Altered phospholipase A2 (PLA2) activity and its relationship to cation (K+, Ca2+) uptake and growth were investigated in mycobacteria exposed to the riminophenazine antimicrobial agents, clofazimine and B669 (0.15-2.5 mg/L). Microbial PLA2 activity was measured using a radiometric thin-layer chromatography procedure, whereas K+ and Ca2+ transport were measured using 86Rb+ or 42K+ and 45Ca2+, respectively. Short-term exposure (15-30 min) of Mycobacterium aurum A+ or the virulent and avirulent isolates of Mycobacterium tuberculosis H37R to the riminophenazines resulted in dose-related enhancement of microbial PLA2 activity, which was associated with inhibition of K+ influx and growth. Uptake of Ca2+ by mycobacteria was unaffected, or minimally affected, by the riminophenazines at concentrations of < or = 0.6 mg/L, whereas higher concentrations resulted in increased uptake of the cation in the setting of decreased microbial ATP concentrations. The results of kinetic studies using a fixed concentration (2.5 mg/L) of B669 demonstrated that riminophenazine-mediated enhancement of PLA2 activity and inhibition of K+ uptake in mycobacteria are rapid and probably related events that precede, by several minutes, any detectable effects on microbial ATP concentrations and uptake of Ca2+. Inclusion of the extracellular and intracellular Ca2+-chelating agents EGTA (0.2-7.2 g/L) and BAPTA/FURA-2 (0.2-9.5 mg/L), individually or in combination, did not prevent the effects of B669 on mycobacterial PLA2 activity or K+ transport, whereas alpha-tocopherol, which neutralizes PLA2 primary hydrolysis products, antagonized the inhibitory effects of the riminophenazines on microbial K+ uptake and growth. These results demonstrate that the antimycobacterial activities of clofazimine and B669 are related to a Ca2+-independent increase in mycobacterial PLA2, leading to interference with microbial K+ transport.