Mtf2-PRC2 control of canonical Wnt signaling is required for definitive erythropoiesis

Janet L.Manias Rothberg; Harinad B. Maganti; Hani Jrade; Christopher J. Porter; Gareth A. Palidwor; Christopher Cafariello; Hannah L. Battaion; Safwat T. Khan; Theodore J. Perkins; Robert F. Paulson; Caryn Y. Ito; William L. Stanford

doi:10.1038/s41421-018-0022-5

Mtf2-PRC2 control of canonical Wnt signaling is required for definitive erythropoiesis

Janet L.Manias Rothberg, Harinad B. Maganti, Hani Jrade, Christopher J. Porter, Gareth A. Palidwor, Christopher Cafariello, Hannah L. Battaion, Safwat T. Khan, Theodore J. Perkins, Robert F. Paulson, Caryn Y. Ito, William L. Stanford

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37 Scopus citations

Abstract

Polycomb repressive complex 2 (PRC2) accessory proteins play substoichiometric, tissue-specific roles to recruit PRC2 to specific genomic loci or increase enzymatic activity, while PRC2 core proteins are required for complex stability and global levels of trimethylation of histone 3 at lysine 27 (H3K27me3). Here, we demonstrate a role for the classical PRC2 accessory protein Mtf2/Pcl2 in the hematopoietic system that is more akin to that of a core PRC2 protein. Mtf2 ^-/- erythroid progenitors demonstrate markedly decreased core PRC2 protein levels and a global loss of H3K27me3 at promoter-proximal regions. The resulting de-repression of transcriptional and signaling networks blocks definitive erythroid development, culminating in Mtf2 ^-/- embryos dying by e15.5 due to severe anemia. Gene regulatory network (GRN) analysis demonstrated Mtf2 directly regulates Wnt signaling in erythroblasts, leading to activated canonical Wnt signaling in Mtf2-deficient erythroblasts, while chemical inhibition of canonical Wnt signaling rescued Mtf2-deficient erythroblast differentiation in vitro. Using a combination of in vitro, in vivo and systems analyses, we demonstrate that Mtf2 is a critical epigenetic regulator of Wnt signaling during erythropoiesis and recast the role of polycomb accessory proteins in a tissue-specific context.

Original language	English (US)
Article number	21
Journal	Cell Discovery
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s41421-018-0022-5
State	Published - Dec 1 2018

All Science Journal Classification (ASJC) codes

Biochemistry
Molecular Biology
Genetics
Cell Biology

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10.1038/s41421-018-0022-5

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@article{bc224ccbb7ca4263a72a1fb583f7467e,

title = "Mtf2-PRC2 control of canonical Wnt signaling is required for definitive erythropoiesis",

abstract = "Polycomb repressive complex 2 (PRC2) accessory proteins play substoichiometric, tissue-specific roles to recruit PRC2 to specific genomic loci or increase enzymatic activity, while PRC2 core proteins are required for complex stability and global levels of trimethylation of histone 3 at lysine 27 (H3K27me3). Here, we demonstrate a role for the classical PRC2 accessory protein Mtf2/Pcl2 in the hematopoietic system that is more akin to that of a core PRC2 protein. Mtf2 -/- erythroid progenitors demonstrate markedly decreased core PRC2 protein levels and a global loss of H3K27me3 at promoter-proximal regions. The resulting de-repression of transcriptional and signaling networks blocks definitive erythroid development, culminating in Mtf2 -/- embryos dying by e15.5 due to severe anemia. Gene regulatory network (GRN) analysis demonstrated Mtf2 directly regulates Wnt signaling in erythroblasts, leading to activated canonical Wnt signaling in Mtf2-deficient erythroblasts, while chemical inhibition of canonical Wnt signaling rescued Mtf2-deficient erythroblast differentiation in vitro. Using a combination of in vitro, in vivo and systems analyses, we demonstrate that Mtf2 is a critical epigenetic regulator of Wnt signaling during erythropoiesis and recast the role of polycomb accessory proteins in a tissue-specific context.",

author = "Rothberg, {Janet L.Manias} and Maganti, {Harinad B.} and Hani Jrade and Porter, {Christopher J.} and Palidwor, {Gareth A.} and Christopher Cafariello and Battaion, {Hannah L.} and Khan, {Safwat T.} and Perkins, {Theodore J.} and Paulson, {Robert F.} and Ito, {Caryn Y.} and Stanford, {William L.}",

note = "Funding Information: We thank the OHRI Stem Core Facility for their assistance with FACS and sequencing and M. Brand, J. Dilworth and D. Picketts for critical reading, and A Sheftel for assistance in editing. Chimeras were generated by the Toronto Centre for Phenogenomics. This work was supported by operating grants from the Canadian Cancer Society Research Institute, the Cancer Research Society, and the Canadian Institutes of Health Research to W.L.S. and C.Y.I. J.L.M.R. was supported by an Ontario Graduate Scholarship and a CIHR Banting and Best CGS Doctoral Research Award, R.F.P. is supported by a USDA-NIFA Hatch project number 4581 and NIH grant DK080040, and W.L.S. was supported by a Tier 1 Canada Research Chair in Integrative Stem Cell Biology. Sequencing data can be found in GEO (GSE72288). Publisher Copyright: {\textcopyright} 2018 The Author(s).",

year = "2018",

month = dec,

day = "1",

doi = "10.1038/s41421-018-0022-5",

language = "English (US)",

volume = "4",

journal = "Cell Discovery",

issn = "2056-5968",

publisher = "Springer Nature",

number = "1",

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T1 - Mtf2-PRC2 control of canonical Wnt signaling is required for definitive erythropoiesis

AU - Rothberg, Janet L.Manias

AU - Maganti, Harinad B.

AU - Jrade, Hani

AU - Porter, Christopher J.

AU - Palidwor, Gareth A.

AU - Cafariello, Christopher

AU - Battaion, Hannah L.

AU - Khan, Safwat T.

AU - Perkins, Theodore J.

AU - Paulson, Robert F.

AU - Ito, Caryn Y.

AU - Stanford, William L.

N1 - Funding Information: We thank the OHRI Stem Core Facility for their assistance with FACS and sequencing and M. Brand, J. Dilworth and D. Picketts for critical reading, and A Sheftel for assistance in editing. Chimeras were generated by the Toronto Centre for Phenogenomics. This work was supported by operating grants from the Canadian Cancer Society Research Institute, the Cancer Research Society, and the Canadian Institutes of Health Research to W.L.S. and C.Y.I. J.L.M.R. was supported by an Ontario Graduate Scholarship and a CIHR Banting and Best CGS Doctoral Research Award, R.F.P. is supported by a USDA-NIFA Hatch project number 4581 and NIH grant DK080040, and W.L.S. was supported by a Tier 1 Canada Research Chair in Integrative Stem Cell Biology. Sequencing data can be found in GEO (GSE72288). Publisher Copyright: © 2018 The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Polycomb repressive complex 2 (PRC2) accessory proteins play substoichiometric, tissue-specific roles to recruit PRC2 to specific genomic loci or increase enzymatic activity, while PRC2 core proteins are required for complex stability and global levels of trimethylation of histone 3 at lysine 27 (H3K27me3). Here, we demonstrate a role for the classical PRC2 accessory protein Mtf2/Pcl2 in the hematopoietic system that is more akin to that of a core PRC2 protein. Mtf2 -/- erythroid progenitors demonstrate markedly decreased core PRC2 protein levels and a global loss of H3K27me3 at promoter-proximal regions. The resulting de-repression of transcriptional and signaling networks blocks definitive erythroid development, culminating in Mtf2 -/- embryos dying by e15.5 due to severe anemia. Gene regulatory network (GRN) analysis demonstrated Mtf2 directly regulates Wnt signaling in erythroblasts, leading to activated canonical Wnt signaling in Mtf2-deficient erythroblasts, while chemical inhibition of canonical Wnt signaling rescued Mtf2-deficient erythroblast differentiation in vitro. Using a combination of in vitro, in vivo and systems analyses, we demonstrate that Mtf2 is a critical epigenetic regulator of Wnt signaling during erythropoiesis and recast the role of polycomb accessory proteins in a tissue-specific context.

AB - Polycomb repressive complex 2 (PRC2) accessory proteins play substoichiometric, tissue-specific roles to recruit PRC2 to specific genomic loci or increase enzymatic activity, while PRC2 core proteins are required for complex stability and global levels of trimethylation of histone 3 at lysine 27 (H3K27me3). Here, we demonstrate a role for the classical PRC2 accessory protein Mtf2/Pcl2 in the hematopoietic system that is more akin to that of a core PRC2 protein. Mtf2 -/- erythroid progenitors demonstrate markedly decreased core PRC2 protein levels and a global loss of H3K27me3 at promoter-proximal regions. The resulting de-repression of transcriptional and signaling networks blocks definitive erythroid development, culminating in Mtf2 -/- embryos dying by e15.5 due to severe anemia. Gene regulatory network (GRN) analysis demonstrated Mtf2 directly regulates Wnt signaling in erythroblasts, leading to activated canonical Wnt signaling in Mtf2-deficient erythroblasts, while chemical inhibition of canonical Wnt signaling rescued Mtf2-deficient erythroblast differentiation in vitro. Using a combination of in vitro, in vivo and systems analyses, we demonstrate that Mtf2 is a critical epigenetic regulator of Wnt signaling during erythropoiesis and recast the role of polycomb accessory proteins in a tissue-specific context.

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DO - 10.1038/s41421-018-0022-5

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Mtf2-PRC2 control of canonical Wnt signaling is required for definitive erythropoiesis

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