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Literature DB >> 28405618

Efficacy of ALK5 inhibition in myelofibrosis.

Lanzhu Yue^1,2, Matthias Bartenstein³, Wanke Zhao⁴, Wanting Tina Ho⁴, Ying Han^1,5, Cem Murdun¹, Adam W Mailloux⁶, Ling Zhang⁷, Xuefeng Wang⁸, Anjali Budhathoki³, Kith Pradhan³, Franck Rapaport⁹, Huaquan Wang², Zonghong Shao², Xiubao Ren⁵, Ulrich Steidl³, Ross L Levine⁹, Zhizhuang Joe Zhao⁴, Amit Verma³, Pearlie K Epling-Burnette¹.

Abstract

Myelofibrosis (MF) is a bone marrow disorder characterized by clonal myeloproliferation, aberrant cytokine production, extramedullary hematopoiesis, and bone marrow fibrosis. Although somatic mutations in JAK2, MPL, and CALR have been identified in the pathogenesis of these diseases, inhibitors of the Jak2 pathway have not demonstrated efficacy in ameliorating MF in patients. TGF-β family members are profibrotic cytokines and we observed significant TGF-β1 isoform overexpression in a large cohort of primary MF patient samples. Significant overexpression of TGF-β1 was also observed in murine clonal MPLW515L megakaryocytic cells. TGF-β1 stimulated the deposition of excessive collagen by mesenchymal stromal cells (MSCs) by activating the TGF-β receptor I kinase (ALK5)/Smad3 pathway. MSCs derived from MPLW515L mice demonstrated sustained overproduction of both collagen I and collagen III, effects that were abrogated by ALK5 inhibition in vitro and in vivo. Importantly, use of galunisertib, a clinically active ALK5 inhibitor, significantly improved MF in both MPLW515L and JAK2V617F mouse models. These data demonstrate the role of malignant hematopoietic stem cell (HSC)/TGF-β/MSC axis in the pathogenesis of MF, and provide a preclinical rationale for ALK5 blockade as a therapeutic strategy in MF.

Entities: Chemical Disease Gene Mutation Species

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Year: 2017 PMID： 28405618 PMCID： PMC5374075 DOI： 10.1172/jci.insight.90932

Source DB: PubMed Journal: JCI Insight ISSN： 2379-3708

70 in total

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Journal: Leukemia Date: 2007-09-20 Impact factor: 11.528

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Authors: Paul S Frenette; Sandra Pinho; Daniel Lucas; Christoph Scheiermann
Journal: Annu Rev Immunol Date: 2013-01-03 Impact factor: 28.527

3. Functional and genetic aberrations of in vitro-cultured marrow-derived mesenchymal stromal cells of patients with classical Philadelphia-negative myeloproliferative neoplasms.

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Journal: Leukemia Date: 2014-03-12 Impact factor: 11.528

4. P-Selectin Sustains Extramedullary Hematopoiesis in the Gata1 low Model of Myelofibrosis.

Authors: Gerald J Spangrude; Daniel Lewandowski; Fabrizio Martelli; Manuela Marra; Maria Zingariello; Laura Sancillo; Rosa Alba Rana; Anna Rita Migliaccio
Journal: Stem Cells Date: 2015-10-23 Impact factor: 6.277

5. Somatic mutations of calreticulin in myeloproliferative neoplasms.

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Journal: N Engl J Med Date: 2013-12-10 Impact factor: 91.245

Review 6. TGF-beta and fibrosis in different organs - molecular pathway imprints.

Authors: Dirk Pohlers; Julia Brenmoehl; Ivonne Löffler; Cornelia K Müller; Carola Leipner; Stefan Schultze-Mosgau; Andreas Stallmach; Raimund W Kinne; Gunter Wolf
Journal: Biochim Biophys Acta Date: 2009-06-17

7. A novel interaction between megakaryocytes and activated fibrocytes increases TGF-β bioavailability in the Gata1(low) mouse model of myelofibrosis.

Authors: Maria Zingariello; Alessandra Ruggeri; Fabrizio Martelli; Manuela Marra; Laura Sancillo; Ilaria Ceglia; Rosa Alba Rana; Anna Rita Migliaccio
Journal: Am J Blood Res Date: 2015-12-25

8. Transgenic expression of JAK2V617F causes myeloproliferative disorders in mice.

Authors: Shu Xing; Tina Ho Wanting; Wanming Zhao; Junfeng Ma; Shaofeng Wang; Xuesong Xu; Qingshan Li; Xueqi Fu; Mingjiang Xu; Zhizhuang Joe Zhao
Journal: Blood Date: 2008-03-11 Impact factor: 22.113

9. Mesenchymal Cell Reprogramming in Experimental MPLW515L Mouse Model of Myelofibrosis.

Authors: Ying Han; Lanzhu Yue; Max Wei; Xiubao Ren; Zonghong Shao; Ling Zhang; Ross L Levine; Pearlie K Epling-Burnette
Journal: PLoS One Date: 2017-01-30 Impact factor: 3.240

10. Targeting megakaryocytic-induced fibrosis in myeloproliferative neoplasms by AURKA inhibition.

Authors: Qiang Jeremy Wen; Qiong Yang; Benjamin Goldenson; Sébastien Malinge; Terra Lasho; Rebekka K Schneider; Lawrence J Breyfogle; Rachael Schultz; Laure Gilles; Priya Koppikar; Omar Abdel-Wahab; Animesh Pardanani; Brady Stein; Sandeep Gurbuxani; Ann Mullally; Ross L Levine; Ayalew Tefferi; John D Crispino
Journal: Nat Med Date: 2015-11-16 Impact factor: 53.440

23 in total

Review 1. GATA1 insufficiencies in primary myelofibrosis and other hematopoietic disorders: consequences for therapy.

Authors: Te Ling; John D Crispino; Maria Zingariello; Fabrizio Martelli; Anna Rita Migliaccio
Journal: Expert Rev Hematol Date: 2018-02-19 Impact factor: 2.929

Review 2. Management of Myelofibrosis-Related Cytopenias.

Authors: Prithviraj Bose; Srdan Verstovsek
Journal: Curr Hematol Malig Rep Date: 2018-06 Impact factor: 3.952

Review 3. New Concepts of Treatment for Patients with Myelofibrosis.

Authors: Prithviraj Bose; Mansour Alfayez; Srdan Verstovsek
Journal: Curr Treat Options Oncol Date: 2019-01-24

4. Increased CXCL4 expression in hematopoietic cells links inflammation and progression of bone marrow fibrosis in MPN.

Authors: Hélène F E Gleitz; Aurélien J F Dugourd; Nils B Leimkühler; Inge A M Snoeren; Stijn N R Fuchs; Sylvia Menzel; Susanne Ziegler; Nicolaus Kröger; Ioanna Triviai; Guntram Büsche; Hans Kreipe; Bella Banjanin; Jessica E Pritchard; Remco Hoogenboezem; Eric M Bindels; Neele Schumacher; Stefan Rose-John; Shannon Elf; Julio Saez-Rodriguez; Rafael Kramann; Rebekka K Schneider
Journal: Blood Date: 2020-10-29 Impact factor: 22.113

5. HDAC11 deficiency disrupts oncogene-induced hematopoiesis in myeloproliferative neoplasms.

Authors: Lanzhu Yue; Vasundhara Sharma; Nathan P Horvat; Afua A Akuffo; Matthew S Beatty; Cem Murdun; Christelle Colin; Julia M R Billington; William E Goodheart; Eva Sahakian; Ling Zhang; John J Powers; Narmin E Amin; Que T Lambert-Showers; Lancia N Darville; Javier Pinilla-Ibarz; Gary W Reuther; Kenneth L Wright; Chiara Conti; Jennifer Y Lee; Xiaozhang Zheng; Pui Yee Ng; Matthew W Martin; C Gary Marshall; John M Koomen; Ross L Levine; Amit Verma; H Leighton Grimes; Eduardo M Sotomayor; Zonghong Shao; Pearlie K Epling-Burnette
Journal: Blood Date: 2020-01-16 Impact factor: 22.113

Review 6. Bone Morphogenic Protein Signaling and Melanoma.

Authors: Piotr Kraj
Journal: Curr Treat Options Oncol Date: 2021-04-17

Review 7. The Role of Megakaryocytes in Myelofibrosis.

Authors: Johanna Melo-Cardenas; Anna Rita Migliaccio; John D Crispino
Journal: Hematol Oncol Clin North Am Date: 2021-01-11 Impact factor: 3.722

Review 8. Inflammatory Microenvironment and Specific T Cells in Myeloproliferative Neoplasms: Immunopathogenesis and Novel Immunotherapies.

Authors: Vincenzo Nasillo; Giovanni Riva; Ambra Paolini; Fabio Forghieri; Luca Roncati; Beatrice Lusenti; Monica Maccaferri; Andrea Messerotti; Valeria Pioli; Andrea Gilioli; Francesca Bettelli; Davide Giusti; Patrizia Barozzi; Ivana Lagreca; Rossana Maffei; Roberto Marasca; Leonardo Potenza; Patrizia Comoli; Rossella Manfredini; Antonino Maiorana; Enrico Tagliafico; Mario Luppi; Tommaso Trenti
Journal: Int J Mol Sci Date: 2021-02-14 Impact factor: 5.923

9. CDK6 Is a Therapeutic Target in Myelofibrosis.

Authors: Avik Dutta; Dipmoy Nath; Yue Yang; Bao T Le; Golam Mohi
Journal: Cancer Res Date: 2021-06-18 Impact factor: 12.701

Review 10. Inflammatory Pathophysiology as a Contributor to Myeloproliferative Neoplasms.

Authors: Daniel Arthur Corpuz Fisher; Jared Scott Fowles; Amy Zhou; Stephen Tracy Oh
Journal: Front Immunol Date: 2021-06-01 Impact factor: 8.786