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  • Title: Chlorpromazine increases the turnover of metabolically active phosphoinositides and elevates the steady-state level of phosphatidylinositol-4-phosphate in human platelets.
    Author: Frølich KW, Aarbakke GM, Holmsen H.
    Journal: Biochem Pharmacol; 1992 Nov 17; 44(10):2013-20. PubMed ID: 1333202.
    Abstract:
    Non-permeabilizing concentrations (< 40 microM) of chlorpromazine (CPZ) increase the radioactivity of phosphatidylinositol-4-phosphate (PIP) in platelets pre-labelled with [32P]Pi, but the biochemical mechanisms underlying this increase are poorly understood. Incubation of [32P]Pi-labelled, gel-filtered platelets with 25 microM CPZ for 10 min increased: (1) the mass of PIP from 315 to 476 nmol/10(11) platelets but not the total inositol phospholipid mass, (2) the specific phosphodiester radioactivities in phosphatidylinositol (PI), PIP and phosphatidylinositol-4,5-bisphosphate (PIP2) by 34, 63 and 37%, respectively, and (3) the specific phosphomonoester radioactivities in PIP and PIP2 by 53 and 10%, respectively. In control platelets (no CPZ) the specific radioactivity of the phosphodiester was the same in PI, PIP and PIP2, and the specific radioactivity in the phosphomonoester in PIP and PIP2 was 55% of that of the gamma-phosphoryl in ATP, measured as metabolically active, actin-bound ADP. These results suggest that 55% of each of PI, PIP and PIP2 constitutes a metabolic pool which is labelled by 32P in the platelets, while the remainder is in a metabolically inactive pool and not labelled. CPZ has two major effects: (1) CPZ interferes with the kinase and phosphohydrolase reactions that maintain the steady-state level of PIP in the metabolic phosphoinositide pool, resulting in a 92% increase in the PIP level of this pool, and (2) CPZ causes synthesis (45% in 10 min) of new phosphodiester in the metabolically active phosphoinositides by tentative stimulation of the turnover of the phosphoinositide cycle, de novo phosphoinositide synthesis and/or diacylglycerol formation through phospholipases C and D. The marked alteration by CPZ of phosphoinositide metabolism may be part of the mechanism by which this drug effects its psychotropic action.
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