Identification of the transcription factor MAZ as a regulator of erythropoiesis

Darya Deen; Falk Butter; Deborah E. Daniels; Ivan Ferrer-Vicens; Daniel C.J. Ferguson; Michelle L. Holland; Vasiliki Samara; Jacqueline A. Sloane-Stanley; Helena Ayyub; Matthias Mann; Jan Frayne; David Garrick; Douglas Vernimmen

doi:10.1182/bloodadvances.2021004609

Identification of the transcription factor MAZ as a regulator of erythropoiesis

Darya Deen, Falk Butter, Deborah E. Daniels, Ivan Ferrer-Vicens, Daniel C.J. Ferguson, Michelle L. Holland, Vasiliki Samara, Jacqueline A. Sloane-Stanley, Helena Ayyub, Matthias Mann, Jan Frayne, David Garrick^*, Douglas Vernimmen

^*Corresponding author for this work

Medical & Molecular Genetics

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Erythropoiesis requires a combination of ubiquitous and tissue-specific transcription factors (TFs). Here, through DNA affinity purification followed by mass spectrometry, we have identified the widely expressed protein MAZ (Myc-associated zinc finger) as a TF that binds to the promoter of the erythroid-specific human a-globin gene. Genome-wide mapping in primary human erythroid cells revealed that MAZ also occupies active promoters as well as GATA1-bound enhancer elements of key erythroid genes. Consistent with an important role during erythropoiesis, knockdown of MAZ reduces a-globin expression in K562 cells and impairs differentiation in primary human erythroid cells. Genetic variants in the MAZ locus are associated with changes in clinically important human erythroid traits. Taken together, these findings reveal the zinc-finger TF MAZ to be a previously unrecognized regulator of the erythroid differentiation program.

Original language	English
Pages (from-to)	3002-3015
Number of pages	14
Journal	Blood Advances
Volume	5
Issue number	15
DOIs	https://doi.org/10.1182/bloodadvances.2021004609
Publication status	Published - 10 Aug 2021

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title = "Identification of the transcription factor MAZ as a regulator of erythropoiesis",

abstract = "Erythropoiesis requires a combination of ubiquitous and tissue-specific transcription factors (TFs). Here, through DNA affinity purification followed by mass spectrometry, we have identified the widely expressed protein MAZ (Myc-associated zinc finger) as a TF that binds to the promoter of the erythroid-specific human a-globin gene. Genome-wide mapping in primary human erythroid cells revealed that MAZ also occupies active promoters as well as GATA1-bound enhancer elements of key erythroid genes. Consistent with an important role during erythropoiesis, knockdown of MAZ reduces a-globin expression in K562 cells and impairs differentiation in primary human erythroid cells. Genetic variants in the MAZ locus are associated with changes in clinically important human erythroid traits. Taken together, these findings reveal the zinc-finger TF MAZ to be a previously unrecognized regulator of the erythroid differentiation program.",

author = "Darya Deen and Falk Butter and Daniels, {Deborah E.} and Ivan Ferrer-Vicens and Ferguson, {Daniel C.J.} and Holland, {Michelle L.} and Vasiliki Samara and Sloane-Stanley, {Jacqueline A.} and Helena Ayyub and Matthias Mann and Jan Frayne and David Garrick and Douglas Vernimmen",

note = "Funding Information: This work was supported by a University of Edinburgh Chancellor{\textquoteright}s Fellowship to D.V. and Institute Strategic Grant funding to the Roslin Institute from the Biotechnology and Biological Sciences Research Council (BB/J004235/1 and BB/P013732/1). D.D. is supported by Roslin Institute core funding to D.V. D.G. was supported by the Medical Research Council (United Kingdom) and INSERM (France). Publisher Copyright: {\textcopyright} 2021 by The American Society of Hematology Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

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AU - Deen, Darya

AU - Butter, Falk

AU - Daniels, Deborah E.

AU - Ferrer-Vicens, Ivan

AU - Ferguson, Daniel C.J.

AU - Holland, Michelle L.

AU - Samara, Vasiliki

AU - Sloane-Stanley, Jacqueline A.

AU - Ayyub, Helena

AU - Mann, Matthias

AU - Frayne, Jan

AU - Garrick, David

AU - Vernimmen, Douglas

N1 - Funding Information: This work was supported by a University of Edinburgh Chancellor’s Fellowship to D.V. and Institute Strategic Grant funding to the Roslin Institute from the Biotechnology and Biological Sciences Research Council (BB/J004235/1 and BB/P013732/1). D.D. is supported by Roslin Institute core funding to D.V. D.G. was supported by the Medical Research Council (United Kingdom) and INSERM (France). Publisher Copyright: © 2021 by The American Society of Hematology Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/8/10

Y1 - 2021/8/10

N2 - Erythropoiesis requires a combination of ubiquitous and tissue-specific transcription factors (TFs). Here, through DNA affinity purification followed by mass spectrometry, we have identified the widely expressed protein MAZ (Myc-associated zinc finger) as a TF that binds to the promoter of the erythroid-specific human a-globin gene. Genome-wide mapping in primary human erythroid cells revealed that MAZ also occupies active promoters as well as GATA1-bound enhancer elements of key erythroid genes. Consistent with an important role during erythropoiesis, knockdown of MAZ reduces a-globin expression in K562 cells and impairs differentiation in primary human erythroid cells. Genetic variants in the MAZ locus are associated with changes in clinically important human erythroid traits. Taken together, these findings reveal the zinc-finger TF MAZ to be a previously unrecognized regulator of the erythroid differentiation program.

AB - Erythropoiesis requires a combination of ubiquitous and tissue-specific transcription factors (TFs). Here, through DNA affinity purification followed by mass spectrometry, we have identified the widely expressed protein MAZ (Myc-associated zinc finger) as a TF that binds to the promoter of the erythroid-specific human a-globin gene. Genome-wide mapping in primary human erythroid cells revealed that MAZ also occupies active promoters as well as GATA1-bound enhancer elements of key erythroid genes. Consistent with an important role during erythropoiesis, knockdown of MAZ reduces a-globin expression in K562 cells and impairs differentiation in primary human erythroid cells. Genetic variants in the MAZ locus are associated with changes in clinically important human erythroid traits. Taken together, these findings reveal the zinc-finger TF MAZ to be a previously unrecognized regulator of the erythroid differentiation program.

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Identification of the transcription factor MAZ as a regulator of erythropoiesis

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