Therapy resistance in AML is mediated by cytoplasmic sequestration of the transcriptional repressor IRF2BP2.

bioRxiv : the preprint server for biology Pub Date : 2025-05-24 DOI:10.1101/2025.05.22.655396

Mark J Althoff, Mohd Minhajuddin, Brett M Stevens, Austin E Gillen, Stephanie Gipson, Sweta B Patel, Ian T Shelton, Regan Miller, Ana Vujovic, Anna Krug, Tracy Young, William M Showers, Monika Dzieciatkowska, Daniel Stephenson, Anit Tyagi, Jana M Ellegast, Tristen Wright, Kimberly Stegmaier, Joseph T Opferman, Angelo D'Alessandro, Clayton A Smith, Craig T Jordan

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Abstract

While the development of venetoclax with azacitidine (ven/aza) has improved AML therapy, drug resistance remains a major challenge. Notably, primary ven/aza-resistant AML are frequently reliant on MCL1, however, the underlying mechanisms remain unclear. Co-immunoprecipitation of MCL1 from ven/aza-resistant AML samples coupled with mass spectrometry analysis identified the transcriptional repressor Interferon Regulatory Factor 2 Binding Protein 2 (IRF2BP2) as an MCL1 binding partner. This interaction results in cytoplasmic IRF2BP2 localization and loss of transcriptional repression within ven/aza-resistant leukemic stem cells (LSC). Consequently, ven/aza-resistant LSC have increased IRF2BP2 target gene expression, including acyl-CoA synthetase long-chain family member 1 ( ACSL1 ), an essential rate-limiting enzyme for fatty acid oxidation (FAO). Inhibition of ACSL1 functionally impaired ven/aza-resistant LSC through a depletion of long-chain acyl-carnitine metabolites and FAO. Collectively, these data provide evidence for a previously undescribed mechanism by which MCL1 mediates IRF2BP2 cytoplasmic sequestration and consequent de-repression of ACSL1 , thereby promoting ven/aza-resistance in AML.

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AML的治疗耐药是由转录抑制因子IRF2BP2的细胞质隔离介导的。

虽然venetoclax联合阿扎胞苷（ven/aza）的发展改善了AML治疗，但耐药性仍然是一个主要挑战。值得注意的是，原发性even /aza耐药AML经常依赖于MCL1，然而，其潜在机制尚不清楚。从ven/aza耐药AML样本中联合免疫沉淀MCL1，结合质谱分析发现转录抑制因子干扰素调节因子2结合蛋白2 （IRF2BP2）是MCL1的结合伙伴。这种相互作用导致细胞质IRF2BP2定位和even /aza耐药白血病干细胞（LSC）中转录抑制的丧失。因此，even /aza抗性LSC增加了IRF2BP2靶基因的表达，包括酰基辅酶a合成酶长链家族成员1 (ACSL1)，这是脂肪酸氧化的必需限制性酶（FAO）。抑制ACSL1通过消耗长链酰基肉毒碱代谢物和FAO在功能上损害了even /aza抗性LSC。总的来说，这些数据为先前描述的机制提供了证据，其中MCL1介导IRF2BP2细胞质隔离和随后的ACSL1去抑制，从而促进AML的even /aza耐药。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv : the preprint server for biology

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