Nitric oxide underlies the differentiation of PC12 cells induced by depolarization with high KCl

Nitric oxide (NO) acts as a cytostatic agent to induce neuronal differentiation of PC12 cells after nerve growth factor (NGF) treatment. We newly subcloned PC12K cells that attended neurites after depolarization with high KCl. Here we present evidence that the neuronal differentiation of PC12K cells caused by depolarization with high KCl is mediated by endogenous NO. The outgrowth of neurites was significantly inhibited by 2 mM N-nitro-L-arginine methyl ester (L-NMAE), and 10 mM L-NAME was necessary for complete inhibition. The inhibition of NGF-dependent neurite outgrowth by L-NAME was abolished by depolarization of cells with KCl. The expression of neuronal- and endothelial-NO-synthase in PC12K cells was confirmed by immuno-cytochemical and immune-blotting analyses with the respective monoclonal antibodies. However, the expression of inducible-NO synthase was not observed in PC12K cells cultured with high KCl under the depolarization conditions with 45 mM KCI, We observed the increase of NO in the differentiated PC12K cells using diaminofluorescein, a novel fluorescent indicator for NO.