On Terminal Alkynes That Can React with Active-Site Cysteine Nucleophiles in Proteases

Reggy Ekkebus; Sander I. van Kasteren; Yogesh Kulathu; Arjen Scholten; Ilana Berlin; Paul P. Geurink; Annemieke de Jong; Soenita S. Goerdayal; Jacques Neefjes; Albert J. R. Heck; David Komander; Huib Ovaa

doi:10.1021/ja309802n

On Terminal Alkynes That Can React with Active-Site Cysteine Nucleophiles in Proteases

Reggy Ekkebus(The Netherlands Cancer Institute), Sander I. van Kasteren(The Netherlands Cancer Institute), Yogesh Kulathu(MRC Laboratory of Molecular Biology), Arjen Scholten(Utrecht University), Ilana Berlin(The Netherlands Cancer Institute), Paul P. Geurink(The Netherlands Cancer Institute), Annemieke de Jong(The Netherlands Cancer Institute), Soenita S. Goerdayal(Utrecht University), Jacques Neefjes(The Netherlands Cancer Institute), Albert J. R. Heck(Utrecht University), David Komander(MRC Laboratory of Molecular Biology), Huib Ovaa(The Netherlands Cancer Institute)

Journal of the American Chemical Society

February 6, 2013

10.1021/ja309802n

Cited by 359Open Access

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Abstract

Active-site directed probes are powerful in studies of enzymatic function. We report an active-site directed probe based on a warhead so far considered unreactive. By replacing the C-terminal carboxylate of ubiquitin (Ub) with an alkyne functionality, a selective reaction with the active-site cysteine residue of de-ubiquitinating enzymes was observed. The resulting product was shown to be a quaternary vinyl thioether, as determined by X-ray crystallography. Proteomic analysis of proteins bound to an immobilized Ub alkyne probe confirmed the selectivity toward de-ubiquitinating enzymes. The observed reactivity is not just restricted to propargylated Ub, as highlighted by the selective reaction between caspase-1 (interleukin converting enzyme) and a propargylated peptide derived from IL-1β, a caspase-1 substrate.

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