The effects of actinomycin D on the expression and inheritance of mating types (MTs) were studied in mature laboratory clones of the ciliate Dileptus anser. In these ciliates, each mature clone isolated from the natural population belongs to one of three complementary MTs, i.e., MT I, MT II, or MT III. In the course of further cultivation of the clone under laboratory conditions, in a series of vegetative generations, its MT remained unchanged. However, treatment with actinomycin D (15 μg/ml, 3 days) causes these clones to transition to a state that is hereditarily unstable for their MTs. At weekly testing for MT for at least 15 weeks after this treatment (which corresponds to more than 100 cell divisions), many subclones of the treated clone were observed to reversibly exchange their MT for another one; a temporary state of immaturity and/or partial maturity was also revealed. These data confirm our hypothesis about epigenetic MT determination in D. anser. Taking into account that actinomycin D also induces the inheritable destabilization of some characters in amoebas Amoeba proteus, which obviously has an epigenetic nature, this antibiotic might be considered an epimutagen.