| Abstract: | P19 embryonic carcinoma cells can be differentiated into neurons that form synaptic connections and that produce a variety of neurotransmitters. Results of RT‐PCR indicate that P19 neurons express several neurotrophin receptors (p75NTR, trkB, and trkC, but not trkA) but they do not express any of the four neurotrophins. Consistent with the presence of trkB but not trkA, BDNF causes rapid phosphorylation of MAP kinases ERK1 and ERK2, but NGF does not. Neurotrophins induce translocation of NF‐κB into the nucleus. All four neurotrophins induce activation of NF‐κB in a biphasic manner. This effect is apparently mediated by p75NTR, because an inhibitor of trk receptors, K252a, does not inhibit activation of NF‐κB. Instead, K252a itself promotes activation of NF‐κB and this effect is additive with the effect of neurotrophins. Inhibition of reactive oxygen intermediates with PDTC completely abolishes basal activity of NF‐κB and strongly inhibits activation of NF‐κB by neurotrophins, indicating an important role of reactive oxygen intermediates in the pathway by which neurotrophins activate NF‐κB. NF‐κB is known to promote expression of the iNOS gene. We found that all four neurotrophins increased iNOS mRNA levels, resulting in increased accumulation of iNOS protein. In contrast, none of the neurotrophins stimulated nNOS mRNA or protein synthesis. PDTC abolishes constitutive and neurotrophin‐induced expression of iNOS mRNA and protein and abolishes constitutive expression of nNOS mRNA, suggesting that reactive oxygen intermediates promote expression of nNOS. © 2003 Wiley Periodicals, Inc. J Neurobiol 55: 191–203, 2003 |
