Transfection of the stably diploid rat mammary epithelial cell line, Rama 37, which yields nonmetastasizing, adenomatous tumors in syngeneic rats with HindIII-fragmented DNA from malignant or nonmalignant human breast epithelial cell lines and the drug-resistance plasmid pSV2neo, yields transformants with a frequency of 10(-4) to 10(-5). The resultant cell lines form tumors with varying frequencies when injected s.c. into the mammary fat pads of syngeneic rats. Cells transfected with DNA from the malignant human breast carcinoma cell line, Ca2-83, or DNA from the human pleural effusion-derived cell lines, MCF-7 or ZR-75-1, yield transformants which metastasize to lungs and/or lymph nodes at high frequency, whereas transfection of HindIII-fragmented DNA from nonmetastatic human mammary epithelial cell lines, transfection of the drug-resistance plasmid pSV2neo alone, or nonspecific DNA such as salmon sperm DNA fails to yield transformants expressing the metastatic phenotype. Transfectants which metastasized were reestablished in culture and reinjected into syngeneic rats to confirm their metastatic properties. These transfectants yield rapidly growing tumors with reduced latent periods, which give rise to significant numbers of metastases. The karyotype of selected transfectants after passage in vivo remains stably diploid. Hybridization of a 32P-labeled oligonucleotide probe specific for the human Alu family of sequences to DNA from these transfectants reveals the presence of human-specific DNA sequences integrated into the genome. It is suggested that transfection of specific genomic DNA sequences from the malignant human cell lines can induce the metastatic phenotype in the nonmetastatic Rama 37 cell line in a genetically dominant manner, whereas genomic DNA from the nonmetastatic cells cannot confer metastatic properties to the Rama 37 cell line.