Isidoros Vlattas scite author profile

Protein tyrosine phosphatases (PTPases) are important regulators of signal transduction systems, but the specificity of their action is largely unexplored. We have approached this problem by attempting to map the subsite preferences of these enzymes using combinatorial chemistry approaches. Protein-tyrosine peptidomimetics containing nonhydrolyzable phosphotyrosine analogues bind to PTPases with high affinity and act as competitive inhibitors of phosphatase activity. Human PTP-1B, a PTPase implicated to play an important role in the regulation of growth factor signal transduction pathways, was used to screen a synthetic combinatorial library containing malonyltyrosine as a phosphotyrosine mimic. Using two cross-validating combinatorial chemistry screening approaches, one using an iterative method and the other employing library affinity selection-mass spectrometric detection, peptides with high affinity for PTP-1B were identified and subsite preferences were detailed by quantitatively comparing residues of different character. Consistent with previous observations, acidic residues were preferred in subsites X-3 and X-2. In contrast, aromatic substitutions were clearly preferred at the X-1 subsite. This information supports the concept that this class of enzymes may have high substrate specificity as dictated by the sequence proximal to the phosphorylation site. The results are discussed with regards to the use of combinatorial techniques in order to elucidate the interplay between enzyme subsites.

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A New Total Synthesis of dl-Quebrachamine and dl-Aspidospermidine. A General Entry into the Aspidosperma Alkaloids

Kutney¹,

Abdurahman²,

Quesne³

et al. 1966

J. Am. Chem. Soc.

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Total synthesis of prostaglandins. Synthesis of the pure dl-E1, -F(sub 1.alpha.), -F(sub 1.beta.), -A1, and -B1 hormones

Corey¹,

Andersen²,

Carlson³

et al. 1968

J. Am. Chem. Soc.

186

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Characterization of the S3 Subsite Specificity of Cathepsin B

Taralp

Kaplan

Sytwu³

et al. 1995

Journal of Biological Chemistry

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Five synthetic substrates containing different amino acid residues at the P3 position (acetyl-X-Arg-Arg-AMC, where X is Gly, Glu, Arg, Val, and Tyr and where AMC represents 7-amindo-4-methylcoumarin) were used to investigate the S3 subsite specificity of cathepsin B. At pH 6.0, the specificity constant, kcat/Km, for tripeptide substrate hydrolysis was observed to increase in the order Glu < Gly < Arg < Val < Tyr. Molecular modeling studies of substrates containing a P3 Glu, Arg, or Tyr covalently bound as the tetrahedral intermediate to the enzyme suggest that the specificity for a P3 Tyr is because of a favorable aromatic-aromatic interaction with Tyr75 on the enzyme as well as a possible H bond between the P3 Tyr hydroxyl and the side chain carboxyl of Asp69.

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Preparation and reactions of 2-(alkoxy)-1-(alkyl or arylthio)vinyllithium. Application in the synthesis of 9-desoxo-9-thiaprostaglandins

Vlattas¹,

L²,

Ao³

1976

J. Am. Chem. Soc.

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