Does Phospholipid Methylation Play a Role in the Primary Mechanism of Action of Nerve Growth Factor?

Abstract

Nerve growth factor (NGF)-untreated (naive) and neurite-bearing NGF-treated (primed) PC12 rat pheochromocytoma cells were used as model system to study the role of phospholipid methylation in the NGF mechanism of action. The neurite-bearing cultures were deprived of NGF for 3 h before experimentation. Under both experimental conditions, the cells were labelled with [methyl-3H]methionine and then challenged with NGF for time periods ranging from 5 s to 30 min. Methylated phospholipids were extracted and then resolved and identified by TLC as phosphatidyl mono-, di-, and trimethyl ethanolamine. Quantification of the amount of radioactivity incorporated into each of the phospholipids indicated that NGF does not significantly alter phospholipid methylation either in naive or in neurite-bearing cells. Using a methyltransferase inhibitor, it was found that neurite outgrowth still occurs when phospholipid methylation is almost completely blocked. Phospholipid methylation apparently does not play a primary role in the mechanism of action of NGF.