Comprehensive analysis of mesenchymal cells reveals a dysregulated TGF-β/WNT/HOXB7 axis in patients with myelofibrosis
Saravanan Ganesan, Sarah Awan-Toor, Fabien Guidez, Nabih Maslah, Rifkath Rahimy, Céline Aoun, Panhong Gou, Chloé Guiguen, Juliette Soret, Odonchimeg Ravdan, Valeria Bisio, Nicolas Dulphy, Camille Lobry, Marie-Hélène Schlageter, Michèle Souyri, Stéphane Giraudier, Jean-Jacques Kiladjian, Christine Chomienne, Bruno Cassinat
Saravanan Ganesan, Sarah Awan-Toor, Fabien Guidez, Nabih Maslah, Rifkath Rahimy, Céline Aoun, Panhong Gou, Chloé Guiguen, Juliette Soret, Odonchimeg Ravdan, Valeria Bisio, Nicolas Dulphy, Camille Lobry, Marie-Hélène Schlageter, Michèle Souyri, Stéphane Giraudier, Jean-Jacques Kiladjian, Christine Chomienne, Bruno Cassinat
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Research Article Hematology

Comprehensive analysis of mesenchymal cells reveals a dysregulated TGF-β/WNT/HOXB7 axis in patients with myelofibrosis

Abstract

Despite the advances in the understanding and treatment of myeloproliferative neoplasm (MPN), the disease remains incurable with the risk of evolution to acute myeloid leukemia or myelofibrosis (MF). Unfortunately, the evolution of the disease to MF remains poorly understood, impeding preventive and therapeutic options. Recent studies in solid tumor microenvironment and organ fibrosis have shed instrumental insights on their respective pathogenesis and drug resistance, yet such precise data are lacking in MPN. In this study, through a patient sample–driven transcriptomic and epigenetic description of the MF microenvironment landscape and cell-based analyses, we identify homeobox B7 (HOXB7) overexpression and more precisely a potentially novel TGF-β/WNT/HOXB7 pathway as associated to a pro-fibrotic and pro-osteoblastic biased differentiation of mesenchymal stromal cells (MSCs). Using gene-based and chemical inhibition of this pathway, we reversed the abnormal phenotype of MSCs from patients with MF, providing the MPN field a potentially novel target to prevent and manage evolution to MF.

Authors

Saravanan Ganesan, Sarah Awan-Toor, Fabien Guidez, Nabih Maslah, Rifkath Rahimy, Céline Aoun, Panhong Gou, Chloé Guiguen, Juliette Soret, Odonchimeg Ravdan, Valeria Bisio, Nicolas Dulphy, Camille Lobry, Marie-Hélène Schlageter, Michèle Souyri, Stéphane Giraudier, Jean-Jacques Kiladjian, Christine Chomienne, Bruno Cassinat

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Figure 5

TGF-β–induced WNT signaling drives the HOXB7-mediated pro-osteogenic profile of MSCs.

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TGF-β–induced WNT signaling drives the HOXB7-mediated pro-osteogenic pro...
(A) Treatment of normal human mesenchymal cells (HS-5) with TGF-β (2 and 10 ng/mL) stabilizes β-catenin levels (immunoblot). (B) Treatment of normal human mesenchymal cells (HS-5) with TGF-β (10 ng/mL) induces translocation of β-catenin to the nucleus (red arrows). Microscopy images after staining with mAb-β-catenin (green) and DAPI (blue nucleus) (representative of 3 experiments). Original magnification, ×100. (C) ChIP assay of the HOXB7 promoter. Incubation with TGF-β (10 ng/mL) drives increased chromatin accessibility (reduced H3K9me3 marks) and binding of β-catenin (n = 3) to the HOXB7 promoter. P value *<0.05, unpaired t test. (D) Knockdown of β-catenin in HS-5 cell line by a β-catenin shRNA (β-Cat KD), validated by Western blot (right), induces reduced expression of HOXB7 and its downstream target α-SMA (protein encoded by ACTA2) in the absence or presence of TGF-β. (E) Osteoblast and adipocyte differentiation induction assay of normal mesenchymal HS-5 cells after transfection with scramble (SCR) or β-catenin shRNA (β-Cat KD). Microscopy images after respective lineage staining show that absence of β-catenin decreases osteoblast differentiation and increases adipocyte differentiation. Original magnification, ×10. (F) Pretreatment of HS-5 cells with WNT inhibitor (cardamonin 20 μM) followed by treatment with TGF-β reduces the expression of HOXB7 and α-SMA along with other WNT pathway genes such as c-MYC and Cyclin-D1 (n = 3). (G) Treatment of HS-5 cells with TGF-β and WNT inhibitor reduces the expression of ACTA2 and TAGLN genes validated by qRT-PCR (n = 3). P value **<0.02, unpaired t test. (H) Osteodifferentiation induction of HS-5 cells shows a decreased osteoblast differentiation profile upon treatment by cardamonin (n = 3). Original magnification, ×10. P value *<0.05, unpaired t test.