BACKGROUND: Valproic acid (VPA), an established antiepileptic drug, was assessed for antitumor activity, including its effects on glioblastoma, but its role has not been determined. METHODS: In the present study, we investigated VPA-induced apoptosis effects on human U87 cells by cell viability, lactate dehydrogenase (LDH) release, TUNEL/Hoechst staining and flow cytometric in vitro, then we further explored the underlying molecular mechanisms using the selective antagonists PD98059, LY294002 and SB216763. RESULTS: The data showed that VPA dose-dependent induction of glioma U87 cells to undergo apoptosis through the mitochondria-dependent pathway in vitro. VPA activated the ERK/Akt pathways by increasing their protein phosphorylation and in turn inhibited GKS3β activation by the induction of GKS3β phosphorylation. However, the MAPK inhibitor PD98059 and/or PI3K inhibitor LY294002 were able to antagonize the effects of VPA by abolishing ERK/Akt activations and cancelling GSK3β suppression, thus it impaired VPA apoptosis-inducing effects on glioma cells. Furthermore, the GSK3β inhibitor SB216763 caused a strong suppression of GSK3β activity, which showed similar effects of VPA on regulation of protein expression and apoptosis. CONCLUSION: These findings suggest that GSK3β may be the central hub for VPA-induced apoptosis and VPA can be further evaluated as a novel agent for glioma therapy.
BACKGROUND:Valproic acid (VPA), an established antiepileptic drug, was assessed for antitumor activity, including its effects on glioblastoma, but its role has not been determined. METHODS: In the present study, we investigated VPA-induced apoptosis effects on human U87 cells by cell viability, lactate dehydrogenase (LDH) release, TUNEL/Hoechst staining and flow cytometric in vitro, then we further explored the underlying molecular mechanisms using the selective antagonists PD98059, LY294002 and SB216763. RESULTS: The data showed that VPA dose-dependent induction of glioma U87 cells to undergo apoptosis through the mitochondria-dependent pathway in vitro. VPA activated the ERK/Akt pathways by increasing their protein phosphorylation and in turn inhibited GKS3β activation by the induction of GKS3β phosphorylation. However, the MAPK inhibitor PD98059 and/or PI3K inhibitor LY294002 were able to antagonize the effects of VPA by abolishing ERK/Akt activations and cancelling GSK3β suppression, thus it impaired VPA apoptosis-inducing effects on glioma cells. Furthermore, the GSK3β inhibitor SB216763 caused a strong suppression of GSK3β activity, which showed similar effects of VPA on regulation of protein expression and apoptosis. CONCLUSION: These findings suggest that GSK3β may be the central hub for VPA-induced apoptosis and VPA can be further evaluated as a novel agent for glioma therapy.
Authors: Amir Ajoolabady; Shuyi Wang; Guido Kroemer; Josef M Penninger; Vladimir N Uversky; Domenico Pratico; Nils Henninger; Russel J Reiter; Askiel Bruno; Kaumudi Joshipura; Hamid Aslkhodapasandhokmabad; Daniel J Klionsky; Jun Ren Journal: Pharmacol Ther Date: 2021-04-03 Impact factor: 13.400
Authors: Sze Kiat Tan; Anna Jermakowicz; Adnan K Mookhtiar; Charles B Nemeroff; Stephan C Schürer; Nagi G Ayad Journal: Front Pharmacol Date: 2018-03-16 Impact factor: 5.810