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Data from Release of IFNγ by Acute Myeloid Leukemia Cells Remodels Bone Marrow Immune Microenvironment by Inducing Regulatory T Cells
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<div>AbstractPurpose:<p>The stromal and immune bone marrow (BM) landscape is emerging as a crucial determinant for acute myeloid leukemia (AML). Regulatory T cells (Treg) are enriched in the AML microenvironment, but the underlying mechanisms are poorly elucidated. Here, we addressed the effect of IFNγ released by AML cells in BM Treg induction and its impact on AML prognosis.</p>Experimental Design:<p>BM aspirates from patients with AML were subdivided according to <i>IFNG</i> expression. Gene expression profiles in INFγ<sup>high</sup> and IFNγ<sup>low</sup> samples were compared by microarray and NanoString analysis and used to compute a prognostic index. The IFNγ release effect on the BM microenvironment was investigated in mesenchymal stromal cell (MSC)/AML cell cocultures. In mice, AML cells silenced for <i>ifng</i> expression were injected intrabone.</p>Results:<p>IFNγ<sup>high</sup> AML samples showed an upregulation of inflammatory genes, usually correlated with a good prognosis in cancer. In contrast, in patients with AML, high <i>IFNG</i> expression was associated with poor overall survival. Notably, IFNγ release by AML cells positively correlated with a higher BM suppressive Treg frequency. In coculture experiments, IFNγ<sup>high</sup> AML cells modified MSC transcriptome by upregulating IFNγ-dependent genes related to Treg induction, including indoleamine 2,3-dioxygenase 1 (<i>IDO1</i>). IDO1 inhibitor abrogated the effect of IFNγ release by AML cells on MSC-derived Treg induction. <i>In vivo</i>, the genetic ablation of IFNγ production by AML cells reduced MSC IDO1 expression and Treg infiltration, hindering AML engraftment.</p>Conclusions:<p>IFNγ release by AML cells induces an immune-regulatory program in MSCs and remodels BM immunologic landscape toward Treg induction, contributing to an immunotolerant microenvironment.</p><p><i><a href="https://aacrjournals.org/clincancerres/article/doi/10.1158/1078-0432.CCR-22-1030" target="_blank">See related commentary by Ferrell and Kordasti, p. 2986</a></i></p></div>
American Association for Cancer Research (AACR)
Giulia Corradi
Barbara Bassani
Giorgia Simonetti
Sabina Sangaletti
Jayakumar Vadakekolathu
Maria Chiara Fontana
Martina Pazzaglia
Alessandro Gulino
Claudio Tripodo
Gianluca Cristiano
Lorenza Bandini
Emanuela Ottaviani
Darina Ocadlikova
Milena Piccioli
Giovanni Martinelli
Mario Paolo Colombo
Sergio Rutella
Michele Cavo
Marilena Ciciarello
Antonio Curti
Title: Data from Release of IFNγ by Acute Myeloid Leukemia Cells Remodels Bone Marrow Immune Microenvironment by Inducing Regulatory T Cells
Description:
<div>AbstractPurpose:<p>The stromal and immune bone marrow (BM) landscape is emerging as a crucial determinant for acute myeloid leukemia (AML).
Regulatory T cells (Treg) are enriched in the AML microenvironment, but the underlying mechanisms are poorly elucidated.
Here, we addressed the effect of IFNγ released by AML cells in BM Treg induction and its impact on AML prognosis.
</p>Experimental Design:<p>BM aspirates from patients with AML were subdivided according to <i>IFNG</i> expression.
Gene expression profiles in INFγ<sup>high</sup> and IFNγ<sup>low</sup> samples were compared by microarray and NanoString analysis and used to compute a prognostic index.
The IFNγ release effect on the BM microenvironment was investigated in mesenchymal stromal cell (MSC)/AML cell cocultures.
In mice, AML cells silenced for <i>ifng</i> expression were injected intrabone.
</p>Results:<p>IFNγ<sup>high</sup> AML samples showed an upregulation of inflammatory genes, usually correlated with a good prognosis in cancer.
In contrast, in patients with AML, high <i>IFNG</i> expression was associated with poor overall survival.
Notably, IFNγ release by AML cells positively correlated with a higher BM suppressive Treg frequency.
In coculture experiments, IFNγ<sup>high</sup> AML cells modified MSC transcriptome by upregulating IFNγ-dependent genes related to Treg induction, including indoleamine 2,3-dioxygenase 1 (<i>IDO1</i>).
IDO1 inhibitor abrogated the effect of IFNγ release by AML cells on MSC-derived Treg induction.
<i>In vivo</i>, the genetic ablation of IFNγ production by AML cells reduced MSC IDO1 expression and Treg infiltration, hindering AML engraftment.
</p>Conclusions:<p>IFNγ release by AML cells induces an immune-regulatory program in MSCs and remodels BM immunologic landscape toward Treg induction, contributing to an immunotolerant microenvironment.
</p><p><i><a href="https://aacrjournals.
org/clincancerres/article/doi/10.
1158/1078-0432.
CCR-22-1030" target="_blank">See related commentary by Ferrell and Kordasti, p.
2986</a></i></p></div>.
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