Ipilimumab plus decitabine for patients with MDS or AML in posttransplant or transplant-naïve settings

Two articles in this week’s issue focus on the use of ipilimumab and decitabine decitabine: It works by reducing the amount of methylation in the body. Methylation is a process that acts like a switch to turn off or “silence” genes in certain cells. When these genes (called tumor suppressor genes) are turned off, MDS cells and cancer cells can grow freely. Decitabine is approved by the U… for patients with myelodysplasia (MDS) and acute myeloid leukemia acute myeloid leukemia: (uh-KYOOT my-uh-LOYD loo-KEE-mee-uh) A cancer of the blood cells. It happens when very young white blood cells (blasts) in the bone marrow fail to mature. The blast cells stay in the bone marrow and become to numerous. This slows production of red blood cells and platelets. Some cases of MDS become… (AML) before and after hematopoietic stem cell transplantation (HSCT) for high-risk disease. In the first article, Garcia et al report on the results of a phase 1 trial of the combination in 54 patients, demonstrating overall response rate of 52% in patients who are HSCT-naïve and 20% in patients post-HSCT; responses are usually short-lived. In the second article, Penter and colleagues characterize gene expression responses to therapy and conclude that decitabine acts directly to clear leukemic cells while ipilimumab acts on infiltrating lymphocytes in marrow and extramedullary sites. Responses are determined by leukemic cell burden and by the frequency and phenotype of infiltrating lymphocytes. Increasing bone marrow bone marrow: The soft, spongy tissue inside most bones. Blood cells are formed in the bone marrow. regulatory T cells is identified as a potential contributor to checkpoint inhibitor escape.