Targeted Inhibition of Myeloperoxidase (MPO): A New Therapeutic Strategy for the Treatment of Multiple Myeloma

Despite major improvements in therapeutic strategies for patients with multiple myeloma (MM), effective treatment still remains a persistent challenge, as patients ultimately relapse and succumb to the disease. In the last decade, studies have highlighted the reciprocal interaction between MM plasma cells (PC) and the bone marrow (BM) microenvironment in regulating immune evasion, disease progression and persistence. As MM PC rely on BM stromal cells and their secreted factors for their survival and growth, the therapeutic targeting of the BM microenvironment may prove to be a novel and successful strategy for myeloma care in the future. Myeloid-derived suppressor cells (MDSC), a heterogenous population of myeloid cells are described to promote MM progression through immunosuppression and induction of angiogenesis. Myeloperoxidase (MPO), a key inflammatory enzyme important in host defence, is reported to be the most highly upregulated gene in MDSCs in murine cancer models. Recently, the accumulation of MPO within the tumour microenvironment has attracted much attention with a number of studies describing a role for MPO in regulating cancer development due to its potent pro-oxidative and proinflammatory properties. Our most recent findings have revealed new functional roles for myeloid-derived MPO in the BM microenvironment of MM. Specifically, we demonstrate that myeloid cell populations are increased within the BM of 5TGM1 tumour-bearing mice and that MM PC may directly influence Mpo gene expression in BM-derived myeloid cells. Mechanistically, we report that MPO has the capacity to induce the expression of key MM growth factors, and exerts potent immune suppression by inhibiting anti-tumour T-cell responses. Remarkably, in the syngeneic KaLwRij/5TGM1 mouse model of MM, targeted inhibition of MPO with the suicide substrate 4-Aminobenzoic acid hydrazide (4-ABAH) demonstrated a significant reduction in overall MM tumour burden. Here, we investigate for the first time the efficacy of an orally bioavailable irreversible small molecule inhibitor of MPO (MPOi) in the preclinical Vk*MYC murine model of myeloma. Twelve-week-old C57BL/6J mice were intravenously inoculated with Vk*MYC (Vk14451-GFP) cells and tumour progression was monitored by serum paraprotein electrophoresis (SPEP), whilst endpoint GFP+ tumour cells in the bone marrow were quantitated by flow cytometry. To characterise myeloid cell populations and associated Mpo expression in the Vk*MYC tumour la