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Article Abstract
Acute myeloid leukemia (AML) patients with high PRDM16 expression frequently experience induction failure and have a poor prognosis. However, the molecular mechanisms underlying these clinical features remain elusive. We found that murine AML cells transformed by MLL::AF9 fusion and oncogenic short-isoform Prdm16 overexpression (hereafter, MF9/sPrdm16) exhibited resistance to cytarabine (AraC), but not to anthracycline, both in vitro and in vivo. Intriguingly, MF9/sPrdm16 cells displayed a gene expression signature of high oxidative phosphorylation (OxPHOS) and increased mitochondrial respiration. The inhibition of mitochondrial respiration with metformin or tigecycline abrogated AraC resistance in MF9/sPrdm16 cells via an energetic shift toward low OxPHOS status. Furthermore, sPrdm16 upregulated Myc and the glutamine transporter Slc1a5, activating TCA cycle and glutaminolysis. Of note, both OxPHOS and MYC-target gene signatures were significantly enriched in AML patient samples with high PRDM16 expression. Together, we showed that PRDM16 overexpression activates mitochondrial respiration through metabolic reprogramming via MYC-SLC1A5-Glutaminolysis axis, thereby conferring AraC resistance on AML cells. These results suggest that targeting mitochondrial respiration might be a novel treatment strategy to overcome chemoresistance in AML patients with high PRDM16 expression.
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| http://dx.doi.org/10.3324/haematol.2024.287265 | DOI Listing |
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