Tetrodotoxin Desensitization in Aggregates of Embryonic Chick Heart Cells

doi:10.1085/jgp.62.3.286

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Tetrodotoxin Desensitization in Aggregates of Embryonic Chick Heart Cells

Terence F. McDonald ¹, Howard G. Sachs ¹, and Robert L. DeHaan ¹

¹ From the Department of Embryology, Carnegie Institution of Washington, Baltimore, Maryland 21210.

Dr. McDonald's present address is the Engineering in Medicine Laboratory, Department of Electrical Engineering, Imperial College, London. Dr. Sachs's present address is the Department of Anatomy, University of Illinois Medical School, Chicago, Illinois 60680. Dr. DeHaan's present address is the Department of Anatomy, Emory University, School of Basic Health Sciences, Atlanta, Georgia 30322.

Spontaneous beating of heart-cell aggregates from 4-day chickembryos was initially blocked by 10^-5 g/ml tetrodotoxin (TTX).With continued exposure to the drug, the fraction of blockedaggregates decreased from about 80% at 15 min to about 25% at2–3 h, at which time, beating aggregates had become desensitizedto the toxin, showing no response to a fresh dose. Aggregatesfrom 5-day hearts were more sensitive to TTX, but fewer becamedesensitized in its presence. Desensitization to TTX was notseen in 6- and 7-day aggregates. Inhibition of protein synthesisby cycloheximide did not affect beating or initial sensitivityto TTX of 4-day aggregates, but desensitization failed to occur.Before TTX, the mean value of maximal upstroke velocity (V_max)of the action potentials in 4-day aggregates was 33 V/s. Afterdesensitization V_max was 12 V/s. Activity of desensitized aggregatesin the presence of TTX was augmented by elevated calcium levels,and suppressed by presumed inhibitors of slow inward current(manganese, D600). Desensitization was reversible; upon removalof TTX 10^-5 g/ml, aggregates regained their responsiveness toa fresh dose of the drug with a 2–3 h time-course similarto that of desensitization. This was prevented by continuedexposure to TTX at concentrations as low as 10^-8 g/ml. Thesedata suggest that (a) desensitization involves a change in themode of action-potential generating from one involving Na-specific,TTX-sensitive channels to one utilizing slower Mn-sensitivechannels; (b) the process of desensitization occurs over a periodof 2–3 h and is dependent upon the products of proteinsynthesis; and (c) desensitization is reversible after removalof TTX over a 2–3 h time-course similar to its onset.

Submitted on September 13, 1972

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