Abstract
Ajmalicine, serpentine, catharanthine, and vindoline are monoterpenoid indole alkaloids (MIAs) of commercial interest which are produced by the Catharanthus roseus plant. Cultures of C. roseus have been investigated as a potential source of these pharmaceutically important compounds since the early 1960s. In addition, their production from C. roseus cultures has served as a model system for investigating secondary metabolism and for evaluating production-enhancing strategies. Initially, this review will survey (1) the MIAs of interest for large-scale production from plant cell cultures and (2) the volumetric productivities of a specific MIA, ajmalicine, achieved and projected using plant cell cultures. To meet the need for these valuable compounds, the production of these MIAs from plant cell cultures must be successfully reproduced in large-scale aerated and agitated reactors. While the large-scale cultivation of plant cell cultures is currently feasible, initial attempts at scale-up may yield results that differ from that optimized in flasks. To bridge the jump between production in flasks and production in large-scale bioreactors, changes introduced with scale-up such as gas composition must be identified and rationally manipulated to reproduce or even improve growth and secondary metabolite production. Hence, this review will (1) identify the effects of gas composition (i.e., O2, CO2, ethylene, or other endogenous volatile compounds) on growth and secondary metabolism and (2) draw operating strategies for optimizing the gas composition for growth of C. roseus cultures and the production of ajmalicine.
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