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IRF1 regulates self-renewal and stress responsiveness to support hematopoietic stem cell maintenance
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Hematopoietic stem cells (HSCs) are tightly controlled to maintain a balance between blood cell production and self-renewal. While inflammation-related signaling is a critical regulator of HSC activity, the underlying mechanisms and the precise functions of specific factors under steady-state and stress conditions remain incompletely understood. We investigated the role of interferon regulatory factor 1 (IRF1), a transcription factor that is affected by multiple inflammatory stimuli, in HSC regulation. Our findings demonstrate that the loss of IRF1 from mouse HSCs significantly impairs self-renewal, increases stress-induced proliferation, and confers resistance to apoptosis. In addition, given the frequent abnormal expression of
IRF1
in leukemia, we explored the potential of
IRF1
expression level as a stratification marker for human acute myeloid leukemia. We show that
IRF1
-based stratification identifies distinct cancer-related signatures in patient subgroups. These findings establish IRF1 as a pivotal HSC controller and provide previously unknown insights into HSC regulation, with potential implications to IRF1 functions in the context of leukemia.
American Association for the Advancement of Science (AAAS)
Title: IRF1 regulates self-renewal and stress responsiveness to support hematopoietic stem cell maintenance
Description:
Hematopoietic stem cells (HSCs) are tightly controlled to maintain a balance between blood cell production and self-renewal.
While inflammation-related signaling is a critical regulator of HSC activity, the underlying mechanisms and the precise functions of specific factors under steady-state and stress conditions remain incompletely understood.
We investigated the role of interferon regulatory factor 1 (IRF1), a transcription factor that is affected by multiple inflammatory stimuli, in HSC regulation.
Our findings demonstrate that the loss of IRF1 from mouse HSCs significantly impairs self-renewal, increases stress-induced proliferation, and confers resistance to apoptosis.
In addition, given the frequent abnormal expression of
IRF1
in leukemia, we explored the potential of
IRF1
expression level as a stratification marker for human acute myeloid leukemia.
We show that
IRF1
-based stratification identifies distinct cancer-related signatures in patient subgroups.
These findings establish IRF1 as a pivotal HSC controller and provide previously unknown insights into HSC regulation, with potential implications to IRF1 functions in the context of leukemia.
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