The dual-specificity CLK kinase induces neuronal differentiation of PC12 cells.

CLK is a dual-specificity protein kinase capable of phosphorylating serine, threonine, and tyrosine residues. We have investigated the action of CLK by establishing stable PC12 cell lines capable of inducibly expressing CLK. Expression of CLK in stably transfected PC12 cells mimicked a number of nerve growth factor (NGF)-dependent events, including the morphological differentiation of these cells and the elaboration of neurites. Moreover, CLK expression enhanced the rate of NGF-mediated neurite outgrowth of these cells, indicating that CLK expression and NGF treatment activate similar signal transduction pathways. CLK expression, unlike NGF, was not able to promote PC12 cell survival in serum-free media, demonstrating that CLK only partially recapitulated the actions of NGF on these cells and that the biochemical pathways necessary for morphological differentiation can be stimulated without also stimulating those necessary for survival. Induction of CLK expression also resulted in the selective activation of protein kinases that are components of growth factor-stimulated signal transduction cascades, including ERK1, ERK2, pp90RSK, and S6PKII. Induction of CLK expression, however, did not stimulate pp70S6K or Fos kinase, two NGF-sensitive protein kinases. These data indicate that CLK action mediates the morphological differentiation of these cells through its capacity to independently stimulate signal transduction pathways normally employed by NGF.