Litcius/Paper detail

Increased paclitaxel recovery from Taxus baccata vascular stem cells using novel in situ product recovery approaches

Jorge H. Santoyo‐Garcia, Marissa Valdivia‐Cabrera, Marisol Ochoa-Villarreal, Samuel Casasola-Zamora, Magdalena Ripoll, Ainoa Escrich, Elisabeth Moyano, Lorena Betancor, Karen Halliday, Gary J. Loake, Leonardo Rios‐Solis

2023Bioresources and Bioprocessing14 citationsDOIOpen Access PDF

Abstract

(paclitaxel) from culturable vascular stem cells (VSCs) of Taxus baccata, which is currently used as a successful cell line for paclitaxel production. An in situ product recovery (ISPR) technique was employed, which involved combining three commercial macro-porous resin beads (HP-20, XAD7HP and HP-2MG) with batch and semi-continuous cultivations of the T. baccata VSCs after adding methyl jasmonate (Me-JA) as an elicitor. The optimal resin combination resulted in 234 ± 23 mg of paclitaxel per kg of fresh-weight cells, indicating a 13-fold improved yield compared to the control (with no resins) in batch cultivation. This resin treatment was further studied to evaluate the resins' removal capacity of reactive oxygen species (ROS), which can cause poor cell growth or reduce product synthesis. It was observed that the ISPR cultivations had fourfold less intracellular ROS concentration than that of the control; thus, a reduced ROS concentration established by the resin contributed to increased paclitaxel yield, contrary to previous studies. These paclitaxel yields are the highest reported to date using VSCs, and this scalable production method could be applied for a diverse range of similar compounds utilising plant cell culture.

Topics & Concepts

TaxusPaclitaxelChemistryMethyl jasmonateYield (engineering)Natural productBiochemistryBotanyBiologyMaterials scienceGeneChemotherapyGeneticsMetallurgyPlant tissue culture and regenerationCancer Treatment and PharmacologyPlant Pathogens and Fungal Diseases