Childhood acute myeloid leukemia (AML) is a lethal blood cancer that remains difficult to treat because a large proportion of patients have disease that does not respond to currently available treatments. Immunotherapy is a type of cancer treatment that exploits the immune system to fight cancer cells. Over the past decade, several immunotherapies have emerged as highly effective forms of cancer therapy in the setting of both solid tumors and blood cancers in children. For example, immunotherapy is routinely employed to treat children with high-risk neuroblastoma, or children with acute lymphoblastic leukemia. However, there are currently no successful forms of immunotherapy for most children with AML. One of the major limitations to using immunotherapy for AML has been the lack of suitable targets on the surface of AML cells. Almost all currently known surface markers on AML cells are shared by healthy cells such as blood forming stem cells in the bone marrow, raising a safety concern referred to as on-target off-tumor toxicity. Therefore, the identification of suitable targets is critical to developing safe and effective immunotherapies for children suffering from AML. The search for suitable targets for AML immunotherapy has focused mostly on protein molecules on the surface of AML cells, but it is also important to pay attention to certain sugar and lipid signatures that are known to be associated with malignant cells but that do not exist on normal cells.