14-693 Sigma-AldrichPTK5 Protein, active, 10 µg

The tyrosine kinases Brk/PTK6/Sik, Srm, Frk/Rak/Gtk/Iyk/Bsk, and Src42A/Dsrc41 have a low degree of sequence homology to other known kinases, including one another. We show here that the exon structure of these kinases, which we will call the Brk family, is highly conserved and distinct from each of the major families of intracellular kinases containing SH3, SH2, and tyrosine kinase domains, including c-Src and Fyn. Brk/Sik and Srm are 1.1 kb apart on human chromosome 20q13.3 and likely are the result of duplication in cis. Several Brk family kinases have an inhibitory effect on Ras pathway signaling from receptor tyrosine kinases. Members of this family can act either in the membrane or at the nucleus, and may change localization patterns depending on external stimuli. Brk has been shown to phosphorylate two proteins in vivo: Sam68. a substrate for Src in mitosis that can substitute for Rev in nuclear export of RNAs; and BKS, a novel adaptor molecule. Brk also functions as a rapid downstream signaling intermediate following calcium-induced differentiation in keratinocytes. It is possible that Brk family kinases may share common functions and interaction partners, which remain for the most part unexamined.

The rat pheochromocytoma cell line PC12 is extensively used as a model for studies of neuronal cell differentiation. These cells develop a sympathetic neuron-like phenotype when cultured in the presence of nerve growth factor. The present study was performed in order to assess the role of mouse GTK (previously named BSK/IYK), a cytoplasmic tyrosine kinase belonging to the Src family, for neurite outgrowth in PC12 cells. We report that PC12 cells stably overexpressing GTK exhibit a larger fraction of cells with neurites as compared with control cells, and this response is not accompanied by an increased ERK activity. Treatment of the cells with the MEK inhibitor PD98059 did not reduce the GTK-dependent increased in neurite outgrowth. GTK expression induces a nerve growth factor-independent Rap1 activation, probably through altered CrkII signaling. We observe increased CrkII complex formation with p130(Cas), focal adhesion kinase (FAK), and Shb in PC12-GTK cells. The expression of GTK also correlates with a markedly increased content of FAK, phosphorylation of the adaptor protein Shb, and an association between these two proteins. Transient transfection of GTK-overexpressing cells with RalGDS-RBD or Rap1GAP, inhibitors of the Rap1 pathway, reduces the GTK-dependent neurite outgrowth. These data suggest that GTK participates in a signaling pathway, perhaps involving Shb, FAK and Rap1, that induces neurite outgrowth in PC12 cells.