Inhibition of proinflammatory signaling impairs fibrosis of bone marrow mesenchymal stromal cells in myeloproliferative neoplasms
Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neopl...
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| Published in | Experimental & molecular medicine Vol. 54; no. 3; pp. 273 - 284 |
|---|---|
| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
01.03.2022
Springer Nature B.V 생화학분자생물학회 |
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| Abstract | Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN.
Bone marrow disorders: Combined treatment option for fibrosis
The treatment of fibrosis in patients with rare bone marrow disorders could be improved with a combined therapy that targets inflammatory pathways. Myeloproliferative neoplasms (MPN) are a group of bone marrow disorders characterized by the over-production of blood cells, which can lead to fibrosis in the bone marrow. Vladan Čokić at the University of Belgrade, Serbia, and co-workers examined how stem cells known as mesenchymal stromal cells from the bone marrow contribute to MPN fibrosis. They found an increase in three pro-inflammatory signaling pathways in MPN patients, resulting in the stromal cells differentiating into cells with dysregulated extracellular matrices. The differentiated cells did not behave correctly nor degrade properly, triggering fibrosis. The team combined two drugs that target the inflammatory signaling pathways, and successfully inhibited the development of fibrosis in MPN cell cultures. |
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| AbstractList | Abstract
Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN. Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN. Bone marrow disorders: Combined treatment option for fibrosis The treatment of fibrosis in patients with rare bone marrow disorders could be improved with a combined therapy that targets inflammatory pathways. Myeloproliferative neoplasms (MPN) are a group of bone marrow disorders characterized by the over-production of blood cells, which can lead to fibrosis in the bone marrow. Vladan Čokić at the University of Belgrade, Serbia, and co-workers examined how stem cells known as mesenchymal stromal cells from the bone marrow contribute to MPN fibrosis. They found an increase in three pro-inflammatory signaling pathways in MPN patients, resulting in the stromal cells differentiating into cells with dysregulated extracellular matrices. The differentiated cells did not behave correctly nor degrade properly, triggering fibrosis. The team combined two drugs that target the inflammatory signaling pathways, and successfully inhibited the development of fibrosis in MPN cell cultures. Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN. The treatment of fibrosis in patients with rare bone marrow disorders could be improved with a combined therapy that targets inflammatory pathways. Myeloproliferative neoplasms (MPN) are a group of bone marrow disorders characterized by the over-production of blood cells, which can lead to fibrosis in the bone marrow. Vladan Čokić at the University of Belgrade, Serbia, and co-workers examined how stem cells known as mesenchymal stromal cells from the bone marrow contribute to MPN fibrosis. They found an increase in three pro-inflammatory signaling pathways in MPN patients, resulting in the stromal cells differentiating into cells with dysregulated extracellular matrices. The differentiated cells did not behave correctly nor degrade properly, triggering fibrosis. The team combined two drugs that target the inflammatory signaling pathways, and successfully inhibited the development of fibrosis in MPN cell cultures. Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN. Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN. KCI Citation Count: 0 Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and signaling pathways involved have not been identified thus far. Here, we show that BM-MSCs contribute to fibrosis in myeloproliferative neoplasms (MPNs) by differentiating into αSMA-positive myofibroblasts. These cells display a dysregulated extracellular matrix with increased FN1 production and secretion of profibrotic MMP9 compared to healthy donor cells. Fibrogenic TGFβ and inflammatory JAK2/STAT3 and NFκB signaling pathway activity is increased in BM-MSCs of MPN patients. Moreover, coculture with mononuclear cells from MPN patients was sufficient to induce fibrosis in healthy BM-MSCs. Inhibition of JAK1/2, SMAD3 or NFκB significantly reduced the fibrotic phenotype of MPN BM-MSCs and was able to prevent the development of fibrosis induced by coculture of healthy BM-MSCs and MPN mononuclear cells with overly active JAK/STAT signaling, underlining their involvement in fibrosis. Combined treatment with JAK1/2 and SMAD3 inhibitors showed synergistic and the most favorable effects on αSMA and FN1 expression in BM-MSCs. These results support the combined inhibition of TGFβ and inflammatory signaling to extenuate fibrosis in MPN.Bone marrow disorders: Combined treatment option for fibrosisThe treatment of fibrosis in patients with rare bone marrow disorders could be improved with a combined therapy that targets inflammatory pathways. Myeloproliferative neoplasms (MPN) are a group of bone marrow disorders characterized by the over-production of blood cells, which can lead to fibrosis in the bone marrow. Vladan Čokić at the University of Belgrade, Serbia, and co-workers examined how stem cells known as mesenchymal stromal cells from the bone marrow contribute to MPN fibrosis. They found an increase in three pro-inflammatory signaling pathways in MPN patients, resulting in the stromal cells differentiating into cells with dysregulated extracellular matrices. The differentiated cells did not behave correctly nor degrade properly, triggering fibrosis. The team combined two drugs that target the inflammatory signaling pathways, and successfully inhibited the development of fibrosis in MPN cell cultures. |
| Author | Kapor, Sunčica Vojvodić, Aleksandar Živković, Emilija Mitrović Ajtić, Olivera Đikić, Dragoslava Santibáñez, Juan F. Dragojević, Teodora Čokić, Vladan P. Diklić, Miloš Subotički, Tijana Vukotić, Milica Beleslin Čokić, Bojana Gotić, Mirjana |
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| Snippet | Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular mechanism and... Abstract Although bone marrow-derived mesenchymal stromal cells (BM-MSCs) have been identified as a major cellular source of fibrosis, the exact molecular... |
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| SubjectTerms | 13/31 631/532/2074 631/67/1059/99 82/29 82/80 96/100 96/106 96/21 96/63 96/95 Biomedical and Life Sciences Biomedicine Bone marrow Bone Marrow - metabolism Bone Marrow - pathology Bone Marrow Cells - metabolism Cell differentiation Drug development Extracellular matrix Fibrosis Gelatinase B Humans Inflammation Janus kinase Janus kinase 2 Kinases Leukocytes (mononuclear) Medical Biochemistry Mesenchymal stem cells Mesenchymal Stem Cells - metabolism Mesenchyme Molecular Medicine Neoplasms - metabolism NF-κB protein Patients Phenotypes Signal Transduction Smad3 protein Stat3 protein Stem Cells Stromal cells Tumors 생화학 |
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| Title | Inhibition of proinflammatory signaling impairs fibrosis of bone marrow mesenchymal stromal cells in myeloproliferative neoplasms |
| URI | https://link.springer.com/article/10.1038/s12276-022-00742-y https://www.ncbi.nlm.nih.gov/pubmed/35288649 https://www.proquest.com/docview/2646834128 https://search.proquest.com/docview/2639224297 https://pubmed.ncbi.nlm.nih.gov/PMC8980093 https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART002826985 |
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| ispartofPNX | Experimental and Molecular Medicine, 2022, 54(0), , pp.1-12 |
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