High-performance liquid chromatography-mass selective detection assay for adenine released from a synthetic RNA substrate by ricin A chain.

High-performance liquid chromatography (HPLC) and selected ion monitoring mass spectrometry (MS) were used to develop a quantitative assay for adenine released from a synthetic RNA substrate by ricin A chain, which contains the toxin's N-glycosidase activity. Because ricin and ricin A chain have potential applications as biotherapeutics and bioweapons, assays are needed to evaluate potency and potential inhibitors of activity. The detection limit for adenine was 0.02 microM (2.4 ng/ml), and the standard curve was linear up to 27.3 microM. The lower limit of quantitation was 0.27 microM and was reproducible throughout this range. Reaction characterization showed that most adenine was released by 5h and that the reaction could not be fully stopped with formic acid concentrations up to 0.75 mM (the maximum typically used for HPLC-MS). Injections were made at 2-min intervals, 10 injections could be performed before the column was backflushed, and no ricin A chain was observed in the column effluent. This assay would also be useful for ricin since ricin A chain did not pass through the HPLC column. With minor modifications to this system, the assay should provide rapid, sensitive, selective, and quantitative assessment of the activity of most ribosome-inactivating proteins. In addition, further chromatographic and mass spectrometric improvements could reduce sample requirements and analysis times.