Site in cell-free protein synthesis sensitive to diphtheria toxin.

The effects of diphtheria toxin on cell-free protein synthesis in a bacterial system, and preparations obtained from animals that were sensitive and resistant to toxin were examined. In the presence of nicotinamide adenine dinucleotide (NAD), toxin inhibited the incorporation of amino acids by endogenous and synthetic polynucleotides in both rat liver and guinea pig liver cell-free systems that were exposed to 6 Lf units per ml of toxin. A cell-free system derived from Streptococcus faecalis was resistant to high concentrations of toxin. Dialyzed toxin-antitoxin floccules that are formed in the presence of NAD and the 105,000 x g supernatant fluid from rat liver contain NAD. Such floccules are also active in protein synthesis in the absence of added transferase I or II. An operational model presents the view that the intoxication complex is formed at the ribosomal level and occurs in two steps. First, the toxin molecule binds to transferase II and alters its stereospecific relationship to transferase I, but it does not result in an inactive complex. Second, the stereospecific alteration in transferase I, but it does not result in an inactive complex. Second, the stereospecific alteration in transferase II caused by the binding of diphtheria toxin allows NAD to bridge between transferase I and II, which then results in an inactivated complex. The sensitivity of the cell-free system derived from the normally resistant rat implies that in some cells the cell membrane serves as a permeability barrier to the toxin molecule. The resistance of bacterial cell-free protein synthesizing systems to diphtheria toxin may reflect basic differences between transferase enzymes from bacterial and mammalian sources.