ABSTRACT
Background SLFN11 enhances cellular toxicity of genotoxic anti-cancer agents, and its important role under physiological conditions has not been appreciated yet. Somatic hypermutations and class switch recombination that can cause physiological genotoxic stress arise in germinal center B cells (GCBs). GCBs are a major origin of B-cell lymphomas that are frequently treated by cytosine arabinoside, a genotoxic anti-cancer agent.
Objective To clarify the expression profile of SLFN11 in different stages of B cells and B-cell lymphomas.
Methods We analyzed the expression of SLFN11 by mining publicly available databases for different stages of normal B cells and various types of B-cell lymphoma lines and also by performing immunohistochemical staining of human lymph nodes. We investigated the effects of two epigenetic modifiers, an EZH2 inhibitor, tazemetostat (EPZ6438) and a histone deacetylase inhibitor, panobinostat (LBH589) on SLFN11 expression in B-cell lymphoma lines and examined the therapeutic efficacy of these epigenetic modifiers in the combination with cytosine arabinoside.
Results SLFN11 expression was specifically low in GCBs compared to non-GCBs, which was consolidated by the immunohistochemical staining for SLFN11 with human lymph nodes. SLFN11 expression levels in B-cell lymphoma lines largely correlated to those of their normal counterparts. The epigenetic modifiers upregulated SLFN11 expression in GCB-derived lymphomas and made the lymphomas further susceptible to cytosine arabinoside.
Conclusions The expression of SLFN11 may be epigenetically suppressed in GCBs and GCB-derived lymphomas. GCB-derived lymphomas with low SLFN11 expression can be treated by the combination of epigenetic modifiers and cytosine arabinoside.