Inhibition of DNA-PK potentiates the synergistic effect of NK314 and etoposide combination on human glioblastoma cells.
Paulina KopaAnna MaciejaIzabela GulbasElzbieta PastwaTomasz PoplawskiPublished in: Molecular biology reports (2019)
Etoposide (VP-16) is the topoisomerase 2 (Top2) inhibitor used for treating of glioma patients however at high dose with serious side effects. It induces DNA double-strand breaks (DSBs). These DNA lesions are repaired by non-homologous DNA end joining (NHEJ) mediated by DNA-dependent protein kinase (DNA-PK). One possible approach to decrease the toxicity of etoposide is to reduce the dose while maintaining the anticancer potential. It could be achieved through combined therapy with other anticancer drugs. We have assumed that this objective can be obtained by (1) a parallel topo2 α inhibition and (2) sensitization of cancer cells to DSBs. In this work we investigated the effect of two Top2 inhibitors NK314 and VP-16 in glioma cell lines (MO59 K and MO59 J) sensitized by DNA-PK inhibitor, NU7441. Cytotoxic effect of VP-16, NK314 alone and in combination on human glioblastoma cell lines, was assessed by a colorimetric assay. Genotoxic effect of anticancer drugs in combination with NU7441 was assessed by comet assay. Cell cycle distribution and apoptosis were analysed by flow cytometry. Compared with VP-16 or NK314 alone, the combined treatment significantly inhibited cell proliferation. Combination treatment was associated with a strong accumulation of DSBs, modulated cell cycle phases distribution and apoptotic cell death. NU7441 potentiated these effects and additionally postponed DNA repair. Our findings suggest that NK314 could overcome resistance of MO59 cells to VP-16 and NU7441 could serve as sensitizer to VP-16/NK314 combined treatment. The combined tripartite approach of chemotherapy could reduce the overall toxicity associated with each individual therapy, while concomitantly enhancing the anticancer effect to treat human glioma cells. Thus, the use of a tripartite combinatorial approach could be promising and more efficacious than mono therapy or dual therapy to treat and increase the survival of the glioblastoma patients.
Keyphrases
- cell cycle
- circulating tumor
- cell proliferation
- cell death
- dna repair
- cell free
- cell cycle arrest
- single molecule
- endothelial cells
- end stage renal disease
- high dose
- oxidative stress
- induced apoptosis
- chronic kidney disease
- nk cells
- dna damage
- ejection fraction
- newly diagnosed
- nucleic acid
- gold nanoparticles
- patient reported outcomes
- low dose
- high throughput
- stem cells
- induced pluripotent stem cells
- mesenchymal stem cells
- pi k akt
- prognostic factors
- squamous cell carcinoma
- endoplasmic reticulum stress
- risk assessment
- locally advanced
- atomic force microscopy
- circulating tumor cells
- signaling pathway
- combination therapy
- climate change
- free survival
- sensitive detection
- patient reported
- dna damage response
- bone marrow
- cancer therapy
- human health
- quantum dots
- pluripotent stem cells