Abstract
Recent advances in supportive care, measurable residual disease (MRD), and genomic based risk stratification have significantly improved outcomes in acute myeloid leukemia (AML). Nonetheless, prognosis remains suboptimal, with 5-year overall survival rates of approximately 70% in children, 40% in young adults, and less than 10% in elderly patients. These findings underscore an urgent need for new treatment strategies, such as drug repositioning, to improve patient outcomes. L-asparaginase (L-asp) is a key therapeutic agent for the treatment of acute lymphoblastic leukemia (ALL); however, its efficacy in AML remains unclear. To evaluate its therapeutic potential in AML, we systematically investigated L-asp sensitivity and explored the underlying molecular mechanisms that confer enhanced susceptibility in AML cell lines.To assess L-asp sensitivity in AML, we evaluated IC50 values and growth curves in 22 diverse AML cell lines. Based on their responses, AML cell lines were categorized as highly sensitive (n=7), moderately sensitive (n=9), and resistant (n=6) groups. These classifications were recapitulated in cell line-derived xenograft models, which demonstrated consistent differences in survival outcomes. To elucidate the molecular mechanisms underlying high sensitivity to L-asp, we initially examined its asparaginase activity. All highly sensitive cell lines exhibited low expression of asparagine synthetase (ASNS), mirroring findings in ALL. ASNS expression levels positively correlated with L-asp IC50 values (Spearman r = 0.81, p < 0.001). Bisulfite sequencing and SNP array analyses revealed that ASNS downregulation was attributable to either promoter hypermethylation or genomic loss—monosomy 7 or focal deletion at 7q21.3—in all highly sensitive lines. Moreover, ASNS knockdown in resistant cell lines restored L-asp sensitivity, confirming its role as a key determinant of susceptibility. These findings demonstrate that AML cells with low ASNS expression exhibit high sensitivity to L-asp.
Next, to investigate the mechanisms underlying enhanced sensitivity in moderately sensitive cell lines, we examined the glutaminase activity of L-asp. In AML, glutamine metabolism plays a critical role in cellular homeostasis by (1) fueling the TCA cycle via glutaminolysis and (2) maintaining redox balance through the synthesis of reduced glutathione (GSH), a major antioxidant that scavenges reactive oxygen species (ROS). To determine whether impaired TCA cycle activity contributes to L-asp–induced apoptosis, we assessed mitochondrial function using the Seahorse assay. All moderately sensitive AML cell lines demonstrated reduced mitochondrial respiration following L-asp treatment. Consistently, metabolomic analysis revealed decreased levels of TCA cycle intermediates. Moderate sensitive cell lines failed to upregulate compensatory pathways such as glycolysis or β-oxidation, indicating a high dependence on glutamine metabolism for energy production (glutamine-dependent AML cells).We next examined whether L-asp induces ferroptosis via disruption of redox homeostasis. Compared to resistant cells, moderately sensitive cells showed significant reductions in intracellular GSH levels and increased mitochondrial ROS following L-asp exposure. However, L-asp–induced lipid peroxidation was minimal, and the annexin V positive cells induced by L-asp were only modestly suppressed by the ferroptosis inhibitors liproxstatin-1 and deferoxamine. These findings suggest that glutamine-dependent AML cells undergo apoptosis primarily due to L-asp–induced energy deprivation, while ferroptosis induced by redox imbalance contribute minimally to cytotoxicity.To identify potential combinatorial therapeutic agents with L-asp, we performed RNA sequencing on three moderately sensitive and three resistant AML cell lines. Notably, BMF (BCL-2 modifying factor), a pro-apoptotic gene, was consistently upregulated exclusively in moderately sensitive cell lines. Aligned with these findings, the combination of L-asp and venetoclax demonstrated marked synergistic cytotoxicity in these cell lines.In summary, AML with low ASNS expression shows high sensitivity to L-asp, suggesting that treatment with L-asp is an absolute indication. Furthermore, even in glutamine-dependent AML with high ASNS expression, combination therapy with L-asp and venetoclax represents a promising therapeutic strategy.
