A variety of cell lines were examined by Northern blot hybridization for the expression of PRL or PRL-related mRNAs. We found that a human B-lymphoblast cell line transcribed a mRNA which hybridized to human PRL cDNA under high stringency conditions. The human lymphoblast cell line of interest is a variant subline of the IM-9 line that we have designated IM-9-P. The lymphoblast-derived PRL mRNA is approximately 150 bases longer than that produced by the human pituitary as determined by Northern blot analysis. IM-9-P PRL was immunoaffinity purified from conditioned medium and found to be identical in mol wt by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to human pituitary PRL. Moreover, IM-9-P PRL is biologically active in the rat Nb2 lymphoma mitogenic assay. Ribonuclease-H digestion of mRNA poly(A) tracts indicated that the size difference between pituitary and IM-9-P PRL transcripts was not due to an elongated poly(A) tail on the lymphoid PRL mRNA. Genomic Southern blot analysis showed no major rearrangements of the PRL gene in IM-9-P cells compared to the parent IM-9 line and human placenta DNA. Thus, it is highly likely that an elongation of the 5' and/or 3' untranslated regions of IM-9-P PRL mRNA account for the size difference with pituitary PRL mRNA. The PRL-producing IM-9-P line was cloned by limiting dilution, and a high PRL-producing clone IM-9-P3 and a non-PRL producer IM-9-P6 were isolated for further analysis. IM-9-P3 cells were found to secrete 40-50 ng PRL/10(6) cells.24 h regardless of cell density. The level of PRL mRNA also remained constant during exponential growth of IM-9-P3 cells. The existence of the PRL-producing IM-9-P3 clone and the IM-9-P6 clone which does not produce PRL as well as the IM-9 progenitor line provides a unique system with which to analyze the molecular mechanism of ectopic human PRL expression.