Back to Search
Start Over
Effect of terbinafine on the biosynthetic pathway of isoprenoid compounds in carrot suspension cultured cells.
- Source :
-
Plant cell reports [Plant Cell Rep] 2018 Jul; Vol. 37 (7), pp. 1011-1019. Date of Electronic Publication: 2018 Apr 21. - Publication Year :
- 2018
-
Abstract
- Key Message: Terbinafine induced a significant increase of squalene production. Terbinafine increased the expression levels of squalene synthase. Cyclodextrins did not work as elicitors due to the gene expression levels obtained. Plant sterols are essential components of membrane lipids, which contributing to their fluidity and permeability. Besides their cholesterol-lowering properties, they also have anti-inflammatory, antidiabetic and anticancer activities. Squalene, which is phytosterol precursor, is widely used in medicine, foods and cosmetics due to its anti-tumor, antioxidant and anti-aging activities. Nowadays, vegetable oils constitute the main sources of phytosterols and squalene, but their isolation and purification involve complex extraction protocols and high costs. In this work, Daucus carota cell cultures were used to evaluate the effect of cyclodextrins and terbinafine on the production and accumulation of squalene and phytosterols as well as the expression levels of squalene synthase and cycloartenol synthase genes. D. carota cell cultures were able to produce high levels of extracellular being phytosterols in the presence of cyclodextrins (12 mg/L), these compounds able to increase both the secretion and accumulation of phytosterols in the culture medium. Moreover, terbinafine induced a significant increase in intracellular squalene production, as seen after 168 h of treatment (497.0 ± 23.5 µg g dry weight <superscript>-1</superscript> ) while its extracellular production only increased in the presence of cyclodextrins.The analysis of sqs and cas gene expression revealed that cyclodextrins did not induce genes encoding enzymes involved in the phytosterol biosynthetic pathway since the expression levels of sqs and cas genes in cyclodextrin-treated cells were lower than in control cells. The results, therefore, suggest that cyclodextrins were only able to release phytosterols from the cells to the extracellular medium, thus contributing to their acumulation. To sum up, D. carota cell cultures treated with cyclodextrins or terbinafine were able to produce high levels of phytosterols and squalene, respectively, and, therefore, these suspension-cultured cells of carrot constitute an alternative biotechnological system, which is at the same time more sustainable, economic and ecological for the production of these bioactive compounds.
- Subjects :
- Acetates pharmacology
Biosynthetic Pathways drug effects
Cell Culture Techniques methods
Cells, Cultured
Cyclodextrins pharmacology
Cyclopentanes pharmacology
Daucus carota cytology
Daucus carota genetics
Farnesyl-Diphosphate Farnesyltransferase genetics
Gene Expression Regulation, Plant drug effects
Intramolecular Transferases genetics
Oxylipins pharmacology
Phytosterols metabolism
Plant Cells drug effects
Plant Proteins genetics
Plant Proteins metabolism
Squalene metabolism
Terbinafine
Daucus carota drug effects
Daucus carota metabolism
Naphthalenes pharmacology
Terpenes metabolism
Subjects
Details
- Language :
- English
- ISSN :
- 1432-203X
- Volume :
- 37
- Issue :
- 7
- Database :
- MEDLINE
- Journal :
- Plant cell reports
- Publication Type :
- Academic Journal
- Accession number :
- 29680944
- Full Text :
- https://doi.org/10.1007/s00299-018-2287-4