Amiodarone, an antiarrhythmic drug, like chloroquine and chlorpromazine, is a tertiary amine with amphiphilic properties. Chloroquine and chlorpromazine are known inhibitors of phospholipases. All three drugs produce characteristic microcorneal deposits consistent with lysosomal accumulations of phospholipid. Similar lysosomal bodies were found in leukocytes of 15 patients on chronic amiodarone treatment as well as 3 patients each on chloroquine and chlorpromazine, suggestive of widespread systemic inhibition of lysosomal phospholipases. These lysosomal inclusions were similar in morphology, irrespective of the drug given, and were of four types: multilamellar, amorphous dense, amorphous light, or a combination of 2 or more of the preceding types. There was no simple relationship between the number of inclusion bodies per cell and the cumulative dose of amiodarone (r = 0.02) or amiodarone serum levels (r = 0.11). An in vitro assay was used to compare the effects of the three drugs on Ca2+-dependent phospholipase A2 and C activities. Phospholipase A2 activity was inhibited in a dose-dependent fashion (1-8 mg/assay) by all three drugs in the order: chlorpromazine greater than amiodarone greater than chloroquine. The inhibitory effect on phospholipase C was more pronounced with all three drugs, producing almost total inhibition at 8 mg/assay. In a Ca2+-independent lysosomal phospholipase A system, amiodarone had a greater effect, producing 85% inhibition at 1.2 mg/assay. These observations suggest that amiodarone, like other cationic amphiphiles, induces a generalized phospholipidosis by inhibiting phospholipid catabolism. Its therapeutic and toxic effects may be due to its ability to modulate both Ca2+-dependent membrane phospholipases and Ca2+-independent acid phospholipases.