Abstract
Despite progress in research and treatment strategies for acute myeloid leukemia (AML), the prognosis for patients with AML, particularly for individuals aged >60 years and those with adverse risk factors, remains poor. Cellular receptors that affect cholesterol homeostasis may present a new target for treating AML. Scavenger receptor class B type 1 (SR-B1), which plays an important role in cellular cholesterol uptake and redox balance, is expressed by AML cells and correlates with poor patient outcomes. Previously, we targeted SR-B1 in various hematologic and solid malignancies with a synthetic bioinspired high-density lipoprotein nanoparticle (HDL NP) ligand that disrupted cholesterol metabolism, inhibited protective antioxidant mechanisms, and induced ferroptosis. This study demonstrates that HDL NPs are effective at low nanomolar drug concentrations in AML, surpassing the effectiveness of cytarabine, a standard-of-care chemotherapy agent. The HDL NP reduced glutathione peroxidase 4, leading to reactive oxygen species accumulation, which causes some AML cells to undergo ferroptosis while others undergo apoptosis and pyroptosis. HDL NP treatment was synergistic with standard AML therapies, including cytarabine, venetoclax, and gilteritinib for fms-like tyrosine kinase 3-mutated leukemia cells. Notably, HDL NP treatment induced the differentiation of AML cells into mature granulocytes. Overall, this study provides a foundation for further investigations into the underlying mechanisms and clinical applications of SR-B1 targeting in AML treatment.