4.7 Article

The Sesquiterpene Lactone Cynaropicrin Manifests Strong Cytotoxicity in Glioblastoma Cells U-87 MG by Induction of Oxidative Stress

Journal

BIOMEDICINES
Volume 10, Issue 7, Pages -

Publisher

MDPI
DOI: 10.3390/biomedicines10071583

Keywords

cynaropicrin; sesquiterpene lactone; oxidative stress; ROS; apoptosis; autophagy

Funding

  1. Italian Ministry of Health
  2. I.R.C.C.S Neuromed

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Cynaropicrin has shown significant inhibitory effects on the growth of human glioblastoma cells, inducing cytotoxicity, apoptosis, and autophagy. It also has the potential to induce cell senescence and enhance the cytotoxic effects of the standard drug TMZ. These findings suggest that Cynaropicrin could serve as a potential adjuvant for the treatment of glioblastoma.
Cynaropicrin has shown a wide range of pharmacological properties, such as antitumor action. Here, we showed the inhibitory effect of Cyn on human glioblastoma cell U-87 MG growth. According to the IC50 values, Cyn 4, 8 and 10 mu M displayed a significant cytotoxicity, as confirmed by the cell count and MTT assay. Furthermore, Cyn completely abolished the ability of U-87 MG to form colonies and induced drastic morphological changes. Interestingly, pretreatment with ROS scavenger N-acetylcysteine 3 mM reversed the cytotoxicity induced by Cyn 25 mu M and preserved the cells by morphological changes. Therefore, oxidative stress induction was evaluated at low 8- and high 25-mu M concentrations in U-87 MG, as demonstrated by the quantitative and qualitative analysis of ROS. A prolonged increase in ROS generation under Cyn 25 mu M exposure was followed by the loss of the mitochondrial membrane potential in treated U-87 MG cells. An acute treatment with Cyn 25 mu M induced Cyt c release, as revealed by immunofluorescence staining and the activation of cell death pathways, apoptosis and autophagy. On the other hand, chronic treatment with Cyn 8 mu M induced senescence, as revealed by the increase in SA-beta-Gal activity. Moreover, at this concentration, Cyn led to ERK dephosphorylation accompanied by a relevant reduction of the NF-kappa B p65 subunit. Finally, the combined effect of TMZ and Cyn resulted in synergistic cytotoxicity, as evaluated by the Bliss additivity model. The strong cytotoxicity of Cyn was also confirmed on IDH1 mutant U-87 MG cells and patient-derived IDH wild-type glioblastoma cell lines NULU and ZAR. In conclusion, given the high toxicity at minimal concentrations, the high inhibition of tumor cell growth and synergy with the standard drug for glioblastoma TMZ, Cyn could be proposed as a potential adjuvant for the treatment of glioblastoma.

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