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Antiproliferative Effect of Essential Oil Obtained from Oregano (Lippia palmeri S. Watson) Leaves Grown in Hydroponics and LED Light.

Brando Fabián Bringas-BurgosKarla Guadalupe Martínez-RobinsonYanis Toledano-MagañaJuan Carlos García-RamosMaribel Ovando-MartínezJesús López-Elías
Published in: Chemistry & biodiversity (2023)
Nowadays, light-emitting diodes (LED) provide an alternative source to sunlight with specific intensity and wavelength that promotes plant growth. The features offered by LED could also stimulate the production of secondary metabolites of pharmaceutical interest. This work analyzed the cultivation of oregano (Lippia palmeri S. Watson) in a floating root hydroponic system supplemented by full-spectrum LED artificial light. Growth indicators like height, diameter, number of shoots, and leaf length and width were measured. The essential oil (EO) composition from the leaves of wild and hydroponic conditions found thymol (41.8 %) as the main product for the former and carvacrol (47 %) in hydroponics. The antiproliferative activity of EOs on human colorectal cancer HCT-15 shows that 6.4 μg/ml for hydroponic and 7.4 μg/ml for the wild plant reduce more than 50 % the cell viability. Overall, this study indicates that hydroponic conditions and full spectrum LED modifies the composition of the EO of L. palmeri on compared with the wild plant, which effectively induces cell growth inhibition in human colorectal cancer.
Keyphrases
  • essential oil
  • plant growth
  • endothelial cells
  • induced pluripotent stem cells
  • pluripotent stem cells
  • body mass index
  • cell proliferation
  • physical activity
  • cell death
  • optic nerve
  • cell wall