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Literature DB >> 32196650

Myelofibrosis biology and contemporary management.

Abstract

Myelofibrosis is an enigmatic myeloproliferative neoplasm, despite noteworthy strides in understanding its genetic underpinnings. Driver mutations involving JAK2, CALR or MPL in 90% of patients mediate constitutive JAK-STAT signaling which, in concert with epigenetic alterations (ASXL1, DNMT3A, SRSF2, EZH2, IDH1/2 mutations), play a fundamental role in disease pathogenesis. Aberrant immature megakaryocytes are a quintessential feature, exhibiting reduced GATA1 protein expression and secreting a plethora of pro-inflammatory cytokines (IL-1 ß, TGF-ß), growth factors (b-FGF, PDGF, VEGF) in addition to extra cellular matrix components (fibronectin, laminin, collagens). The ensuing disrupted interactions amongst the megakaryocytes, osteoblasts, endothelium, stromal cells and myofibroblasts within the bone marrow culminate in the development of fibrosis and osteosclerosis. Presently, prognostic assessment tools for primary myelofibrosis (PMF) are centered on genetics, with incorporation of cytogenetic and molecular information into the mutation-enhanced (MIPSS 70-plus version 2.0) and genetically-inspired (GIPSS) prognostic scoring systems. Both models illustrate substantial clinical heterogeneity in PMF and serve as the crux for risk-adapted therapeutic decisions. A major challenge remains the dearth of disease-modifying drugs, whereas allogeneic transplant offers the chance of long-term remission for some patients. Our review serves to synopsise current appreciation of the pathogenesis of myelofibrosis together with emerging management strategies.

Entities: Disease Gene Species

Keywords: megakaryocytes; myelofibrosis; myeloproliferative; prognosis

Mesh：

Year: 2020 PMID： 32196650 DOI： 10.1111/bjh.16576

Source DB: PubMed Journal: Br J Haematol ISSN： 0007-1048 Impact factor: 6.998

Keyword Cloud
Cited

15 in total

1. Gene expression profile correlates with molecular and clinical features in patients with myelofibrosis.

Authors: Sebastiano Rontauroli; Sara Castellano; Paola Guglielmelli; Roberta Zini; Elisa Bianchi; Elena Genovese; Chiara Carretta; Sandra Parenti; Sebastian Fantini; Selene Mallia; Lara Tavernari; Stefano Sartini; Margherita Mirabile; Carmela Mannarelli; Francesca Gesullo; Annalisa Pacilli; Daniela Pietra; Elisa Rumi; Silvia Salmoiraghi; Barbara Mora; Laura Villani; Andrea Grilli; Vittorio Rosti; Giovanni Barosi; Francesco Passamonti; Alessandro Rambaldi; Luca Malcovati; Mario Cazzola; Silvio Bicciato; Enrico Tagliafico; Alessandro M Vannucchi; Rossella Manfredini
Journal: Blood Adv Date: 2021-03-09

2. IGFBP-6/sonic hedgehog/TLR4 signalling axis drives bone marrow fibrotic transformation in primary myelofibrosis.

Authors: Lucia Longhitano; Daniele Tibullo; Nunzio Vicario; Cesarina Giallongo; Enrico La Spina; Alessandra Romano; Sofia Lombardo; Marina Moretti; Francesco Masia; Anna Rita Daniela Coda; Santina Venuto; Paolo Fontana; Rosalba Parenti; Giovanni Li Volti; Michelino Di Rosa; Giuseppe A Palumbo; Arcangelo Liso
Journal: Aging (Albany NY) Date: 2021-12-14 Impact factor: 5.682

Review 3. MPN: The Molecular Drivers of Disease Initiation, Progression and Transformation and their Effect on Treatment.

Authors: Julian Grabek; Jasmin Straube; Megan Bywater; Steven W Lane
Journal: Cells Date: 2020-08-14 Impact factor: 6.600

Review 4. Focus on Osteosclerotic Progression in Primary Myelofibrosis.

Authors: Mariarita Spampinato; Cesarina Giallongo; Alessandra Romano; Lucia Longhitano; Enrico La Spina; Roberto Avola; Grazia Scandura; Ilaria Dulcamare; Vincenzo Bramanti; Michelino Di Rosa; Nunzio Vicario; Rosalba Parenti; Giovanni Li Volti; Daniele Tibullo; Giuseppe A Palumbo
Journal: Biomolecules Date: 2021-01-19

5. Genome-wide DNA methylation profiling is able to identify prefibrotic PMF cases at risk for progression to myelofibrosis.

Authors: Ulrich Lehmann; Helge Stark; Stephan Bartels; Jerome Schlue; Guntram Büsche; Hans Kreipe
Journal: Clin Epigenetics Date: 2021-02-04 Impact factor: 6.551

Review 6. Persistence of myelofibrosis treated with ruxolitinib: biology and clinical implications.

Authors: David M Ross; Jeffrey J Babon; Denis Tvorogov; Daniel Thomas
Journal: Haematologica Date: 2021-05-01 Impact factor: 9.941

7. Transcriptome research identifies four hub genes related to primary myelofibrosis: a holistic research by weighted gene co-expression network analysis.

Authors: Weihang Li; Yingjing Zhao; Dong Wang; Ziyi Ding; Chengfei Li; Bo Wang; Xiong Xue; Jun Ma; Yajun Deng; Quancheng Liu; Guohua Zhang; Ying Zhang; Kai Wang; Bin Yuan
Journal: Aging (Albany NY) Date: 2021-10-11 Impact factor: 5.682

Review 8. The Genetic Architecture of High Bone Mass.

Authors: Celia L Gregson; Emma L Duncan
Journal: Front Endocrinol (Lausanne) Date: 2020-10-29 Impact factor: 5.555

9. Editorial: Novel Treatment Strategies for Myeloproliferative Neoplasms.

Authors: Ken-Hong Lim; Shinobu Matsuura; Bing Xu
Journal: Front Oncol Date: 2021-09-15 Impact factor: 6.244

Review 10. Illuminating novel biological aspects and potential new therapeutic approaches for chronic myeloproliferative malignancies.

Authors: Tariq I Mughal; Naveen Pemmaraju; Bethan Psaila; Jerald Radich; Prithviraj Bose; Thomas Lion; Jean-Jacques Kiladjian; Raajit Rampal; Tania Jain; Srdnan Verstovsek; Abdulraheem Yacoub; Jorge E Cortes; Ruben Mesa; Giuseppe Saglio; Richard A van Etten
Journal: Hematol Oncol Date: 2020-09-04 Impact factor: 5.271