Phospholipid metabolism in neuroblastoma cells in monolayer culture after acute exposure to pyridoxal phosphate (PLP) has been studied. (a) A strong depression of the rate of biosynthesis of cellular phospholipids from labeled choline and ethanolamine, is demonstrated in neuroblastoma cells grown in culture media containing PLP. (b) Valproic acid reverses the effect of PLP on ethanolamine and choline incorporation into cell lipid. Other anticonvulsants (clonazepam, diazepam, carbamazepine, diphenylhydantoin and ethosuximide) have Iittle or no effect on reversing the inhibition of lipid synthesis produced by PLP. (c) PLP decreases the cellular uptake of choline. This effect might be responsible for the decreased lipid synthesis and is partially reversed by valproic acido. (d) The energy charge of the cell is not affected by either PLP or valproic acid, but it is diminished by the two compounds together. (e) The degradation of choline lipids is decreased by PLP and valproic acid. The hydrolysis of phosphocholine and the outflow of choline from cultured cells is also affected by the drugs. Variations of ethanolamine and choline transport should not be due to any effects of PLP or valproic acid on the lipid phase of the membranes since these molecules have no effect on the permeability of liposomes. (f) It is concluded that ethanolamine and choline lipid metabolism in cultured neuroblastoma cells is influenced by PLP and/or valproic acid, probably through a mechanism involving the transport of precursors across the membrane, although other mechanisms cannot be ruled out.

EFFECT OF PYRIDOXAL 5'-PHOSPHATE AND VALPROICACID ON PHOSPHOLIPID SYNTHESIS INNEUROBLASTOMA NA

ROBERTI, Rita;VECCHINI, Alba;CORAZZI, Lanfranco;ARIENTI, Giuseppe;PORCELLATI, Francesca;BINAGLIA, Luciano
1989

Abstract

Phospholipid metabolism in neuroblastoma cells in monolayer culture after acute exposure to pyridoxal phosphate (PLP) has been studied. (a) A strong depression of the rate of biosynthesis of cellular phospholipids from labeled choline and ethanolamine, is demonstrated in neuroblastoma cells grown in culture media containing PLP. (b) Valproic acid reverses the effect of PLP on ethanolamine and choline incorporation into cell lipid. Other anticonvulsants (clonazepam, diazepam, carbamazepine, diphenylhydantoin and ethosuximide) have Iittle or no effect on reversing the inhibition of lipid synthesis produced by PLP. (c) PLP decreases the cellular uptake of choline. This effect might be responsible for the decreased lipid synthesis and is partially reversed by valproic acido. (d) The energy charge of the cell is not affected by either PLP or valproic acid, but it is diminished by the two compounds together. (e) The degradation of choline lipids is decreased by PLP and valproic acid. The hydrolysis of phosphocholine and the outflow of choline from cultured cells is also affected by the drugs. Variations of ethanolamine and choline transport should not be due to any effects of PLP or valproic acid on the lipid phase of the membranes since these molecules have no effect on the permeability of liposomes. (f) It is concluded that ethanolamine and choline lipid metabolism in cultured neuroblastoma cells is influenced by PLP and/or valproic acid, probably through a mechanism involving the transport of precursors across the membrane, although other mechanisms cannot be ruled out.
1989
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/913724
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