Journal of Lipid Research (Jun 2010)

Rapid and selective detection of fatty acylated proteins using ω-alkynyl-fatty acids and click chemistry[S]

  • Megan C. Yap,
  • Morris A. Kostiuk,
  • Dale D.O. Martin,
  • Maneka A. Perinpanayagam,
  • Pieter G. Hak,
  • Anjaiah Siddam,
  • Janaki R. Majjigapu,
  • Gurram Rajaiah,
  • Bernd O. Keller,
  • Jennifer A. Prescher,
  • Peng Wu,
  • Carolyn R. Bertozzi,
  • John R. Falck,
  • Luc G. Berthiaume

Journal volume & issue
Vol. 51, no. 6
pp. 1566 – 1580

Abstract

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Progress in understanding the biology of protein fatty acylation has been impeded by the lack of rapid direct detection and identification methods. We first report that a synthetic ω-alkynyl-palmitate analog can be readily and specifically incorporated into GAPDH or mitochondrial 3-hydroxyl-3-methylglutaryl-CoA synthase in vitro and reacted with an azido-biotin probe or the fluorogenic probe 3-azido-7-hydroxycoumarin using click chemistry for rapid detection by Western blotting or flat bed fluorescence scanning. The acylated cysteine residues were confirmed by MS. Second, ω-alkynyl-palmitate is preferentially incorporated into transiently expressed H- or N-Ras proteins (but not nonpalmitoylated K-Ras), compared with ω-alkynyl-myristate or ω-alkynyl-stearate, via an alkali sensitive thioester bond. Third, ω-alkynyl-myristate is specifically incorporated into endogenous co- and posttranslationally myristoylated proteins. The competitive inhibitors 2-bromopalmitate and 2-hydroxymyristate prevented incorporation of ω-alkynyl-palmitate and ω-alkynyl-myristate into palmitoylated and myristoylated proteins, respectively. Labeling cells with ω-alkynyl-palmitate does not affect membrane association of N-Ras. Furthermore, the palmitoylation of endogenous proteins including H- and N-Ras could be easily detected using ω-alkynyl-palmitate as label in cultured HeLa, Jurkat, and COS-7 cells, and, promisingly, in mice. The ω-alkynyl-myristate and -palmitate analogs used with click chemistry and azido-probes will be invaluable to study protein acylation in vitro, in cells, and in vivo.

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