The effect of transforming growth factor beta (TGF-beta) on human gastric carcinoma cell lines was examined. Cell growth and DNA synthesis of TMK-1 were inhibited by TGF-beta, whereas MKN-28 presented no response to TGF-beta. Scatchard plot analysis of TGF-beta binding showed that TMK-1 had a relatively small number of high-affinity receptors, whereas MKN-28 had a large number of low-affinity receptors. By affinity labeling, only the type I receptor (Mr 65,000) for TGF-beta was detected in TMK-1, while three types of receptors, type I, type II (Mr 85,000-95,000), and type III (Mr 250,000-350,000), for TGF-beta were present in MKN-28. TGF-beta treatment reduced p34cdc-2 kinase activity and the level of phosphorylation of retinoblastoma protein in TMK-1, whereas it did not affect them in MKN-28. mRNAs for MYC and platelet-derived growth factor B chain were increased by treatment of TGF-beta on TMK-1. cAMP-responsive element binding activity was decreased by TGF-beta treatment in MKN-28 but not in TMK-1. This was closely correlated with protein kinase C activity. These results suggest that the type I receptor for TGF-beta in human gastric carcinoma cells may be mainly linked with the growth inhibition of TGF-beta by a decrease in retinoblastoma protein phosphorylation by p34cdc-2 without suppression of MYC expression. Conversely, TGF-beta may reduce protein kinase C activity and cAMP-responsive element binding activity in TGF-beta-resistant gastric carcinoma cells.