Bradykinin-induced Rapid Breakdown of Phosphatidylinositol 4,5-bisphosphate in Neuroblastoma X Glioma Hybrid NG108-15 Cells
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External application of bradykinin to neuroblastoma X glioma hybrid NG108-15 cells produced a sustained depolarization preceded by a transient hyperpolarization. Bradykinin also increased the frequency of miniature end-plate potentials recorded from cultured striated muscle cells which had been innervated by NG108-15 cells. Parallelism between facilitative phases of miniature end-plate potentials and depolarization indicates that bradykinin caused an enhanced synaptic transmission from NG108-15 cells due to depolarization. Effects of bradykinin on phospholipid metabolism in the hybrid cells were then examined to shed light upon the mechanism by which bradykinin-receptor interaction leads to facilitation of synaptic transmission. Bradykinin induced specific incorporation of 32Pi into phosphatidic acid and phosphatidylinositol without affecting [3H]glycerol incorporation into these phospholipids by 10 min after its addition. The addition of bradykinin to hybrid cells prelabeled with 32Pi caused a transient decrease (maximal effect seen at 10-30 s) in the radioactivity from phosphatidylinositol 4,5-bisphosphate (PI-4,5-P2) which was followed by the accumulation of radioactivity in phosphatidic acid and phosphatidylinositol. A Ca2+ ionophore, A23187, failed to induce the initial degradation of PI-4,5-P2. The data show that the magnitudes of bradykinin-induced PI-4,5-P2 degradation and membrane potential changes in NG108-15 cells are both dependent on the concentration of bradykinin and that the degradation of PI-4,5-P2 precedes the electrophysiological responses. Taken together with the finding that bradykinin induced a transient increase in Ca2+ influx (at 10-20 s), it appears that a rapid and transient degradation of PI-4,5-P2 might be related to the initiation of the NG108-15 cell activities through mobilization of extracellular Ca2+ into the cells.
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