Flow cytometric (FCM) determinations of DNA index were found to be insufficient to distinguish the presence of tumor cells from normal ones in neoplastic tissues obtained from 29 patients with lung cancer. Therefore, the DNA and tumor-associated antigen (TAA) contents of cultured human lung cancer cells were simultaneously analyzed using FCM to assess whether this dual technique would help in distinguishing tumor cells from normal ones. For the study, cells from PC-10 (a squamous cell carcinoma line), PC-3 (an adenocarcinoma line) and PC-6 (a small cell carcinoma line) were mixed with normal peripheral lymphocytes. The TAAs studied were carcinoembryonic antigen (CEA), squamous cell carcinoma antigen (SCCA) and neuron-specific enolase (NSE). The alcohol-fixed cells were treated with the respective primary TAA, followed by fluorescein-isothiocyanate-conjugated secondary antibody; the cellular DNA was then stained using propidium iodide. Red and green fluorescences were measured simultaneously by FCM. The results showed CEA mainly in PC-3 cells, SCC in PC-10 cells and NSE in PC-6 cells; thus, each cell type had a relatively specific TAA. DNA content and cell size analyses differentiated neoplastic cells from normal lymphocytes for PC-3 and PC-10 cells, but not for PC-6 cells. Simultaneous FCM analyses of DNA and the TAA specific for the individual cell type made it possible to distinguish all tumor cell types from normal lymphocytes.