The secret life of a megakaryocyte: emerging roles in bone marrow homeostasis control

Malara, Alessandro; Abbonante, Vittorio; Buduo, Christian A. Di; Tozzi, Lorenzo; Currao, Manuela; Balduini, Alessandra

doi:10.1007/s00018-014-1813-y

Cited by 74 publications

(57 citation statements)

References 232 publications

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“…MKs secrete a broad array of cytokines to regulate hematopoiesis. 46 To begin to understand the MK signals responsible for E-SLAM expansion in Pf4/FF1 mice, we measured the expression levels of FGF1 , Pf4 , Transforming growth factor beta 1 ( TGFb-1 ), Chemokine (C-X-C motif) ligand 12 ( CXCL12 ), VEGFa , chemokine (C-X-C motif) receptor 4 ( CXCR4 ) in Pf4/FF1 ( n = 4) and control MKs ( n = 3) using quantitative PCR (qPCR). We confirmed that there was upregulation of FGF1 (twofold, P = 0.004) in Pf4/FF1 MKs compared with control MKs (Figure 6c).…”

Section: Resultsmentioning

confidence: 99%

“…19–23,46,55,56 To investigate how JAK2 V617F -mutant MKs affect E-SLAM cell numbers and function, we performed a series of experiments. Although there was upregulation of FGF1, which positively expand MKs and facilitate HSPC expansion during stress hematopoiesis, in Pf4/FF1 MKs compared with control MKs, Pf4/FF1 MKCM suppressed E-SLAM cell proliferation in vitro , suggesting that the sum of the MK humoral influences is not responsible for the expansion of E-SLAM cells witnessed in our studies.…”

Section: Discussionmentioning

confidence: 99%

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JAK2V617F-mutant megakaryocytes contribute to hematopoietic stem/progenitor cell expansion in a model of murine myeloproliferation

Zhan

Lin

et al. 2016

Leukemia

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The myeloproliferative neoplasms (MPNs) are characterized by hematopoietic stem/progenitor cell (HSPC) expansion and overproduction of mature blood cells. The JAK2V617F mutation is present in hematopoietic cells in a majority of patients with MPNs, but the mechanism(s) responsible for MPN stem cell expansion remain incomplete. One hallmark feature of the marrow in patients with MPNs is megakaryocyte (MK) hyperplasia. We report here that mice bearing a human JAK2V617F gene restricted exclusively to the MK lineage develop many of the features of a MPN. Specifically, these mice exhibit thrombocytosis, splenomegaly, increased numbers of marrow and splenic hematopoietic progenitors and a substantial expansion of HSPCs. In addition, wild-type mice transplanted with cells from JAK2V617F-bearing MK marrow develop a myeloproliferative syndrome with thrombocytosis and erythrocytosis as well as pan-hematopoietic progenitor and stem cell expansion. As marrow histology in this murine model of myeloproliferation reveals a preferentially perivascular localization of JAK2V617F-mutant MKs and an increased marrow sinusoid vascular density, it adds to accumulating data that MKs are an important component of the marrow HSPC niche, and that MK expansion might indirectly contribute to the critical role of the thrombopoietin/c-Mpl signaling pathway in HSPC maintenance and expansion.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

JAK2V617F-mutant megakaryocytes contribute to hematopoietic stem/progenitor cell expansion in a model of murine myeloproliferation

Zhan

Lin

et al. 2016

Leukemia

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“…In particular, we showed that TPO is a pivotal regulator of this function by inducing TGF-β1 release, thus controlling ECM component synthesis in an autocrine manner. TGF-β1, as well as other soluble factors (e.g., ADP, VEGF, PF4) and ECM components (e.g., vWF, fibronectin), have been shown to be constitutively released by megakaryocytes to regulate their own differentiation and proplatelet formation [134,136,142,143,144,145,146], indicating that in physiological conditions megakaryocytes can activate an autocrine/paracrine loop which contribute to both their own development and overall bone marrow homeostasis [147]. Consistently, impaired synthesis and release of these proteins has been linked to altered megakaryocyte maturation, proplatelet formation and/or ECMs production [141,142,143,148], leading to a broad spectrum of clinical outcomes, from defective peripheral blood platelet count to deregulated bone marrow homeostasis [147,149,150].…”

Section: Thrombopoiesis: the Long Route Of Megakaryocytes To Platementioning

confidence: 99%

Pathophysiological Significance of Store-Operated Calcium Entry in Megakaryocyte Function: Opening New Paths for Understanding the Role of Calcium in Thrombopoiesis

Buduo

Balduini

Moccia

2016

IJMS

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Store-Operated Calcium Entry (SOCE) is a universal calcium (Ca2+) influx mechanism expressed by several different cell types. It is now known that Stromal Interaction Molecule (STIM), the Ca2+ sensor of the intracellular compartments, together with Orai and Transient Receptor Potential Canonical (TRPC), the subunits of Ca2+ permeable channels on the plasma membrane, cooperate in regulating multiple cellular functions as diverse as proliferation, differentiation, migration, gene expression, and many others, depending on the cell type. In particular, a growing body of evidences suggests that a tight control of SOCE expression and function is achieved by megakaryocytes along their route from hematopoietic stem cells to platelet production. This review attempts to provide an overview about the SOCE dynamics in megakaryocyte development, with a focus on most recent findings related to its involvement in physiological and pathological thrombopoiesis.

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“…1,2 The failure of HSCs to guarantee the physiologic homeostasis of one or more progenitors for circulating blood cells leads to pathologic conditions, such as aplastic anemia (AA) or myelodysplastic syndromes (MDS), characterized by peripheral pancytopenia of heterogeneous severity. 3,4 A selective cytopenia of blood platelets, namely thrombocytopenia, may occur because of mutations in genes relevant for the functions of maturing megakaryocytic progenitors, as in inherited thrombocytopenias (IT).…”

Section: Introductionmentioning

confidence: 99%

Revealing eltrombopags promotion of human megakaryopoiesis through AKT/ERK-dependent pathway activation

et al. 2016

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The secret life of a megakaryocyte: emerging roles in bone marrow homeostasis control

Cited by 74 publications

References 232 publications

JAK2V617F-mutant megakaryocytes contribute to hematopoietic stem/progenitor cell expansion in a model of murine myeloproliferation

JAK2V617F-mutant megakaryocytes contribute to hematopoietic stem/progenitor cell expansion in a model of murine myeloproliferation

Pathophysiological Significance of Store-Operated Calcium Entry in Megakaryocyte Function: Opening New Paths for Understanding the Role of Calcium in Thrombopoiesis

Revealing eltrombopags promotion of human megakaryopoiesis through AKT/ERK-dependent pathway activation

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