Rapid Radiosynthesis Of [11c] And [14c]Azelaic, Suberic, And Sebacic Acids For In Vivo Mechanistic Studies Of Systemic Acquired Resistance In Plants

A recent report that the aliphatic dicarboxylic acid, azelaic acid (1,9-nonanedioic acid) but not related acids, suberic acid (1,8-octanedioic acid) or sebacic (1,10-decanedioic acid) acid induces systemic acquired resistance to invading pathogens in plants stimulated the development of a rapid method for labeling these dicarboxylic acids with 11C and 14C for in vivo mechanistic studies in whole plants. 11C-labeling was performed by reaction of ammonium [11C]cyanide with the corresponding bromonitrile precursor followed by hydrolysis with aqueous sodium hydroxide solution. Total synthesis time was 60 min. Median decay-corrected radiochemical yield for [11C]azelaic acid was 40% relative to trapped [11C]cyanide, and specific activity was 15 GBq/mu mol. Yields for [11C]suberic and sebacic acids were similar. The 14C-labeled version of azelaic acid was prepared from potassium [14C]cyanide in 45% overall radiochemical yield. Radiolabeling procedures were verified using 13C-labeling coupled with 13C-NMR and liquid chromatographymass spectrometry analysis. The 11C and 14C-labeled azelaic acid and related dicarboxylic acids are expected to be of value in understanding the mode-of-action, transport, and fate of this putative signaling molecule in plants. Copyright (C) 2011 John Wiley & Sons, Ltd.