Preparation of pure [ 3H]anisomycin by tritium exchange labeling

Abstract

The antibiotic anisomycin is a very useful tool in studying protein synthesis since it is a specific inhibitor of the peptidyl transferase centre of eukaryotic ribosomes (5–7). By tritium exchange labeling followed by chromatographic and electrophoretic purification, we have obtained [ 3H]anisomycin of specific activity 285 mCi/mmole, and the methodology followed is described in this paper. This method is useful in preparing tritium labeled antibiotics other than anisomycin provided that the nonradioactive compound has the following characteristics: (a) a chemical structure resistant to the method required for tritium labeling, (b) ionic groups, and (c) chromophore groups with absorption maxima in the uv or visible part of the spectrum. Since these circumstances concur frequently in a number of chemical structures, a method essentially similar to that described in this work might be widely used. The method was not applicable to amicetin, blasticidin S, and fusidic acid, as these antibiotics were broken down during the tritium labeling. However, gougerotin, a well known inhibitor of peptide bond formation by prokaryotic and eukaryotic ribosomes (2–7), has been tritiated and purified following a method very similar to that described in this contribution to [ 3H]gougerotin (110 mCi/mmole) (16).