Emmy Meijne scite author profile

Murine radiation-induced acute myeloid leukaemia (AML) is characterized by loss of one copy of chromosome 2. Previously, we positioned the critical haematopoietic-specific transcription factor PU.1 within a minimally deleted region. We now report a high frequency (>65%) of missense mutation at codon 235 in the DNAbinding Ets domain of PU.1 in murine AML. Earlier studies, outside the context of malignancy, determined that conversion of arginine 235 (R235) to any other amino-acid residue leads to ablation of DNA-binding function and loss of expression of downstream targets. We show that mutation of R235 does not lead to protein loss, and occurs specifically in those AMLs showing loss of one copy of PU.1 (P ¼ 0.001, Fisher's exact test). PU.1 mutations were not found in the coding region, UTRs or promoter of human therapy-related AMLs. Potentially regulatory elements upstream of PU.1 were located but no mutations found. In conclusion, we have identified the cause of murine radiation-induced AML and have shown that loss of one copy of PU.1, as a consequence of flanking radiation-sensitive fragile domains on chromosome 2, and subsequent R235 conversion are highly specific to this mouse model. Such a mechanism does not operate, or is extremely rare, in human AML.

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Molecular mapping of chromosome 2 deletions in murine radiation‐induced AML localizes a putative tumor suppressor gene to a 1.0 cM region homologous to human chromosome segment 11p11–12

Silver¹,

Moody²,

Dunford³

et al. 1999

Genes Chromosom. Cancer

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Radiation-induced acute myeloid leukemias (AMLs) in the mouse are characterized by chromosome 2 deletions. Previous studies showed that a minimal deleted region (mdr) of approximately 6.5 cM is lost from one homologue in chromosome 2-deleted AMLs. An AML tumor suppressor gene is proposed to map within this mdr. In this study, we refine the mdr to a I cM interval between markers D2Mit126 and D2Mit185 by microsatellite analysis of 21 primary radiation-induced F I AMLs. The construction of a partial yeast artificial chromosome (YAC) contig spanning the mdr and the location of six known genes indicated that the 1 cM mdr is homologous to human 11p11-12, a region implicated in some human AMLs. Screening of five cell lines derived from primary radiation-induced AMLs for homozygous loss of microsatellites and genes mapping within the mdr revealed loss of both copies of the hemopoietic tissue-specific transcription factor Sfpi1(PU.1/Spi1) in one cell line. Studies of primary and F1 AMLs failed to implicate Sfpi1 as the AML tumor suppressor gene. YAC contig construction, together with data suggesting that the critical gene flanks Sfpi1, represents significant progress toward identifying an AML tumor suppressor gene.

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Molecular mapping of chromosome 2 deletions in murine radiation-induced AML localizes a putative tumor suppressor gene to a 1.0 cM region homologous to human chromosome segment 11p11-12

Silver¹,

Moody²,

Dunford³

et al. 1999

Genes Chromosom. Cancer

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Flt3-ITD mutations in a mouse model of radiation-induced acute myeloid leukaemia

Finnon¹,

Brown²,

Moody³

et al. 2012

Leukemia

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A two-mutation model of radiation-induced acute myeloid leukemia using historical mouse data

Dekkers¹,

Bijwaard²,

Bouffler³

et al. 2010

Radiat Environ Biophys

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From studies of the atomic bomb survivors, it is well known that ionizing radiation causes several forms of leukemia. However, since the specific mechanism behind this process remains largely unknown, it is difficult to extrapolate carcinogenic effects at acute high-dose exposures to risk estimates for the chronic low-dose exposures that are important for radiation protection purposes. Recently, it has become clear that the induction of acute myeloid leukemia (AML) in CBA/H mice takes place through two key steps, both involving the Sfpi1 gene. A similar mechanism may play a role in human radiation-induced AML. In the present paper, a two-mutation carcinogenesis model is applied to model AML in several data sets of X-ray- and neutron-exposed CBA/H mice. The models obtained provide good fits to the data. A comparison between the predictions for neutron-induced and X-ray-induced AML yields an RBE for neutrons of approximately 3. The model used is considered to be a first step toward a model for human radiation-induced AML, which could be used to estimate risks of exposure to low doses.

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Chromosomal Abnormalities in Neutron-Induced Acute Myeloid Leukemias in CBA/H Mice

Bouffler¹,

Meijne²,

Huiskamp³

et al. 1996

Radiation Research

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Acute myeloid leukemias (AMLs) induced in CBA/H mice by 1 MeV fission neutrons have been examined for chromosomal abnormalities by G-band analysis. In common with X-ray- and alpha-particle-induced AMLs in CBA/H mice, more than 90% (16/17) of the myeloid leukemias had chromosome 2 abnormalities, in this case, all interstitial deletions. Chromosome 2 breakpoints were not wholly consistent, but clustering in three specific G-band regions was observed. Very distal (H-region) breakpoints were more common in the neutron AMLs than in X-ray- or alpha-particle-induced leukemias. These data indicate that neutron-induced AMLs in CBA/H mice are not characterized by a specific chromosome deletion but that a variety of chromosome 2 deletion types are associated with the disease. Trisomy of chromosome 1(12.5% AMLs) and aneusomy of chromosomes 6 (31% AMLs) and Y (37.5% AMLs) were noted. While chromatid breakage was observed occasionally in neutron-induced AML, no clear indications of persistent chromosomal instability or high levels of stable chromosomal change were apparent.

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Microsatellite analysis of recurrent chromosome 2 deletions in acute myeloid leukaemia induced by radiation in FI hybrid mice

Clark

Meijne

Bouffler³

et al. 1996

Genes Chromosom. Cancer

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Intestinal tumours induced inApc^Min/+mice by X-rays and neutrons

Ellender¹,

Harrison²,

Meijne

et al. 2011

International Journal of Radiation Biology

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Emmy Meijne

Mutations of the PU.1 Ets domain are specifically associated with murine radiation-induced, but not human therapy-related, acute myeloid leukaemia

Molecular mapping of chromosome 2 deletions in murine radiation‐induced AML localizes a putative tumor suppressor gene to a 1.0 cM region homologous to human chromosome segment 11p11–12

Molecular mapping of chromosome 2 deletions in murine radiation-induced AML localizes a putative tumor suppressor gene to a 1.0 cM region homologous to human chromosome segment 11p11-12

Flt3-ITD mutations in a mouse model of radiation-induced acute myeloid leukaemia

A two-mutation model of radiation-induced acute myeloid leukemia using historical mouse data

Chromosomal Abnormalities in Neutron-Induced Acute Myeloid Leukemias in CBA/H Mice

Microsatellite analysis of recurrent chromosome 2 deletions in acute myeloid leukaemia induced by radiation in FI hybrid mice

Intestinal tumours induced inApc^Min/+mice by X-rays and neutrons

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Emmy Meijne

Mutations of the PU.1 Ets domain are specifically associated with murine radiation-induced, but not human therapy-related, acute myeloid leukaemia

Molecular mapping of chromosome 2 deletions in murine radiation‐induced AML localizes a putative tumor suppressor gene to a 1.0 cM region homologous to human chromosome segment 11p11–12

Molecular mapping of chromosome 2 deletions in murine radiation-induced AML localizes a putative tumor suppressor gene to a 1.0 cM region homologous to human chromosome segment 11p11-12

Flt3-ITD mutations in a mouse model of radiation-induced acute myeloid leukaemia

A two-mutation model of radiation-induced acute myeloid leukemia using historical mouse data

Chromosomal Abnormalities in Neutron-Induced Acute Myeloid Leukemias in CBA/H Mice

Microsatellite analysis of recurrent chromosome 2 deletions in acute myeloid leukaemia induced by radiation in FI hybrid mice

Intestinal tumours induced inApcMin/+mice by X-rays and neutrons

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Intestinal tumours induced inApc^Min/+mice by X-rays and neutrons