The cardiotoxic action of palytoxin was investigated using embryonic chick ventricular cells. Under normal ionic conditions, palytoxin produced an intracellular acidification which is partially compensated for by the Na⁺/H⁺ antiporter thereby leading to an increased rate of ethylisopropylami-loride-sensitive ²²Na⁺ uptake. Under depolarizing membrane conditions, palytoxin produced a cellular acidification, a cellular alkalinization or no change in intracellular pH depending on the value of the extracellular pH. We propose that palytoxin acidifies cardiac cells by opening preexisting H⁺ conducting pathways in the plasma membrane.