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Literature DB >> 19224897

The precise sequence of FGF receptor autophosphorylation is kinetically driven and is disrupted by oncogenic mutations.

Erin D Lew¹, Cristina M Furdui, Karen S Anderson, Joseph Schlessinger.

Abstract

Autophosphorylation of the tyrosine kinase domain of fibroblast growth factor receptor 1 (FGFR1) is mediated by a sequential and precisely ordered three-stage autophosphorylation reaction. First-stage autophosphorylation of an activation loop tyrosine leads to 50- to 100-fold stimulation of kinase activity and is followed by second-stage phosphorylation of three additional tyrosine residues, which are binding sites for signaling molecules. Finally, third-stage phosphorylation of a second activation loop tyrosine leads to an additional 10-fold stimulation of FGFR1 catalytic activity. In this report, we show that sequential autophosphorylation of five tyrosines in the FGFR1 kinase domain is under kinetic control, mediated by both the amino acid sequence surrounding the tyrosines and their locations within the kinase structure, and, moreover, that phosphoryl transfer is the rate-limiting step. Furthermore, the strict order of autophosphorylation is disrupted by a glioblastoma-derived, oncogenic FGFR1 point mutation in the kinase domain. We propose that disrupted stepwise activation of tyrosine autophosphorylation caused by oncogenic and other activating FGFR mutations may lead to aberrant activation of and assembly of signaling molecules by the activated receptor.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2009 PMID： 19224897 PMCID： PMC2755185 DOI： 10.1126/scisignal.2000021

Source DB: PubMed Journal: Sci Signal ISSN： 1945-0877 Impact factor: 8.192

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