Taxoids profiling of suspension Taxus chinensis var. mairei cells in response to shear stress

Abstract

To develop an optimal bioprocess for paclitaxel (Taxols) supply, taxoid biosynthetic pathway regulation must be better understood. The main taxoid metabolites (paclitaxel, baccatin III, taxol C, etc.) in Taxus cell culture showed great difference under shear stress. However, the regulating mechanism of taxoids metabolism under shear stress remained elusive. Here an efficient metabolic profiling approach combined with multivariate analysis was employed to profile taxoids changes of Taxus cells under laminar shear stress. A total of 21 taxoids were identified and quantified by ultra-performance liquid chromatography coupled with Q-TOF mass spectrometry. The result showed the contents of paclitaxel and baccatin III were reduced by shear stress, indicating the inhibitory effect of shear stress on paclitaxel biosynthesis. The levels of other taxoids uninvolved in paclitaxel biosynthesis were decreased except several metabolites. Further analysis of mapping measured taxoids concentrations onto paclitaxel biosynthesis pathway illustrating proposed intermediates and “off-pathway” metabolites revealed shear stress might disrupt the appropriate cyclization process of geranylgeranyl-pyrophosphate, aggravate the inappropriate order of hydroxylations and acylations, and not be good for functional group oxetane formation. These findings revealed the possible mechanism for shear stress limiting paclitaxel production and might have important biotechnological applications to increase the yields of paclitaxel and relevant precursors.