A continuous spectrophotometric and fluorimetric assay for protein tyrosine phosphatase using phosphotyrosine-containing peptides.

Two continuous assays for protein tyrosine phosphatases (PTPases) have been developed using phosphotyrosine containing peptide substrates. These assays are based on the marked differences in the spectra of the peptide before and after the removal of the phosphate group. The increase in the absorbance at 282 nm or the fluorescence at 305 nm of the peptide upon the action of PTPase can be followed continuously and the resulting progress curve (time course) can be analyzed directly using the integrated form of the Michaelis-Menten equation. The procedure is convenient and efficient, since both kcat and Km values can be obtained in a single run. The difference absorption coefficient (delta epsilon) at 282 nm is relatively insensitive to the pH of the reaction media. These techniques were applied to two homogeneous recombinant PTPases employing six phosphotyrosine-containing peptides. Km and kcat values obtained from the progress curve analysis were similar to those determined by the traditional initial rate inorganic phosphate assay. The peptides corresponding to autophosphorylation sites in Neu, p56lck, and p60src proteins show distinct behavior with the Yersinia PTPase, Yop51*, and the mammalian PTPase (PTP1U323). In both cases, the kcat values were relatively constant for all the peptides tested whereas the Km values were very sensitive to the amino acid sequence surrounding the tyrosine residue, especially in the case of Yop51*. Thus, both Yop51* and PTP1U323 show differential recognition of the phosphotyrosyl residues in the context of distinct primary structure of peptide substrates.

Substrate specificity of the protein tyrosine phosphatases.

The substrate specificity of a recombinant protein tyrosine phosphatase (PTPase) was probed using synthetic phosphotyrosine-containing peptides corresponding to several of the autophosphorylation sites in epidermal growth factor receptor (EGFR). The peptide corresponding to the autophosphorylation site, EGFR988-998, was chosen for further study due to its favorable kinetic constants. The contribution of individual amino acid side chains to the binding and catalysis was ascertained utilizing a strategy in which each amino acid within the undecapeptide EGFR988-998 (DADEpYLIPQQG) was sequentially substituted by an Ala residue (Ala-scan). The resulting effects due to singular Ala substitution were assessed by kinetic analysis with two widely divergent homogeneous PTPases. A "consensus sequence" for PTPase recognition may be suggested from the Ala-scan data as DADEpYAAPA, and the presence of acidic residues proximate to the NH2-terminal side of phosphorylation is critical for high-affinity binding and catalysis. The Km value for EGFR988-998 decreased as the pH increased, suggesting that phosphate dianion is favored for substrate binding. The results demonstrate that chemical features in the primary structure surrounding the dephosphorylation site contribute to PTPase substrate specificity.