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  • Title: Direct effects of platelet-activating factor on isolated rat osteoclasts. Rapid elevation of intracellular free calcium and transient retraction of pseudopods.
    Author: Wood DA, Hapak LK, Sims SM, Dixon SJ.
    Journal: J Biol Chem; 1991 Aug 15; 266(23):15369-76. PubMed ID: 1869559.
    Abstract:
    Platelet-activating factor (PAF, 1-O-alkyl-(2R)-acetylglycero-3-phosphocholine) is a potent inflammatory mediator whose actions on bone cells have not been investigated previously. In this study, we examined effects of PAF on osteoclast morphology and intracellular free calcium. Osteoclasts, the large multinucleated cells responsible for bone resorption, were isolated from neonatal rat long bones, and the cytosolic free calcium concentration ([Ca2+]i) of individual fura-2-loaded cells was monitored by microspectrofluorimetry. In one series of experiments, PAF was applied focally to single, isolated osteoclasts (1 nM to 1 microM racemic mixture, in an application micropipette). Within 10 s of PAF application, [Ca2+]i increased from basal levels of 74 +/- 6 nM to peak levels of 209 +/- 28 nM (mean +/- S.E. of 24 cells responding). These results indicate that PAF acted directly on osteoclasts. In more than 75% of cells tested, PAF, at concentrations greater than or equal to 10 pM (final concentration, in the bath), induced biphasic elevation of [Ca2+]i. This response was highly specific for PAF, in that vehicle, lyso-PAF (the biologically inactive precursor/metabolite of PAF), and (S)-PAF (the inactive enantiomer of PAF) all failed to change [Ca2+]i. Moreover, [Ca2+]i elevation was blocked by the specific PAF antagonist CV-3988. To determine the source of Ca2+, cells were bathed in Ca(2+)-free medium, where PAF still caused an increase in [Ca2+]i, establishing that the response to PAF arose, at least in part, by release of Ca2+ from internal stores. In addition to changes in [Ca2+]i, PAF caused retraction followed by respreading of peripheral pseudopods. These findings indicate that rat osteoclasts respond to PAF by release of internal calcium and alterations in cell morphology and suggest that PAF may regulate resorption in inflammatory bone diseases.
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