ROLE OF PHOSPHOINOSITIDE HYDROLYSIS IN ASTROCYTE VOLUME REGULATION

Astrocytes exposed to hypoosmotic stress swell and subsequently reduce their size to almost their original volume, a phenomenon called regul atory volume decrease (RVD). We found that during hypoosmotic swelling there was a twofold increase in phosphatidylinositol (PI) hydrolysis. This increase was inhibited by the phospholipase C inhibitor, U-73122 (10 muM). Inhibition of PI hydrolysis resulted in blockage of RVD. We also examined whether agents that stimulate PI hydrolysis would enhan ce RVD. These agents significantly accelerated RVD. The rank order of potency was endothelin (20 nM) greater-than-or-equal-to norepinephrine (100 muM) > endothelin-3 (7 nM) > thrombin (1 U/ml) greater-than-or-e qual-to ATP (500 muM) > bradykinin (20 muM) greater-than-or-equal-to c arbachol (500 muM), as indicated by RVD rate constants. The extent of PI hydrolysis induced by these agents at the beginning. of RVD exhibit ed a logarithmic relationship with the magnitude of RVD enhancement. A lso, there was a linear relationship between the rate of PI hydrolysis and RVD rate constants. Our results suggest that stimulated PI hydrol ysis is involved in the regulation of cell volume in astrocytes.