Vitamin C-induced epigenomic remodelling in IDH1 mutant acute myeloid leukaemia

M. Mingay; A. Chaturvedi; M. Bilenky; Q. Cao; L. Jackson; T. Hui; M. Moksa; A. Heravi-Moussavi; R. K. Humphries; M. Heuser; M. Hirst

doi:10.1038/leu.2017.171

Vitamin C-induced epigenomic remodelling in IDH1 mutant acute myeloid leukaemia

M. Mingay, A. Chaturvedi, M. Bilenky, Q. Cao, L. Jackson, T. Hui, M. Moksa, A. Heravi-Moussavi, R. K. Humphries, M. Heuser, M. Hirst

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Resumen

The genomes of myeloid malignancies are characterized by epigenomic abnormalities. Heterozygous, inactivating ten-eleven translocation 2 (TET2) mutations and neomorphic isocitrate dehydrogenase (IDH) mutations are recurrent and mutually exclusive in acute myeloid leukaemia genomes. Ascorbic acid (Vitamin C) has been shown to stimulate the catalytic activity of TET2 in vitro and thus we sought to explore its effect in a leukaemic model expressing IDH1R132H. Vitamin C treatment induced an IDH1R132Hdependent reduction in cell proliferation and an increase in expression of genes involved in leukocyte differentiation. Vitamin C induced differentially methylated regions that displayed a significant overlap with enhancers implicated in myeloid differentiation and were enriched in sequence elements for the haematopoietic transcription factors CEBPβ, HIF1α, RUNX1 and PU.1. Chromatin immunoprecipitation sequencing of PU.1 and RUNX1 revealed a significant loss of PU.1 and increase of RUNX1-bound DNA elements accompanied by their demethylation following Vitamin C treatment. In addition, Vitamin C induced an increase in H3K27ac flanking sites bound by RUNX1. On the basis of these data we propose a model of Vitamin C-induced epigenetic remodelling of transcription factor-binding sites driving differentiation in a leukaemic model.

Idioma original	English
Páginas (desde-hasta)	11-20
Número de páginas	10
Publicación	Leukemia
Volumen	32
N.º	1
DOI	https://doi.org/10.1038/leu.2017.171
Estado	Published - ene. 2018
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
This work was supported by grants from the Terry Fox Research Institute Program Project (Grant: TFRI #1039) to MH and RKH, the Canadian Cancer Society Research Institute (Grant: CCSRI #703489) to MH, and grants 70111267 from Deutsche Krebshilfe to M Heuser (DFG grants HE 5240/5-1 and HE 5240/6-1). Sequencing data sets are available under GEO series GSE87623.

Publisher Copyright:
© The Author(s) 2018.

ASJC Scopus Subject Areas

Hematology
Oncology
Cancer Research

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title = "Vitamin C-induced epigenomic remodelling in IDH1 mutant acute myeloid leukaemia",

abstract = "The genomes of myeloid malignancies are characterized by epigenomic abnormalities. Heterozygous, inactivating ten-eleven translocation 2 (TET2) mutations and neomorphic isocitrate dehydrogenase (IDH) mutations are recurrent and mutually exclusive in acute myeloid leukaemia genomes. Ascorbic acid (Vitamin C) has been shown to stimulate the catalytic activity of TET2 in vitro and thus we sought to explore its effect in a leukaemic model expressing IDH1R132H. Vitamin C treatment induced an IDH1R132Hdependent reduction in cell proliferation and an increase in expression of genes involved in leukocyte differentiation. Vitamin C induced differentially methylated regions that displayed a significant overlap with enhancers implicated in myeloid differentiation and were enriched in sequence elements for the haematopoietic transcription factors CEBPβ, HIF1α, RUNX1 and PU.1. Chromatin immunoprecipitation sequencing of PU.1 and RUNX1 revealed a significant loss of PU.1 and increase of RUNX1-bound DNA elements accompanied by their demethylation following Vitamin C treatment. In addition, Vitamin C induced an increase in H3K27ac flanking sites bound by RUNX1. On the basis of these data we propose a model of Vitamin C-induced epigenetic remodelling of transcription factor-binding sites driving differentiation in a leukaemic model.",

author = "M. Mingay and A. Chaturvedi and M. Bilenky and Q. Cao and L. Jackson and T. Hui and M. Moksa and A. Heravi-Moussavi and Humphries, {R. K.} and M. Heuser and M. Hirst",

note = "Funding Information: This work was supported by grants from the Terry Fox Research Institute Program Project (Grant: TFRI #1039) to MH and RKH, the Canadian Cancer Society Research Institute (Grant: CCSRI #703489) to MH, and grants 70111267 from Deutsche Krebshilfe to M Heuser (DFG grants HE 5240/5-1 and HE 5240/6-1). Sequencing data sets are available under GEO series GSE87623. Publisher Copyright: {\textcopyright} The Author(s) 2018.",

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doi = "10.1038/leu.2017.171",

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AU - Jackson, L.

AU - Hui, T.

AU - Moksa, M.

AU - Heravi-Moussavi, A.

AU - Humphries, R. K.

AU - Heuser, M.

AU - Hirst, M.

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PY - 2018/1

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N2 - The genomes of myeloid malignancies are characterized by epigenomic abnormalities. Heterozygous, inactivating ten-eleven translocation 2 (TET2) mutations and neomorphic isocitrate dehydrogenase (IDH) mutations are recurrent and mutually exclusive in acute myeloid leukaemia genomes. Ascorbic acid (Vitamin C) has been shown to stimulate the catalytic activity of TET2 in vitro and thus we sought to explore its effect in a leukaemic model expressing IDH1R132H. Vitamin C treatment induced an IDH1R132Hdependent reduction in cell proliferation and an increase in expression of genes involved in leukocyte differentiation. Vitamin C induced differentially methylated regions that displayed a significant overlap with enhancers implicated in myeloid differentiation and were enriched in sequence elements for the haematopoietic transcription factors CEBPβ, HIF1α, RUNX1 and PU.1. Chromatin immunoprecipitation sequencing of PU.1 and RUNX1 revealed a significant loss of PU.1 and increase of RUNX1-bound DNA elements accompanied by their demethylation following Vitamin C treatment. In addition, Vitamin C induced an increase in H3K27ac flanking sites bound by RUNX1. On the basis of these data we propose a model of Vitamin C-induced epigenetic remodelling of transcription factor-binding sites driving differentiation in a leukaemic model.

AB - The genomes of myeloid malignancies are characterized by epigenomic abnormalities. Heterozygous, inactivating ten-eleven translocation 2 (TET2) mutations and neomorphic isocitrate dehydrogenase (IDH) mutations are recurrent and mutually exclusive in acute myeloid leukaemia genomes. Ascorbic acid (Vitamin C) has been shown to stimulate the catalytic activity of TET2 in vitro and thus we sought to explore its effect in a leukaemic model expressing IDH1R132H. Vitamin C treatment induced an IDH1R132Hdependent reduction in cell proliferation and an increase in expression of genes involved in leukocyte differentiation. Vitamin C induced differentially methylated regions that displayed a significant overlap with enhancers implicated in myeloid differentiation and were enriched in sequence elements for the haematopoietic transcription factors CEBPβ, HIF1α, RUNX1 and PU.1. Chromatin immunoprecipitation sequencing of PU.1 and RUNX1 revealed a significant loss of PU.1 and increase of RUNX1-bound DNA elements accompanied by their demethylation following Vitamin C treatment. In addition, Vitamin C induced an increase in H3K27ac flanking sites bound by RUNX1. On the basis of these data we propose a model of Vitamin C-induced epigenetic remodelling of transcription factor-binding sites driving differentiation in a leukaemic model.

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Vitamin C-induced epigenomic remodelling in IDH1 mutant acute myeloid leukaemia

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ASJC Scopus Subject Areas

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