Abstract
We previously demonstrated that human herpesvirus 6A infects papillary thyroid cancer cells (BCPAP), inducing molecular changes compatible with a tumor-promoting phenotype, including increased expression of R273H mutant TP53 (mutp53), upregulation of c-Myc, and enhanced secretion of IL-6. To investigate whether and how epigenetic mechanisms contribute to these virus-induced effects, we examined the histone methyltransferase EZH2, a key regulator of chromatin repression frequently altered in cancer. HHV-6A infection reduced EZH2 expression and global H3K27me3 levels. Pharmacological inhibition of EZH2 using DS-3201 reproduced some of the molecular effects of viral infection, including increased mutp53 stability. Both viral infection and EZH2 inhibition induced delayed upregulation of SIRT1, which mediated deacetylation-dependent stabilization of mutp53 while reducing c-Myc expression. Indeed, the inhibition of SIRT1 with EX-527 reversed mutp53 accumulation but restored c-Myc expression and increased extracellular IL-6 release. This drug also reduced cell survival, suggesting that SIRT1 supports cellular adaptation to oncogenic stress triggered by EZH2 loss. Overall, our findings identify an epigenetic axis in which the HHV-6A-mediated downregulation of EZH2 induces SIRT1, regulating mutp53 stability and c-Myc expression and reshaping inflammatory signaling to maintain cell viability. These results establish a mechanistic link between viral infection, epigenetic remodeling, and oncogenic dependency. They also suggest that targeting IL-6 signaling could represent a therapeutic vulnerability in HHV-6A-associated thyroid cancer, particularly in combination with SIRT1 inhibitors.