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IRF2BP2 counteracts the ATF7/JDP2 AP-1 heterodimer to prevent inflammatory overactivation in acute myeloid leukemia (AML) cells.
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- المؤلفون: Fischer, Sabrina1 (AUTHOR); Weber, Lisa Marie1 (AUTHOR); Stielow, Bastian1 (AUTHOR); Frech, Miriam2 (AUTHOR); Simon, Clara1 (AUTHOR); Geller, Merle1 (AUTHOR); Könnecke, Julie1 (AUTHOR); Finkernagel, Florian3 (AUTHOR); Forné, Ignasi4 (AUTHOR); Nist, Andrea5 (AUTHOR); Bauer, Uta-Maria1 (AUTHOR); Stiewe, Thorsten5 (AUTHOR); Neubauer, Andreas2 (AUTHOR); Liefke, Robert1,2 (AUTHOR)
- المصدر:
Nucleic Acids Research. 7/22/2024, Vol. 52 Issue 13, p7590-7609. 20p.
- الموضوع:
- معلومة اضافية
- نبذة مختصرة :
Acute myeloid leukemia (AML) is a hematological malignancy characterized by abnormal proliferation and accumulation of immature myeloid cells in the bone marrow. Inflammation plays a crucial role in AML progression, but excessive activation of cell-intrinsic inflammatory pathways can also trigger cell death. IRF2BP2 is a chromatin regulator implicated in AML pathogenesis, although its precise role in this disease is not fully understood. In this study, we demonstrate that IRF2BP2 interacts with the AP-1 heterodimer ATF7/JDP2, which is involved in activating inflammatory pathways in AML cells. We show that IRF2BP2 is recruited by the ATF7/JDP2 dimer to chromatin and counteracts its gene-activating function. Loss of IRF2BP2 leads to overactivation of inflammatory pathways, resulting in strongly reduced proliferation. Our research indicates that a precise equilibrium between activating and repressive transcriptional mechanisms creates a pro-oncogenic inflammatory environment in AML cells. The ATF7/JDP2-IRF2BP2 regulatory axis is likely a key regulator of this process and may, therefore, represent a promising therapeutic vulnerability for AML. Thus, our study provides new insights into the molecular mechanisms underlying AML pathogenesis and identifies a potential therapeutic target for AML treatment. [ABSTRACT FROM AUTHOR]
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