Chemical and fungal elicitors were added to Catharanthus roseus cell suspension cultures so as to improve the production of indole alkaloids. A synergistic effect on alkaloid accumulation was observed in C. resells cell cultures when treated with some combined elicitors of fungal preparations and chemicals, Among them, the combination of tetramethyl amminium bromide and Aspergillus niger mycelial homogenate gave the highest ajmalicine yield (63 mg1(-1)) and an improved catharanthine accumulation (17 mg 1(-1)). The combined elicitors oi malate and sodium alginate resulted in the highest catharanthine yield (26 mg 1(-1)) and a high ajmalicine accumulation (41 mg 1(-1)) in the cell cultures. Based on the synergistic effect of malate and sodium alginate a process with enhanced catharanthine production in Catharanthus roseus cell cultures was developed in shake flasks and a bioreactor. After 10 days of culture, 25 mg 1(-1), 32 mg 1(-1) and 22 mg 1(-1) catharanthine yield were obtained in 500-ml flasks, 1000-ml flasks and in a 20-1 airlift bioreactor, respectively. Upon malate-alginate combining treatments, peroxidase, catalase and superoxide dismutase activities decreased in elicited cells but phenylalanine ammonia lyase and lipoxygenase activities increased dramatically. That suggests a typical defense responses took place in the combined elicitors-treated cell cultures. Furthermore, the combined elicitors also caused a significant increase of malondialdehyde level in cell cultures, which suggests a serious lipid peroxidation occurred in the elicited cell cultures. Comparison of these results suggests that malate and alginate combining treatment also stimulates defense responses, such as lipid peroxidation? in all C roseus culture processes and this may mediate the indole alkaloid production via jasmonate pathway.