细胞聚集。它也是相同肽诱导产生O₂⁻的竞争性抑制剂。结构 - 活性及竞争性抑制剂研究得出结论:在多形核白细胞中,趋化肽通过与负责刺激趋化作用、趋化运动、颗粒酶分泌及中性粒细胞聚集的同一膜受体相互作用,诱导超氧化物形成以及推测的呼吸爆发的其他表现。从外部培养基中去除钙后,甲酰甲硫氨酰 - 亮氨酰 - 苯丙氨酸(F - Met - Leu - Phe)产生O₂⁻的能力大幅降低但并未完全消除。钙离子载体A23187诱导产生O₂⁻需要外部钙,且在细胞松弛素B存在时会大大增强。基于这些发现,我们推测趋化肽诱导O₂⁻形成及呼吸爆发其他表现的直接原因是先前已证明由肽诱导的Ca²⁺和/或可能的Na⁺流入中性粒细胞。