Effects of pseudomonas toxin A, diphtheria toxin, and cholera toxin on electrical characteristics of turtle bladder.

Abstract

Rapidly developing changes in the short-circuiting current (Isc), conductance (G), and potential (PD) of turtle bladders in Na-rich or Na-free media are seen after the mucosal addition, at 10 nM, of each of three toxins that contain ADP-ribosylation activity: Pseudomonas aeruginosa toxin A, diphtheria toxin, and cholera toxin. Toxin A irreversibility decreased the Isc, PD, and G of bladders in Na-rich media and the Isc and PD of bladders in Na-free media. Diphtheria or cholera toxin reversibly increased Isc and PD (not G), but only in Na-free media. The effects of toxin A in the turtle bladder, like those in other host cell systems, were eliminated by preexposure of this toxin to heat, specific antitoxin, or dithiothreitol and urea. Because exposure to this last condition increases the ADP-ribosylation activity of toxin A, it is suggested that the proenzyme is the required transport-inhibiting form of toxin A. The effects of all three toxins occurred rapidly, possibly before any of the possible intracellular ADP-ribosylation reactions are initiated. Whereas a recognition binding of toxin of toxin to receptors on the apical membrane completely accounts for the reversible effects of diphtheria or cholera toxin, this and additional toxin-membrane interactions (e.g., translocation) are needed to account for the irreversible effects of toxin A.