Abstract
Purpose
Glioblastoma (GBM) has a high risk of recurrence and a poor prognosis due to the difficulty of surgical resection and the resistance to temozolomide, the standard treatment for GBM. Therefore, the development of new therapeutic agents for GBM is desired. We searched our compound library for compounds with anti-tumor activity against GBM and identified Curcumin (Cur) derivatives, Compound A and B. The purpose of this study was to investigate the antitumor activity of Compound A and B against GBM.
Methods and Results
To evaluate the antitumor activity of Compound A and B against GBM, we performed the MTT assay. Human glioblastoma cell lines, U87-MG and U251 cells, were treated with Compound A and B. After 96 hours, cell viability was evaluated using CCK-8, and the IC50 values of Compound A and B were calculated. In U87-MG, the IC50 of Cur was 9.78 μM, whereas the that of Compound A was 2.42 μM and that of Compound B was 1.28 μM. In U251 cells, the IC50 of Cur was 9.50 μM, whereas that of Compound A was 2.27 μM and that of Compound B was 0.64 μM. Next, to examine the effects of Compound A and B on normal cells, we performed the same MTT assay using primary cultured rat astrocytes. At the concentrations at which antitumor effects were observed (Compound A; 3 μM, B; 1.5 μM), there was no reduction in cell viability in primary rat cultured astrocytes.
Discussion
The present study shows that Compound A and B exhibit antitumor activity against human glioblastoma cells at lower concentrations than Cur without affecting normal cells. We will examine the effects of Compound A and B in a mouse model of brain tumor transplanted with U87-RFP cells in the future, which may lead to the development of noble brain tumor therapeutics.