A novel alkylating agent Melflufen induces irreversible DNA damage and cytotoxicity in multiple myeloma cells.

Our prior study utilized both in vitro and in vivo multiple myeloma ( MM) xenograft models to show that a novel alkylator melphalan-flufenamide (Melflufen) is a more potent anti- MM agent than melphalan and overcomes conventional drug resistance. Here we examined whether this potent anti- MM activity of melflufen versus melphalan is due to their differential effect on DNA damage and repair signalling pathways via γ-H2 AX/ ATR/ CHK1/Ku80. Melflufen-induced apoptosis was associated with dose- and time-dependent rapid phosphorylation of γ-H2 AX. Melflufen induces γ-H2 AX, ATR, and CHK1 as early as after 2 h exposure in both melphalan-sensitive and -resistant cells. However, melphalan induces γ-H2 AX in melphalan-sensitive cells at 6 h and 24 h; no γ-H2 AX induction was observed in melphalan-resistant cells even after 24 h exposure. Similar kinetics was observed for ATR and CHK1 in meflufen- versus melphalan-treated cells. DNA repair is linked to melphalan-resistance; and importantly, we found that melphalan, but not melflufen, upregulates Ku80 that repairs DNA double-strand breaks. Washout experiments showed that a brief (2 h) exposure of MM cells to melflufen is sufficient to initiate an irreversible DNA damage and cytotoxicity. Our data therefore suggest that melflufen triggers a rapid, robust, and an irreversible DNA damage which may account for its ability to overcome melphalan-resistance in MM cells. [ABSTRACT FROM AUTHOR]