Literature DB >> 21653321

Ddx18 is essential for cell-cycle progression in zebrafish hematopoietic cells and is mutated in human AML.

Elspeth M Payne1, Niccolò Bolli, Jennifer Rhodes, Omar I Abdel-Wahab, Ross Levine, Cyrus V Hedvat, Richard Stone, Arati Khanna-Gupta, Hong Sun, John P Kanki, Hanna T Gazda, Alan H Beggs, Finbarr E Cotter, A Thomas Look.   

Abstract

In a zebrafish mutagenesis screen to identify genes essential for myelopoiesis, we identified an insertional allele hi1727, which disrupts the gene encoding RNA helicase dead-box 18 (Ddx18). Homozygous Ddx18 mutant embryos exhibit a profound loss of myeloid and erythroid cells along with cardiovascular abnormalities and reduced size. These mutants also display prominent apoptosis and a G1 cell-cycle arrest. Loss of p53, but not Bcl-xl overexpression, rescues myeloid cells to normal levels, suggesting that the hematopoietic defect is because of p53-dependent G1 cell-cycle arrest. We then sequenced primary samples from 262 patients with myeloid malignancies because genes essential for myelopoiesis are often mutated in human leukemias. We identified 4 nonsynonymous sequence variants (NSVs) of DDX18 in acute myeloid leukemia (AML) patient samples. RNA encoding wild-type DDX18 and 3 NSVs rescued the hematopoietic defect, indicating normal DDX18 activity. RNA encoding one mutation, DDX18-E76del, was unable to rescue hematopoiesis, and resulted in reduced myeloid cell numbers in ddx18(hi1727/+) embryos, indicating this NSV likely functions as a dominant-negative allele. These studies demonstrate the use of the zebrafish as a robust in vivo system for assessing the function of genes mutated in AML, which will become increasingly important as more sequence variants are identified by next-generation resequencing technologies.

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Year:  2011        PMID: 21653321      PMCID: PMC3148170          DOI: 10.1182/blood-2010-11-318022

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  48 in total

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10.  Myelopoiesis and myeloid leukaemogenesis in the zebrafish.

Authors:  A Michael Forrester; Jason N Berman; Elspeth M Payne
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