The pyruvate formate-lyase activity of extracts of Escherichia coli is stimulated and the dilution effect is abolished by the addition of pyruvate to the extract. The activity can be purified fourfold from pyruvate-supplemented extracts by isoelectric precipitation under anaerobic conditions. The activity of extracts not supplemented with pyruvate has been separated into two fractions by treatment with protamine sulfate-fraction PS, the soluble portion, and fraction N, an extract of the precipitate formed upon the addition of protamine sulfate. After treatment of these fractions with charcoal, pyruvate formate-lyase activity is stimulated by the addition of S-adenosylmethionine. When sodium pyruvate is added to the crude extract before the fractionation, fraction PS has full enzymatic activity and is not stimulated by fraction N or by S-adenosylmethionine. Incubation of the inactive fractions with pyruvate and S-adenosylmethionine in the absence of other substrates similarly results in a highly active preparation, not subject to the "dilution effect" obtained when the fractions are added separately to the assay. These observations suggest that the component in the protamine supernatant fraction is activated by the other fraction and that S-adenosylmethionine and pyruvate are required for the activation reaction. The activating factor present in the protamine precipitate fraction may be further purified by heating for 10 min at 100 C under H(2) atmosphere. The yield of this factor from crude extract is not affected by activation of the pyruvate formate-lyase of the extract, indicating that the factor acts catalytically. The requirement for pyruvate is only partially satisfied by alpha-ketobutyrate and not at all by other alpha-keto acids, acetyl phosphate, or adenosine triphosphate. The rate of activation is maximal at 0.01 m sodium pyruvate and 3 x 10(-4)mS-adenosylmethionine; it is linearly dependent on the amount of activating factor added. The rate of activation is the same when the activation reaction is initiated by addition of any of the four required components, indicating that no slow step of activation can be carried out by any three of the components. A similar pyruvate formate-lyase system was found in extracts of the methionine/B(12) autotroph 113-3, grown with methionine supplement, indicating that vitamin B(12) derivatives do not participate in the system.