A juxtamembrane autophosphorylation site in the Eph family receptor tyrosine kinase, Sek, mediates high affinity interaction with p59fyn.

The large subfamily of receptor tyrosine kinases (RTKs) for which EPH is the prototype have likely roles in intercellular communication during normal mammalian development, but the biochemical signalling pathways utilised by this family are poorly characterised. We have now identified two in vitro autophosphorylation sites within the juxtamembrane domain of the Eph family member Sek, and a candidate binding protein for the activated Sek kinase. Specific antibodies defined Sek as a 130 kDa glycoprotein with protein kinase activity expressed in keratinocytes, whilst a bacterially expressed gst-Sek kinase domain fusion protein autophosphorylated exclusively on tyrosine residues, confirming that Sek encodes an authentic protein tyrosine kinase. Two dimensional phosphopeptide mapping and site-directed mutagenesis defined juxtamembrane residue Y602 as a major site of in vitro autophosphorylation in Sek, whilst Y596 was phosphorylated to a lower stoichiometry. Complimentary approaches of in vitro binding assays and BIAcore analysis revealed a high affinity association between the Y602 Sek autophosphorylation site and the cytoplasmic tyrosine kinase p59fyn, an interaction mediated through the SH2 domain of this intracellular signalling molecule. Moreover, these data identify the novel phosphotyrosyl motif pYEDP as mediating high affinity association with fyn-SH2, extending the previously defined consensus motif for this interaction. The extensive conservation of this fyn-binding motif within the juxtamembrane domain of Eph family RTKs suggests that signalling through fyn, or fyn-related, tyrosine kinases may be utilised by many members of this large subclass of transmembrane receptors.

rho family GTPase activating proteins p190, bcr and rhoGAP show distinct specificities in vitro and in vivo.

rho family GTPases link extracellular signals to changes in the organization of cytoskeletal actin. Serum stimulation of quiescent Swiss 3T3 fibroblasts leads to rho-dependent actin stress fibre formation and focal adhesions, whilst several growth factors initiate signalling pathways leading to rac-dependent actin polymerization at the plasma membrane, and membrane ruffling. The product of the breakpoint cluster region gene bcr, rho GTPase accelerating protein (rhoGAP) and rasGAP-associated p190 share structurally related rho GAP domains, and possess GAP activity for rho family members in vitro. We have directly compared the activities of the isolated GAP domains of these three proteins in regulating different rho family GTPases, both by in vitro assays and by microinjection, to address their possible physiologic functions. We show that bcr accelerates the GTPase activity of rac, but not rho in vitro, and inhibits rac-mediated membrane ruffling, but not rho-mediated stress fibre formation, after microinjection into Swiss 3T3 fibroblasts. In vitro, rhoGAP has a striking preference for G25K as a substrate, whilst p190GAP has marked preferential activity for rho. Furthermore, p190 preferentially inhibits rho-mediated stress fibre formation in vivo. Our data suggest that p190, rhoGAP and bcr play distinct roles in signalling pathways mediated through different rho family GTPases.