We compared the antiproliferative efficacies of the natural human tumor necrosis factors alpha (nHuTNF-alpha) and beta (nHuTNF-beta). A phospholipase A2 inhibitor reduced the antitumor effects of both nHuTNF-alpha and nHuTNF-beta, but the inhibitory effect was more marked for nHuTNF-alpha than for nHuTNF-beta. Two other arachidonate metabolism pathways were also examined. A cyclo-oxygenase inhibitor moderately reduced nHuTNF-alpha-induced cell growth inhibition but did not affect nHuTNF-beta-induced growth inhibition, while a lipoxygenase inhibitor slightly reduced the antitumor effects of both types of nHuTNF. A third arachidonate metabolism pathway, cytochrome P450-dependent reductase inhibitor, did not affect nHuTNF-dependent growth inhibition. Exogenous cAMP and forskolin enhanced nHuTNF-alpha-induced growth inhibition but had no effect on nHuTNF-beta-induced growth inhibition. The stimulation of cancer cells by nHuTNF-alpha resulted in a significant elevation of intracellular cAMP concentrations, whereas nHuTNF-beta caused no such elevation. Additional studies demonstrated that combined nHuTNF-alpha and nHuTNF-beta (at similar unit concentrations, so that nHuTNF-beta was present at a molar concentration 1.4-fold greater than nHuTNF-alpha) showed an antitumor activity comparable to that of nHuTNF-alpha alone. These findings suggest the antiproliferative effect of nHuTNF-alpha to be both quantitatively and qualitatively distinguishable from that of nHuTNF-beta.