KATP Channel Inhibitors Reduce Cell Proliferation Through Upregulation of H3K27ac in Diffuse Intrinsic Pontine Glioma: A Functional Expression Investigation

Background: Diffuse intrinsic pontine glioma [DIPG] is a fatal pediatric disease characterized by a post-translational modification, a replacement of lysine by methionine in position 27 of the N-terminal [H3K27M] tail of histone 3 isoform-1 [H3.1] or histone 3 isoform-3 [H3.3], respectively, expressed in the DIPG-36 and DIPG-50 cells. We investigated the role of cation channels in DIPG cells for the first time and the effects of ATP-sensitive K+[KATP] and TRPV1 channel modulators. Methods: Experiments were performed using “in vitro” cytotoxic assays combined with the patch clamp technique, RT-PCR, Western blot, and flow cytometry assays. Results: The most effective anti-proliferative drugs were repaglinide and glibenclamide after short and long-term incubation [6–96 h]. These drugs reduced macroscopic currents of the DIPG cells recorded in whole-cell patch clamp. Repaglinide concentration dependently enhanced the target protein H3K27ac in Western blotting after 48 h of incubation. This drug reduced cell diameter and enhanced cleaved caspase-3 in DIPG cells; total AKT/mTOR levels and phospho-mTOR were downregulated in DIPG-36. Conclusions: KATP and TRPV1 channels are functionally expressed, and sulphonylureas are effective antiproliferative upregulating H3K27ac with apoptosis in DIPG cells and the sub-micromolar concentrations in DIPG-50.