Energy-dependent exchange of K+ in heart mitochondria. K+ influx.

The tuberculostatic and carcinogenic drug isonicotinic acid hydrazide (“isoniazid”) is oxidized to pyridine-4-carboxaldehyde by the horseradish peroxidase/Mn²⁺/O₂ system. Eosin and related sensitizers greatly accelerate the reaction and generate light detectable with the liquid scintillation counter or with the photon counter. If the isoniazid concentration is raised, the rate and extent of O₂ uptake are increased, but above a certain concentration of isoniazid, emission is reduced and even suppressed. The strong quencher of triplet eosin, potassium ferricyanide, abolished both effects of eosin, that is, catalysis and light emission. Superoxide dismutase at high concentrations partially suppressed the emission and almost totally removed the catalytic effect. It is tentatively proposed that the isoniazid/peroxidase/Mn²⁺/O₂ system efficiently produces the aldehyde in the triplet state, which in turn transfers energy to eosin. Because of the presence of oxygen, only a small yield of triplet eosin is obtained and only a small fraction of these triplet eosin molecules is able to react with isoniazid. Nevertheless, it will contribute efficiently to a cyclic process of oxidation of the isoniazid.