Abstract
Reactive oxygen intermediate (ROI) production and the development of the intracellular (IC) Ca2+ ([Ca2+]i) signal by formyl-Met-Leu-Phe (fMLP) stimuli were investigated in neutrophils. When the concentration was varied between 2.3 nM-2.3 microM, ROI production and the [Ca2+]i signal showed different fMLP concentration dependencies. ROI production increased continuously with increasing fMLP concentrations, while the [Ca2+]i signal responses reached a plateau around 230 nM fMLP. Moreover, when a consecutive, 2.3 microM fMLP stimulus was applied 10 min after the first fMLP stimulus, the intensity of the ROI production and that of the [Ca2+]i signal showed a variable dependence on the fMLP concentration of the first stimulus. An initial fMLP dose of 2.3 nM and 23 nM sensitized the cells regarding their ROI production and [Ca2+]i signals. After a first fMLP stimulus of 230 nM, the second stimulus produced an increased [Ca2+]i signal, while no ROI production could be activated. A strong fMLP stimulus of 2.3 microM desensitized the cells regarding both [Ca2+]i signal and ROI production. However, even in these desensitized cells, a high level of ROI production could be evoked by other stimuli like PMA or opsonized zymosan. The differences observed between the fMLP concentration dependence of ROI production and the [Ca2+]i signal strongly suggest that these two phenomena are not interrelated.
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