Biochemical analysis of the activation of adherent neutrophils in vitro

The role played by neutrophil oxidative responses in host defense and injury is an area of active investigation. In order to study neutrophil responses in vitro, methods are required for cell purification, enumeration, and quantification of activation responses, which mimic the in vivo situation as closely as possible. In this communication (and its companion paper, Albertine et al., (1988)) improved methods for all of these tasks are described and applied to investigate neutrophil structure-function relationships in vitro and in vivo. Human neutrophils were purified by using a series of platelet-poor plasma-Percoll ™ gradients (51, 62, 76 and 80% in Percoll ™). This modification of previously published procedures results in consistently successful neutrophil purification and has allowed us to purify neutrophils from bronchoalveolar lavage fluid as well as blood. Activation of human and sheep neutrophils (superoxide anion production) was quantitated by the reduction of ferricytochrome c using a microtiter plate reader to measure the increase in absorbance at 550 nm from adherent neutrophils. Adherence of neutrophils was quantitated by measurement of LDH in cells lysed with Triton X-100 ™ using a new method which uses readily available commercial reagents and can quantitate the LDH content of as few as 5000 neutrophils (or the LDH released from 5% of 100,000 neutrophils). Assay conditions for superoxide anion were optimized, limitations both in assay design and instruments used to measure OD were explored and enumerated, and these methods were used to quantitate sheep and human neutrophil activation responses. Using methods described in Albertine et al. (1988) for fixing neutrophils in microtiter wells after assay of their functional capacity, we have studied the same cells functionally and morphologically. We have used these techniques to study blood and alveolar neutrophils from a patient with acute respiratory failure. His alveolar neutrophils displayed 67% of the activation response as peripheral neutrophils (4.31 ± 0.12 nmol superoxide released per 250,000 neutrophils at 60 min vs. 6.38 ± 0.18 in blood, P < 0.01) and structural changes which suggested previous activation in vivo. These studies demonstrate that similar morphological changes are observed in neutrophils activated with phorbol myristate acetate in vitro, as are observed in cells which have been activated by pathophysiologic processes in vivo.