MiR-16 regulates crosstalk in NF-κB tolerogenic inflammatory signaling between myeloma cells and bone marrow macrophages
Jihane Khalife, Jayeeta Ghose, Marianna Martella, Domenico Viola, Alberto Rocci, Estelle Troadec, Cesar Terrazas, Abhay R. Satoskar, Emine Gulsen Gunes, Ada Dona, James F. Sanchez, P. Leif Bergsagel, Marta Chesi, Alex Pozhitkov, Steven Rosen, Guido Marcucci, Jonathan J. Keats, Craig C. Hofmeister, Amrita Krishnan, Enrico Caserta, Flavia Pichiorri
Jihane Khalife, Jayeeta Ghose, Marianna Martella, Domenico Viola, Alberto Rocci, Estelle Troadec, Cesar Terrazas, Abhay R. Satoskar, Emine Gulsen Gunes, Ada Dona, James F. Sanchez, P. Leif Bergsagel, Marta Chesi, Alex Pozhitkov, Steven Rosen, Guido Marcucci, Jonathan J. Keats, Craig C. Hofmeister, Amrita Krishnan, Enrico Caserta, Flavia Pichiorri
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Research Article Hematology Oncology

MiR-16 regulates crosstalk in NF-κB tolerogenic inflammatory signaling between myeloma cells and bone marrow macrophages

Abstract

High levels of circulating miR-16 in the serum of multiple myeloma (MM) patients are independently associated with longer survival. Although the tumor suppressor function of intracellular miR-16 in MM plasma cells (PCs) has been elucidated, its extracellular role in maintaining a nonsupportive cancer microenvironment has not been fully explored. Here, we show that miR-16 is abundantly released by MM cells through extracellular vesicles (EVs) and that differences in its intracellular expression as associated with chromosome 13 deletion (Del13) are correlated to extracellular miR-16 levels. We also demonstrate that EVs isolated from MM patients and from the conditioned media of MM-PCs carrying Del13 more strongly differentiate circulating monocytes to M2-tumor supportive macrophages (TAMs), compared with MM-PCs without this chromosomal aberration. Mechanistically, our data show that miR-16 directly targets the IKKα/β complex of the NF-κB canonical pathway, which is critical not only in supporting MM cell growth, but also in polarizing macrophages toward an M2 phenotype. By using a miR–15a-16-1–KO mouse model, we found that loss of the miR-16 cluster supports polarization to M2 macrophages. Finally, we demonstrate the therapeutic benefit of miR-16 overexpression in potentiating the anti-MM activity by a proteasome inhibitor in the presence of MM-resident bone marrow TAM.

Authors

Jihane Khalife, Jayeeta Ghose, Marianna Martella, Domenico Viola, Alberto Rocci, Estelle Troadec, Cesar Terrazas, Abhay R. Satoskar, Emine Gulsen Gunes, Ada Dona, James F. Sanchez, P. Leif Bergsagel, Marta Chesi, Alex Pozhitkov, Steven Rosen, Guido Marcucci, Jonathan J. Keats, Craig C. Hofmeister, Amrita Krishnan, Enrico Caserta, Flavia Pichiorri

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Figure 1

EVs and intracellular miR-16 levels are correlated.

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EVs and intracellular miR-16 levels are correlated. (A) Heatmaps showing...
(A) Heatmaps showing microRNA expression profile as measured by the NanoString nCounter System in MM cells (RPMI-8226, U266, NCI-H929, MM1.R) (left panel) and in extracellular vesicles (EV) secreted by those cells (right panel). Each column represents 1 sample/cell line with red representing upregulated and blue representing downregulated. Each cell line was run at least in triplicate. Heatmaps were performed using the G-plots package heatmap.2 program, and colored scales were generated using the Z score values. (B) Pie charts showing the percent of the 59 highest intracellular microRNA expression levels and their corresponding EV secreted levels in the 4 cell lines tested. The 12 highest microRNA expression levels among cell lines from miR-16 (blue) to miR-92a (orange) are highlighted in a colored spectrum. (C) miR-16, miR–142-3p, and miR-9 expression levels in EVs released by U266, RPMI-8226, and NCI-H929 MM cell lines. Data are presented as fold change (f.c.) over intracellular microRNA expression for each miRNA. (D) Parallel to C using HS-5 cell line. Values represent the mean ± SD; P values were calculated using ordinary 1-way ANOVA multicomparisons test. Each experiment was performed in triplicate. (E) qPCR showing miR-16 expression in EVs released by Del13 MM cell lines (U266, NCI-H929, RPMI-8226, OPM2, LP-1, L363, MM.1S) and non-Del13 MM cell lines (OCIMY-5, OCIMY-I, MMM.1). Data are presented as 2-ΔCT values. Values represent the mean ± SD; P values were calculated using 2-tailed unpaired t test. Each experiment was performed in triplicate; the obtained P values are reported.