Abstract
IDH1/2 mutations (IDHmut) increase methylation of DNA and histones in gliomas. IDHmut inhibitors are effective against low-grade IDHmut gliomas, but new strategies against high-grade IDHmut gliomas are needed. Although histone deacetylase inhibitors (HDACi) are ineffective against IDHwt glioblastoma (GBM), their potential in IDHmut gliomas has not been extensively studied. We previously established that IDHmut gliomas are more sensitive to HDACi than IDHwt GBM. Here we show that IDHmut is associated with greater sensitivity to HDACi only in glioma, not in IDHmut chondrosarcoma or cholangiocarcinoma. While HDACi induced more histone acetylation and gene regulation in IDHmut glioma than in IDHwt GBM, such acetylation was mostly within gene deserts, whereas IDHmut glioma promoters paradoxically lost histone acetylation. Two mediators of HDACi resistance, YAP and TAZ, were methylated and suppressed in IDHmut gliomas but not in other IDHmut cancers. Inducing YAP or TAZ expression in IDHmut gliomas conferred resistance to HDACi. Finally, belinostat extended in vivo survival only in IDHmut glioma models, not in IDHmut GBM models. Our findings provide a mechanistic rationale for further studies of HDACi in patients with IDHmut glioma, as well as the potential use of YAP/TAZ as a biomarker of HDACi sensitivity in cancers.
Authors
Thomas K. Sears, Matthew McCord, Wenxia Wang, Alicia Steffens, Kathleen McCortney, Rahul Chaliparambil, Jann N. Sarkaria, Craig M. Horbinski
Figure 5
YAP/TAZ are downregulated in IDHmut gliomas and affect HDACi response.
