miR‐146a−/− mice model reveals that NF‐κB inhibition reverts inflammation‐driven myelofibrosis‐like phenotype

Author:

Cuenca‐Zamora Ernesto José123ORCID,Guijarro‐Carrillo Pedro J.1ORCID,López‐Poveda María J.4ORCID,Morales María Luz1ORCID,Lozano María Luisa123ORCID,Gonzalez‐Conejero Rocío13ORCID,Martínez Constantino1ORCID,Teruel‐Montoya Raúl123ORCID,Ferrer‐Marín Francisca1235ORCID

Affiliation:

1. Hematology Department Hospital Universitario Morales‐Meseguer, Centro Regional de Hemodonación, IMIB‐Pascual Parrilla, Universidad de Murcia Murcia Spain

2. CIBERER‐ISCIII CB15/00055 (U765) Murcia Spain

3. Universidad de Murcia Murcia Spain

4. Servicio de Anatomía Patológica, H.U. Morales Meseguer Murcia Spain

5. Universidad Católica San Antonio (UCAM) Murcia Spain

Abstract

AbstractEmerging evidence shows the crucial role of inflammation (particularly NF‐κB pathway) in the development and progression of myelofibrosis (MF), becoming a promising therapeutic target. Furthermore, tailoring treatment with currently available JAK inhibitors (such as ruxolitinib or fedratinib) does not modify the natural history of the disease and has important limitations, including cytopenias. Since recent studies have highlighted the role of miR‐146a, a negative regulator of the NF‐κB pathway, in the pathogenesis of MF; here we used miR‐146a−/− (KO) mice, a MF‐like model lacking driver mutations, to investigate whether pharmacological inhibition of JAK/STAT and/or NF‐κB pathways may reverse the myelofibrotic phenotype of these mice. Specifically, we tested the JAK1/2 inhibitor, ruxolitinib; the NF‐κB inhibitor via IKKα/β, BMS‐345541; both inhibitors in combination; or a dual inhibitor of both pathways (JAK2/IRAK1), pacritinib. Although all treatments decreased spleen size and partially recovered its architecture, only NF‐κB inhibition, either using BMS‐345541 (alone or in combination) or pacritinib, resulted in a reduction of extramedullary hematopoiesis, bone marrow (BM) fibrosis and osteosclerosis, along with an attenuation of the exacerbated inflammatory state (via IL‐1β and TNFα). However, although dual inhibitor improved anemia and reversed thrombocytopenia, the combined therapy worsened anemia by inducing BM hypoplasia. Both therapeutic options reduced NF‐κB and JAK/STAT signaling in a context of JAK2V617F‐driven clonal hematopoiesis. Additionally, combined treatment reduced both COL1A1 and IL‐6 production in an in vitro model mimicking JAK2‐driven fibrosis. In conclusion, NF‐κB inhibition reduces, in vitro and in vivo, disease burden and BM fibrosis, which could provide benefits in myelofibrosis patients.

Funder

Ministerio de Ciencia, Innovación y Universidades

Fundación Séneca

Instituto de Salud Carlos III

Publisher

Wiley

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