Luminol-dependent photoemission from single neutrophil stimulated by phorbol ester and calcium ionophore--role of degranulation and myeloperoxidase.

Luminol-dependent photonic burst from phorbol ester-treated single neutrophil was visually investigated by using an ultrasensitive photonic image intensifier microscope. Neutrophils stimulated by phorbol myristate acetate (0.1 microgram/ml) alone produced a negligible level of photonic activities in the presence of luminol (10 micrograms/ml). The additional application of 0.1 microM Ca2+ ionophore A23187 induced explosive changes of photonic burst corresponding to the distribution of neutrophils, and these photonic activities were gradually spread to extracellular space. Sodium azide, which prevents myeloperoxidase activity, inhibited Ca2+ ionophore-induced photonic burst from phorbol ester-treated neutrophil. These findings suggest a prerequisite role of degranulation and myeloperoxidase release in luminol-dependent photoemission from stimulated neutrophils.

Platelet-activating factor (PAF-acether) induced leukotriene C4 formation and luminol dependent chemiluminescence by human eosinophils.

Human eosinophils are capable of synthesizing almost exclusively the strongly spasmogenic compound LTC4 when stimulated with either the calcium ionophore A 23187 or opsonized zymosan (OZ). Although PAF-acether in concentrations ranging from 10 nM to 1 microM is hardly capable of inducing significant LTC4 synthesis itself, it significantly enhances the OZ-induced LTC4 formation at a concentration of 1 microM. However, at a concentration of 10 microM, PAF-acether itself is capable of inducing LTC4 formation comparable with that induced by OZ. PAF-acether, at a concentration of 10 microM (and not at a concentration of 1 microM) is also capable of inducing a luminol dependent chemiluminescent response by eosinophils. The PAF-acether antagonist BN 52021 at a concentration of 0.1 mM not only partially inhibited the PAF-acether induced LTC4 formation but also the OZ induced LTC4 formation. Since an equal inhibition is found the inhibitory mode of action of BN 52021 is most likely directed towards a common pathway. Taken together, these results suggest that eosinophils may be triggered by high locally reached concentrations of PAF-acether to release inflammatory and bronchoconstrictive mediators. This may be of importance for the pathogenesis of the allergen induced late phase asthmatic reaction.

Inhibition by nonsteroidal antiinflammatory drugs of luminol-dependent human-granulocyte chemiluminescence and [3H]FMLP binding. Effect of sulindac sulfide, indomethacin metabolite, and optical enantiomers (+) and (-) MK830.

A system is described to evaluate for nonsteroidal antiinflammatory drugs by means of luminol-dependent human-granulocyte chemiluminescence (CL) is described. The CL is produced using either opsonized zymosan (yeast cells) or the soluble chemotactic peptide f-Met-Leu-Phe as the perturbant of the granulocyte membrane. Using either system, the following drug effects 2 x 10(-5) M were noted: only sulindac sulfide, and not sulindac sulfone or sulindac, displayed marked inhibition of chemiluminescence, following the in vivo data regarding inflammatory effects. The 5-OH indomethacin metabolite was likewise inactive as an inhibitor of CL mirroring in vivo effects. MK(+)410, MK(-)830 and MK835 all showed approximately 50% inhibition of CL, displaying deviation from in vivo data. MK(+)830 markedly stimulated CL, 4-6 times the control (without drug), which is clearly different from its enantiomer, MK(-)830. The reasons for this behavior are unclear. However, receptor binding studies with [3H]FMLP were accomplished in the presence and absence of the various drugs at 2 x 10(-5) M that were effective inhibitors of chemiluminescence (CL). Indomethacin, MK(-)830 and MK(+)410 had equivalent percent control binding and percent control CL. Sulindac sulfide and MK(+)835 both had higher percent control binding than percent control CL, with MK(+)835 displaying apparent increased numbers of available receptors relative to control. MK(+)830, which produces large increases in CL, produced a minor effect on percent control binding. A direct relationship between binding and CL does not exist with each drug. Chemiluminescence is dependent on ion movement and oxidative metabolism and is a secondary event to agonist-receptor occupation.