Binding of EGF to cells expressing human EGF receptor stimulated rapid tyrosine phosphorylation of phospholipase C-II (PLC-II), as revealed by immunoblotting analysis with phosphotyrosine-specific antibodies. Tyrosine phosphorylation of PLC-II was stimulated by low physiological concentrations of EGF (1 nM), was quantitative, and was already maximal after a 30 sec incubation with 50 nM EGF at 37 degrees C. Interestingly, antibodies specific for PLC-II were able to coimmunoprecipitate the EGF receptor and antibodies against EGF receptor also coimmunoprecipitated PLC-II. According to this analysis, approximately 1% of EGF receptor molecules were associated with PLC-II molecules. The protein tyrosine kinase inhibitor tyrphostin RG50864, which blocks EGF-dependent cell proliferation, blocked EGF-induced tyrosine phosphorylation of PLC-II, its association with EGF receptor, and EGF-induced Ca2+ release. Hence, EGF-induced tyrosine phosphorylation of PLC-II may be a regulatory event linking the tyrosine kinase activity of EGF receptor to the PIP2 hydrolysis signaling pathway.
Phospholipase C‐gamma (PLC‐gamma) and GTPase activating protein (GAP) are substrates of EGF, PDGF and other growth factor receptors. Since either PLC‐gamma or GAP also bind to the activated receptors it was suggested that their SH2 domains are mediating this association. We attempted to delineate the specific region of the EGF receptor that is responsible for the binding, utilizing EGF receptor mutants, PLC‐gamma, and a bacterially expressed TRP E fusion protein containing the SH2 domains of GAP. As previously shown, tyrosine autophosphorylation of the wild‐type receptor wsa crucial in mediating the association and in agreement, a kinase negative EGF receptor could bind PLC‐gamma or TRP E GAP SH2, but only when cross tyrosine phosphorylated by an active EGF receptor kinase. The importance of autophosphorylation for association was confirmed by demonstrating that a carboxy‐terminal deletion of the EGFR missing four autophosphorylation sites bound these proteins poorly. To study the role of EGF receptor autophosphorylation further, a 203 amino acid EGF receptor fragment was generated with cyanogen bromide that contained all known tyrosine autophosphorylation sites. This fragment bound both TRP E GAP SH2 and PLC‐gamma but only when tyrosine phosphorylated. This data localizes a major binding site for SH2 domain containing proteins to the carboxy‐terminus of the EGF receptor and points to the importance of tyrosine phosphorylation in mediating this association.
A series of 63 3-substituted quinoline derivatives has been prepared and tested for inhibition of cell-free platelet derived growth factor receptor tyrosine kinase (PDGF-RTK) activity. The compounds were generally prepared either by a Friedlander condensation between an aryl-acetaldehyde and an o-aminobenzaldehyde or by a palladium-catalyzed coupling between an aryl bromide or triflate and an organostannane or organozinc chloride. The presence of 6,7-dimethoxy groups on the quinoline ring was found to be advantageous although not essential for potent inhibition of PDGF-RTK. A lipophilic group attached to the quinoline 3-position contributed substantially to activity. The lipophilic groups generally consisted of monocyclic aromatics or small alkynyl, alkenyl, and alkyl groups. Optimum activity of ca. < or = 20 nM (IC50) was observed when 6,7-dimethoxyquinoline was substituted in the 3-position with 4-methoxyphenyl (15d), 3-fluoro-4-methoxyphenyl (17m), 3-fluorophenyl (17b), 4-hydroxyphenyl (24), 6-methoxypyridin-3-yl (15o), 5-pyridin-2(1H)-one (23), trans-beta-styryl (15e), thiophene-3-yl (2e), 5-chlorothiophene-2-yl (15f), or cyclopentenyl (17n) groups. Most of the compounds in the series were tested for inhibition of cell-free epidermal growth factor receptor tyrosine kinase activity and found to be inactive.
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