TY - JOUR
T1 - Inhibiting the alarmin-driven hematopoiesis-stromal cell crosstalk in primary myelofibrosis ameliorates bone marrow fibrosis
AU - Gleitz, Hélène F.E.
AU - Fuchs, Stijn N.R.
AU - Snoeren, Inge A.M.
AU - Boys, Charlotte
AU - Nagai, James
AU - Tejeda-Mora, Hector
AU - Klöker, Vanessa
AU - Pritchard, Jessica E.
AU - Bakker, Iris J.
AU - Gargallo Garasa, Marta
AU - Bindels, Eric
AU - Saez-Rodriguez, Julio
AU - Vogl, Thomas
AU - Kramann, Rafael
AU - Dugourd, Aurélien
AU - Costa, Ivan G.
AU - Schneider, Rebekka K.
N1 - Publisher Copyright:
© 2025 The Author(s). HemaSphere published by John Wiley & Sons Ltd on behalf of European Hematology Association.
PY - 2025/8
Y1 - 2025/8
N2 - Inflammation from the hematopoietic compartment is a critical driver of fibrosis and cytopenias in myeloproliferative neoplasms (MPNs). We previously demonstrated that tasquinimod ameliorates the MPN phenotype, reducing splenomegaly and normalizing fibrosis in a JAK2V617F-driven preclinical model. Using bulk RNA sequencing, we now show that tasquinimod primarily targets the malignant JAK2V617F hematopoietic clone, particularly affecting megakaryocytes and monocytes. Tasquinimod downregulates pro-proliferative pathways, MYC targets, and mTORC signaling, while increasing apoptosis in particularly in JAK2V617F mutant cells. Our data reveal that tasquinimod reverses TGFβ-driven fibrotic reprogramming of megakaryocytes and monocytes. This reversal is crucial for mitigating the pro-fibrotic interactions and signaling in the BM, thereby decreasing the activation of stromal cells. Coculture experiments confirm that direct interaction between JAK2V617F hematopoietic cells and mesenchymal stromal cells upregulates S100A8 in stromal cells, independent of TGFβ alone. In line, genetic ablation of S100A9 in the hematopoietic but not stromal compartment significantly improves the MPN phenotype and normalizes BM fibrosis. Our data highlight the hematopoietic origin of the inflammatory signals driving fibrosis. These insights pave the way for potential therapeutic strategies targeting inflammatory signaling pathways in MPN to mitigate fibrosis and improve patient outcomes.
AB - Inflammation from the hematopoietic compartment is a critical driver of fibrosis and cytopenias in myeloproliferative neoplasms (MPNs). We previously demonstrated that tasquinimod ameliorates the MPN phenotype, reducing splenomegaly and normalizing fibrosis in a JAK2V617F-driven preclinical model. Using bulk RNA sequencing, we now show that tasquinimod primarily targets the malignant JAK2V617F hematopoietic clone, particularly affecting megakaryocytes and monocytes. Tasquinimod downregulates pro-proliferative pathways, MYC targets, and mTORC signaling, while increasing apoptosis in particularly in JAK2V617F mutant cells. Our data reveal that tasquinimod reverses TGFβ-driven fibrotic reprogramming of megakaryocytes and monocytes. This reversal is crucial for mitigating the pro-fibrotic interactions and signaling in the BM, thereby decreasing the activation of stromal cells. Coculture experiments confirm that direct interaction between JAK2V617F hematopoietic cells and mesenchymal stromal cells upregulates S100A8 in stromal cells, independent of TGFβ alone. In line, genetic ablation of S100A9 in the hematopoietic but not stromal compartment significantly improves the MPN phenotype and normalizes BM fibrosis. Our data highlight the hematopoietic origin of the inflammatory signals driving fibrosis. These insights pave the way for potential therapeutic strategies targeting inflammatory signaling pathways in MPN to mitigate fibrosis and improve patient outcomes.
UR - https://www.scopus.com/pages/publications/105013131363
U2 - 10.1002/hem3.70179
DO - 10.1002/hem3.70179
M3 - Article
C2 - 40823315
AN - SCOPUS:105013131363
SN - 2572-9241
VL - 9
JO - HemaSphere
JF - HemaSphere
IS - 8
M1 - e70179
ER -