We developed and characterized a new series of low- and high-grade multi-drug-resistant (MDR) cell lines of human esophageal carcinoma. Eight vindesine-resistant clones, SH-1-V1, SH-1-V2, SH-1-V3, SH-1-V4, SH-1-V5, SH-1-V6, SH-1-V7, and SH-1-V8 were isolated from the human esophageal cancer cell line, SH-1, by stepwise selection on exposure to increasing doses of vindesine. SH-1-V1 to SH-1-V8 acquired resistance to vindesine, in a stepwise manner, from 3- to 115-fold over findings in the parental SH-1 cells. The most resistant clone, SH-1-V8, was cross-resistant to other anticancer agents such as vincristine, actinomycin D, and daunomycin, thereby suggesting acquisition of the MDR phenotype. In SH-1-V8 cells, cellular accumulation of vincristine decreased and an MDR reversal agent, cepharanthine, potentiated the cytocidal action of vindesine. The expression of MDR1 mRNA was enhanced and amplification of the MDR1 gene was observed in clones SH-1-V4, SH-1-V5, SH-1-V6, SH-1-V7 and SH-1-V8; expression of MDR1 mRNA was detectable without gene amplification in the remaining 3 clones. The enhanced expression of the MDR1 gene may be involved in the acquisition of vindesine resistance in human esophageal cancer cells.