Thymol has anticancer effects in U-87 human malignant glioblastoma cells

Background Thymol (2-isopropyl-5-methylphenol) is a colorless crystalline derivative of cymene, that possesses pleotropic pharmacological properties, including analgesic, antibacterial, antispasmodic, and anti-inflammatory activities. Thymol has also been recognized for its beneficial effect as an a...

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Bibliographic Details
Published in:Molecular biology reports 2022-10, Vol.49 (10), p.9623-9632
Main Authors: Qoorchi Moheb Seraj, Farid, Heravi-Faz, Niloofar, Soltani, Arash, Ahmadi, Seyed Sajad, shahbeiki, Fatemeh, Talebpour, Amir, Afshari, Amir R., Ferns, Gordon A., Bahrami, Afsane
Format: Article
Language:English
Subjects:
Analgesics
Animal Anatomy
Animal Biochemistry
antineoplastic activity
antineoplastic agents
Antitumor activity
Apoptosis
Biomedical and Life Sciences
Brain cancer
Cell cycle
Cell death
Cell viability
Cymene
Cytotoxicity
Glioblastoma
Glioblastoma cells
Glioma
Histology
humans
Inflammation
inhibitory concentration 50
Life Sciences
Morphology
mRNA
Muscle relaxants
Original Article
p53 Protein
Parasympathetic nervous system
parasympatholytics
Reactive oxygen species
Temozolomide
therapeutics
Thymol
Tumors
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Summary:Background Thymol (2-isopropyl-5-methylphenol) is a colorless crystalline derivative of cymene, that possesses pleotropic pharmacological properties, including analgesic, antibacterial, antispasmodic, and anti-inflammatory activities. Thymol has also been recognized for its beneficial effect as an anti-tumor agent, but the precise mechanism for this has not been fully elucidated. We aimed to identifying whether thymol exerts anti-cancer activity in human U-87 malignant glioblastoma (GB) cells (U-87). Methods and Results Cell viability and apoptosis was evaluated in U-87 cells treated with thymol at different concentrations. Reactive oxygen species (ROS) production, mRNA expressions of apoptosis-related genes and cell cycle characteristics were assessed. The cytotoxic activity of the co-exposure of thymol and temozolomide (TMZ) was also evaluated. The half-maximal inhibitory concentration ( IC50 ) of thymol in the U-87 cells was 230 μM assessed at 24 h after exposure. Thymol did not exhibit any cytotoxic effects on normal L929 cells at this concentration. Thymol treatment increased the expression of Bax and p53, and also increased apoptotic cell death, and excessive generation of ROS. Moreover, the cytotoxic activity of thymol on the U-87 cells may be related to the arrest of the cell cycle at the G0/G1 interface. Combination therapy showed that the cytotoxic effects of thymol synergized with TMZ, and combined treatment had more cytotoxic potential compared to either of the agents alone. Conclusions Our data indicate the potential cytotoxic activities of thymol on U-87 cells. Further studies are required to evaluate the spectrum of the antitumor activity of thymol on GB cells.
ISSN:0301-4851
1573-4978
DOI:10.1007/s11033-022-07867-3