Acute myeloid leukemia (AML) is an aggressive hematologic malignancy for which new therapeutic approaches are required. One such potential therapeutic strategy is to target the ubiquitin-like modifier-activating enzyme 1 (UBA1), the initiating enzyme in the ubiquitylation cascade in which proteins are tagged with ubiquitin moieties to regulate their degradation or function. Here, we evaluated TAK-243, a first-in-class UBA1 inhibitor, in preclinical models of AML. In AML cell lines and primary AML samples, TAK-243 induced cell death and inhibited clonogenic growth. In contrast, normal hematopoietic progenitor cells were more resistant. TAK-243 preferentially bound to UBA1 over the related E1 enzymes UBA2, UBA3, and UBA6 in intact AML cells. Inhibition of UBA1 with TAK-243 decreased levels of ubiquitylated proteins, increased markers of proteotoxic stress and DNA damage stress. In vivo, TAK-243 reduced leukemic burden and targeted leukemic stem cells without evidence of toxicity. Finally, we selected populations of AML cells resistant to TAK-243 and identified missense mutations in the adenylation domain of UBA1. Thus, our data demonstrate that TAK-243 targets AML cells and stem cells and support a clinical trial of TAK-243 in this patient population. Moreover, we provide insight into potential mechanisms of acquired resistance to UBA1 inhibitors.