The activated ras oncogene is a key mediator of cellular transformation and is present in a wide variety of primary human neoplasms. The biochemical role of the ras oncogene in cellular transformation is at present unclear, and hence approaches to control its activities in transformed cells have met with limited success. Previous studies have demonstrated the ability of melittin, a 26 amino acid amphipathic peptide from bee venom, to specifically counterselect for cells in culture that express high levels of the ras oncogene product. The biochemical basis for this counterselection is currently unknown. This study demonstrates the ability of melittin to hyperactivate phospholipase A2 (PLA2) in ras-transformed cells by the mediation of enhanced influx of calcium ions (Ca2+). This hyperactivation of PLA2 and Ca2+ mobilization in ras-transformed cells by melittin is mimicked by the calcium ionophore, A23187. Both melittin- and A23187-mediated PLA2 hyperactivation require Ca2+. However, the action of melittin is strongly dependent on extracellular Ca2+, whereas that of A23187 is not. Melittin-induced Ca2+ influx and PLA2 hyperactivation is inhibited by manganese ions (Mn2+). These studies reveal a close correlation between the extent of PLA2 hyperactivation and Ca2+ mobilization, suggesting a causal relationship.