DFNA5-mediated pyroptosis is a driver for venetoclax and azacytidine synergy in myeloid leukemia

Abstract

AbstractAcute myeloid leukemia (AML) remains the deadliest adult leukemia with dismal clinical outcomes. Since 2020, a combination of BCL-2 inhibitor (venetoclax, VEN) with hypomethylating agent (azacytidine/decitabine, AZA/DAC) has become a new standard of care in elderly or unfit AML patients. However, the underlying mechanism of synergy between venetoclax and azacytidine combination is not well understood. While apoptosis is regarded as the primary mode of cell death mechanism caused by the venetoclax and azacytidine combination, we provide novel evidence for pyroptosis as additional cell death mechanisms in response to venetoclax and azacytidine combination therapy. We found that long-term treatment with azacytidine caused hypomethylation and significant upregulation in DFNA5/GSDME, pore forming Gasdermin family gene that is otherwise silent in myeloid leukemia. We found that azacytidine mediates N-terminal pore-forming DFNA5 cleavage, membrane rupture, and subsequent pyroptosis ofDFNA5overexpressing cells in response to venetoclax and azacytidine. Deletion ofDFNA5reduced total cell viability, whereDFNA5KO cells exclusively underwent apoptosis while DFNA5 OE cells showed increased propidium iodide uptake, a marker for membrane rupture. Overall, our study establishesDFNA5as an important mediator of venetoclax and azacytidine-induced cell death via non-apoptotic mechanisms.