A Senescence-Like Cell-Cycle Arrest Occurs During Megakaryocytic Maturation: Implications for Physiological and Pathological Megakaryocytic Proliferation

During normal megakaryocyte development, in response to thrombopoetin, mature cells enter a senescence-like state in which they shed platelets; this state, characterized by cell cycle arrest, is defective in malignant megakaryocytes

CXCL12/CXCR4 pathway is activated by oncogenic JAK2 in a PI3K-dependent manner

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New mutations of MPL in primitive myelofibrosis: only the MPL W515 mutations promote a G1/S-phase transition.

International audienceMPL (or thrombopoietin receptor, TPO-R) 515 mutations have recently been described in 5-10% of primitive myelofibrosis (PMF) cases as decisive oncogenic events capable of triggering the disease. Here we report additional mutations located in exon 10 of MPL in PMF patients. We investigated whether these new mutations also lead to cell transformation. MPL exon 10 was systematically sequenced in 100 PMF patients. Seven different mutations were found in eight patients. We introduced each MPL mutant in Ba/F3 cells to determine whether they correspond to gain-of-function mutations. Only MPL W515 mutations induced (1) Ba/F3 proliferation independently of growth factors, (2) tumorigenesis in nude mice, (3) spontaneous activation of JAK/STAT, RAS/MAPK and PI3K transduction pathways and (4) increased S phase of cell cycle. Similar to all other myeloproliferative disorder oncogenic events identified to date, these results demonstrate that only the detected MPL W515 mutations trigger spontaneous MPL activation leading to a G(1)/S transition activation. The other mutations are devoid of significant transforming activity but may synergize with JAK2 V617F or other not yet characterized molecular events

JAK2 and MPL protein levels determine TPO-induced megakaryocyte proliferation vs differentiation.

Megakaryopoiesis is a 2-step differentiation process, regulated by thrombopoietin (TPO), on binding to its cognate receptor myeloproliferative leukemia (MPL). This receptor associates with intracytoplasmic tyrosine kinases, essentially janus kinase 2 (JAK2), which regulates MPL stability and cell-surface expression, and mediates TPO-induced signal transduction. We demonstrate that JAK2 and MPL mediate TPO-induced proliferation arrest and megakaryocytic differentiation of the human megakaryoblastic leukemia cell line UT7-MPL. A decrease in JAK2 or MPL protein expression, and JAK2 chemical inhibition, suppress this antiproliferative action of TPO. The expression of JAK2 and MPL, which progressively increases along normal human megakaryopoiesis, is decreased in platelets of patients diagnosed with JAK2- or MPL-mutated essential thrombocytemia and primary myelofibrosis, 2 myeloproliferative neoplasms in which megakaryocytes (MKs) proliferate excessively. Finally, low doses of JAK2 chemical inhibitors are shown to induce a paradoxical increase in MK production, both in vitro and in vivo. We propose that JAK2 and MPL expression levels regulate megakaryocytic proliferation vs differentiation in both normal and pathological conditions, and that JAK2 chemical inhibitors could promote a paradoxical thrombocytosis when used at suboptimal doses

Thrombopoietin receptor down-modulation by JAK2 V617F: restoration of receptor levels by inhibitors of pathologic JAK2 signaling and of proteasomes.

The constitutively active JAK2 V617F mutant is the major determinant of human myeloproliferative neoplasms (MPNs). We show that coexpression of murine JAK2 V617F and the murine thrombopoietin (Tpo) receptor (TpoR, c-MPL) in hematopoietic cell lines or heterozygous knock-in of JAK2 V617F in mice leads to down-modulation of TpoR levels. Enhanced TpoR ubiquitinylation, proteasomal degradation, reduced recycling, and maturation are induced by the constitutive JAK2 V617F activity. These effects can be prevented in cell lines by JAK2 and proteasome inhibitors. Restoration of TpoR levels by inhibitors could be detected in platelets from JAK2 inhibitor-treated myelofibrosis patients that express the JAK2 V617F mutant, and in platelets from JAK2 V617F knock-in mice that were treated in vivo with JAK2 or proteasome inhibitors. In addition, we show that Tpo can induce both proliferative and antiproliferative effects via TpoR at low and high JAK2 activation levels, respectively, or on expression of JAK2 V617F. The antiproliferative signaling and receptor down-modulation by JAK2 V617F were dependent on signaling via TpoR cytosolic tyrosine 626. We propose that selection against TpoR antiproliferative signaling occurs by TpoR down-modulation and that restoration of down-modulated TpoR levels could become a biomarker for the treatment of MPNs

La santé face au changement climatique en région Provence-Alpes-Côte d'Azur

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La santé face au changement climatique en région Provence-Alpes-Côte d'Azur

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