Mechanisms underlying platelet function defect in a pedigree with familial platelet disorder with a predisposition to acute myelogenous leukemia: Potential role for candidate RUNX1 targets

A. C. Glembotsky, D. Bluteau, Y. R. Espasandin, N. P. Goette, R. F. Marta, C. P. Marin Oyarzun, L. Korin, P. R. Lev, R. P. Laguens, F. C. Molinas, H. Raslova, P. G. Heller

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    Abstract

    Summary: Background: Familial platelet disorder with a predisposition to acute myelogenous leukemia (FPD/AML) is an inherited platelet disorder caused by a germline RUNX1 mutation and characterized by thrombocytopenia, a platelet function defect, and leukemia predisposition. The mechanisms underlying FPD/AML platelet dysfunction remain incompletely clarified. We aimed to determine the contribution of platelet structural abnormalities and defective activation pathways to the platelet phenotype. In addition, by using a candidate gene approach, we sought to identify potential RUNX1-regulated genes involved in these defects. Methods: Lumiaggregometry, α-granule and dense granule content and release, platelet ultrastructure, αIIbβ3 integrin activation and outside-in signaling were assessed in members of one FPD/AML pedigree. Expression levels of candidate genes were measured and luciferase reporter assays and chromatin immunoprecipitation were performed to study NF-E2 regulation by RUNX1. Results: A severe decrease in platelet aggregation, defective αIIbβ3 integrin activation and combined αδ storage pool deficiency were found. However, whereas the number of dense granules was markedly reduced, α-granule content was heterogeneous. A trend towards decreased platelet spreading was found, and β3 integrin phosphorylation was impaired, reflecting altered outside-in signaling. A decrease in the level of transcription factor p45 NF-E2 was shown in platelet RNA and lysates, and other deregulated genes included RAB27B and MYL9. RUNX1 was shown to bind to the NF-E2 promoter in primary megakaryocytes, and wild-type RUNX1, but not FPD/AML mutants, was able to activate NF-E2 expression. Conclusions: The FPD/AML platelet function defect represents a complex trait, and RUNX1 orchestrates platelet function by regulating diverse aspects of this process. This study highlights the RUNX1 target NF-E2 as part of the molecular network by which RUNX1 regulates platelet biogenesis and function.

    Original languageEnglish
    Pages (from-to)761-772
    Number of pages12
    JournalJournal of Thrombosis and Haemostasis
    Volume12
    Issue number5
    DOIs
    Publication statusPublished - 1 Jan 2014

    Keywords

    • Blood platelet disorder
    • FPD/AML
    • NF-E2 transcription factor
    • Platelet function tests
    • RUNX1 protein
    • Rab27B protein, human

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