Among mycobacteria secretion of the enzyme diphenoloxidase has been established as a property of Mycobacterium leprae. The antileprosy drug dapsone (DDS), which completely inhibits the enzyme from plant and mammalian sources, does not readily penetrate intact M. leprae. When the drug is complexed with polylysine, it easily permeates the bacteria and produces 100% inhibition of its diphenoloxidase, suggesting a permeability barrier of the cytoplasmic membrane of M. leprae to dapsone. In this study: (1) when the organisms, purified from fresh tissues of experimentally infected armadillos, were treated with dilute alkali or exposed to warmer temperatures, DDS penetrated the bacteria and inhibited the diphenoloxidase. Washing with trypsin had no effect. Dapsone easily permeated the bacilli, purified from tissues stored at 0 degrees C or at -80 degrees C. (2) Diphenoloxidase of freshly-prepared M. leprae was stimulated when the bacteria were exposed to 50 degrees C for 10 min; at 60 degrees C the activity decreased, and at 100 degrees C the enzyme was completely inactivated. When the enzyme was assayed at temperatures below 37 degrees C, the activity was considerably lower, indicating that M. leprae may not be a psychrophilic organism in this respect. (3) The bacteria exposed to 50 degrees C failed to multiply in mouse footpads. M. leprae remained viable in tissues stored at 0 degrees C or -80 degrees C; but when the bacteria purified from these tissues were frozen, they lost their viability. On the other hand, the organisms separated from fresh tissues remained viable when frozen at -80 degrees C. The inhibition of diphenoloxidase of M. leprae by dapsone could serve as an indirect method to assess the integrity of the bacterial cell membrane and to predict whether the bacteria would retain their viability on freezing.