Neuronal activity is required for normal neural development. Excessive activity can cause abnormal growth of neural processes and may contribute to formation of epileptic foci. Using PC12 cells, we investigated mechanisms by which depolarization regulates neurite growth. Depolarization with 45 mM KCl induced neurite outgrowth only if NGF receptors were partly activated by overexpression of p140trkA or by treatment with a low concentration of NGF that alone was insufficient to stimulate neurite formation. Depolarization-induced neurite growth was reduced by inhibitors of L-type Ca2+ channels, Ca2+/calmodulin-dependent protein (CaM) kinases II and IV, and transcription. These results identify a novel mechanism by which depolarizing stimuli synergize with subthreshold activation of NGF receptors to induce neurite growth through a Ca2+ and CaM kinase-dependent signal transduction pathway.
Three new dihydroxyicosanoids, 12(R),13(R)-dihydroxyicosa-5(Z),8(Z),10(E),14(Z)-tetraenoic acid, 12(R),13(R)-dihydroxyicosa-5(Z),8(Z),10(E),14(Z),17(Z)-pentaeno ic acid and 10(R*),11(R*)-dihydroxyoctadeca-6(Z),8(E),12(Z)-trienoic acid, have been isolated from a previously unstudied temperate red marine alga, Farlowia mollis (Cryptonemiales, Rhodophyta). The structures of these new metabolites have been deduced from detailed nuclear magnetic resonance and mass spectrometry analyses on stabilized diacetate-methyl esters and stereochemistry deduced by 1H NMR couplings and CD analysis of a dibenzoate derivative. Collectively, these new natural products modulate fMLP-induced superoxide anion generation in human neutrophils, inhibit the conversion of arachidonic acid to lipoxygenase products by human neutrophils, and inhibit the functioning of the dog kidney Na+/K+ ATPase.
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