Abstract

Histone deacetylase inhibitors (HDACi) have shown promising activity against hematological malignancies in clinical trials and have led to the approval of vorinostat for the treatment of cutaneous T-cell lymphoma. However, as with many cancer therapies, de novoresistance is common and acquired resistance inevitably follows sensitivity. This issue is particularly difficult to resolve in HDACi therapy, as the mechanism of action is still unclear and may involve several components.Our objective was to understand the molecular mechanisms underlying resistance to HDACi in order to design better combination strategies and to identify predictive biomarkers for response to HDACi therapy.To gain insight into HDACi resistance, we developed vorinostat-resistant clones using a dose escalation protocol in the monocytic-like, histiocytic lymphoma cell line U937 and the diffuse large B-cell lymphoma SUDHL6. Indeed, resistant cells grow in 4 µM vorinostat without induction of cell death. Using a variety of targeted drugs, we evaluated the lethal dose (LD)50in the resistant cells versus their parental counterpart in order to screen for potential pathways involved in resistance to vorinostat.We found that the vorinostat-resistant cells are cross-resistant to other HDACi but not all. Interestingly, the resistant cells exhibit increased sensitivity toward bortezomib, an inhibitor of the proteasome and to chloroquine, an inhibitor of autophagy. Both these drugs target protein processing, suggesting its importance in driving resistance to HDACi. We found that, in addition to elevated autophagy, vorinostat-resistant cells exhibit marks of ER stress, such as dilated ER when visualized by electron microscopy. Moreover, resistant cells have an increased protein synthesis rate and an accumulation of ubiquitinated proteins compared to their parental counterparts. Consistent with this, we observe activation of the UPR in the resistant cells.We hypothesized that activation of UPR could be a mechanism of vorinostat resistance, because the UPR induces the upregulation of pro-survival genes and may induce autophagy. Understanding vorinostat resistance holds clinical relevance in terms of improving HDACi therapy and being able to identify subsets of patients who would benefit most from combination therapy, such as vorinostat with bortezomib. Disclosures:No relevant conflicts of interest to declare.

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