Tyrosines 1021 and 1009 are phosphorylation sites in the carboxy terminus of the platelet-derived growth factor receptor beta subunit and are required for binding of phospholipase C gamma and a 64-kilodalton protein, respectively.

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Mol Cell Biol. 1993 January; 13(1): 133-143

Tyrosines 1021 and 1009 are phosphorylation sites in the carboxy terminus of the platelet-derived growth factor receptor beta subunit and are required for binding of phospholipase C gamma and a 64-kilodalton protein, respectively.

M Valius, C Bazenet and A Kazlauskas

National Jewish Center for Immunology and Respiratory Medicine, Denver, Colorado 80206.

ABSTRACT

Binding of platelet-derived growth factor (PDGF) to the PDGFreceptor (PDGFR) beta subunit triggers receptor tyrosine phosphorylationand the stable association of a number of signal transductionmolecules, including phospholipase C gamma (PLC gamma), theGTPase activating protein of ras (GAP), and phosphatidylinositol-3kinase (PI3K). Previous reports have identified three PDGFRtyrosine phosphorylation sites in the kinase insert domain thatare important for stable association of GAP and PI3K. Two ofthem, tyrosine (Y) 740, and Y-751 are required for the stableassociation of PI3K, while Y-771 is required for binding ofGAP. Here we present data for two additional tyrosine phosphorylationsites, Y-1009 and Y-1021, that are both in the carboxy-terminalregion of the PDGFR. Characterization of PDGFR mutants in whichthese phosphorylation sites are substituted with phenylalanine(F) indicated that Y-1021 and Y-1009 were required for the stableassociation of PLC gamma and a 64-kDa protein, respectively.An F-1009/F-1021 double mutant selectively failed to bind bothPLC gamma and the 64-kDa protein, whereas all of the carboxy-terminalmutants bound wild-type levels of GAP and PI3K. The carboxyterminus encodes the complete binding site for PLC gamma, sincea phosphorylated carboxy-terminal fusion protein selectivelybound PLC gamma. To determine the biological consequences offailure to associate with PLC gamma, we measured PDGF-dependentinositol phosphate production and initiation of DNA synthesis.The PDGFR mutants that failed to associate with PLC gamma werenot able to mediate the PDGF-dependent production of inositolphosphates. Since tyrosine phosphorylation of PLC gamma enhancesits enzymatic activity, we speculated that PDGFR mutants thatfailed to activate PLC gamma were unable to mediate its tyrosinephosphorylation. Surprisingly, the F-1021 receptor mediatedreadily detectable levels of PDGF-dependent PLC gamma tyrosinephosphorylation. Thus, the production of inositol phosphatesrequires not only PLC gamma tyrosine phosphorylation but alsoits association with the PDGFR. Comparison of the mutant PDGFRs'abilities to initiate PDGF-dependent DNA synthesis indicatedthat failure to associate with PLC gamma and produce inositolphosphates diminished the mitogenic response by 30%. In contrast,preventing the PDGFR from binding the 64-kDa protein did notcompromise PDGF-triggered DNA synthesis at saturating concentrationsof PDGF. Thus, it appears that phosphorylation of the PDGFRat Y-1021 is required for the stable association of PLC gammato the receptor's carboxy terminus, the production of inositolphosphates, and initiation of the maximal mitogenic response.

Mol Cell Biol. 1993 January; 13(1): 133-143

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