Squalene production in the cell suspension cultures of Indian sandalwood (Santalum album L.) in shake flasks and air lift bioreactor

Squalene has emerged as a specialty chemical being important in nutraceutical, pharmaceutical, vaccine and cosmetic industries due to the anticancer, antioxidant, skin hydrating, immune stimulating and emollient activities. The main source of squalene is shark liver oil, but alternate sources are being sought to secure sustainable supply of squalene and conserve the marine sources. The present work was carried out with the aim of generation of this compound in the cell suspension cultures of sandalwood, a medicinally important plant rich in sesquiterpenes. To achieve this, highly proliferating cell lines of sandalwood were generated by medium optimization. Accumulation of squalene in the cells was studied in a time dependent manner in shake flasks and bioreactor. In shake flask experiments, a significant amount of 3.2 mg/g dry weight was accumulated in 6 weeks of culture whereas the cells performed much better in bioreactor where squalene accumulation was found to be 5.5 mg/g dry weight in 4 weeks. Enzymes of lower terpenoid pathway namely hydroxy-3 methylglutaryl-coenzyme A reductase, farnesyl diphosphate synthase and squalene synthase showed a positive correlation with the product accumulation as evident from GC analysis of the reaction products and terpenoids accumulated. The findings of present work describe a high potential for commercial application since the marine sources have pollution concerns, vegetal sources are limited and the compound offers great hope in prevention of human chronic diseases like cancer. To our knowledge this is the first report about squalene generation in medicinally important sandalwood plant cell suspensions.