Arginine Methylation Provides Epigenetic Transcription Memory for Retinoid-Induced Differentiation in Myeloid Cells-Reference-Cited by-同舟云学术

Arginine Methylation Provides Epigenetic Transcription Memory for Retinoid-Induced Differentiation in Myeloid Cells

Published:2005-07 Issue:13 Volume:25 Page:5648-5663
ISSN:0270-7306
Container-title:Molecular and Cellular Biology
language:en
Short-container-title:Mol Cell Biol

Author:

Balint Balint L.¹,Szanto Attila¹,Madi Andras¹²,Bauer Uta-Maria³,Gabor Petra¹,Benko Szilvia¹,Puskás Laszlo G.⁴,Davies Peter J. A.⁵,Nagy Laszlo¹

Affiliation:

1. Department of Biochemistry and Molecular Biology, Research Center for Molecular Medicine, University of Debrecen, Medical and Health Science Center,

2. Signaling and Apoptosis Research Group of the Hungarian Academy of Sciences, Nagyerdei krt. 98, Debrecen H-4012, Hungary

3. Institute for Molecular Biology and Tumor Research, Philipps-University Marburg, Emil-Mannkopff-Str. 2, 35033 Marburg, Germany

4. Laboratory of Functional Genomics, Biological Research Center of the Hungarian Academy of Sciences, Temesvári krt. 62, Szeged H-6726, Hungary

5. Department of Integrative Biology and Pharmacology, Medical School, University of Texas—Houston, 6431 Fannin, Houston, Texas 77030

Abstract

ABSTRACT Cellular differentiation is governed by changes in gene expression, but at the same time, a cell's identity needs to be maintained through multiple cell divisions during maturation. In myeloid cell lines, retinoids induce gene expression and a well-characterized two-step lineage-specific differentiation. To identify mechanisms that contribute to cellular transcriptional memory, we analyzed the epigenetic changes taking place on regulatory regions of tissue transglutaminase, a gene whose expression is tightly linked to retinoid-induced differentiation. Here we report that the induction of an intermediary or “primed” state of myeloid differentiation is associated with increased H4 arginine 3 and decreased H3 lysine 4 methylation. These modifications occur before transcription and appear to prime the chromatin for subsequent hormone-regulated transcription. Moreover, inhibition of methyltransferase activity, preacetylation, or activation of the enzyme PAD4 attenuated retinoid-regulated gene expression, while overexpression of PRMT1, a methyltransferase, enhanced retinoid responsiveness. Taken together, our results suggest that H4 arginine 3 methylation is a bona fide positive epigenetic marker and regulator of transcriptional responsiveness as well as a signal integration mechanism during cell differentiation and, as such, may provide epigenetic memory.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

Link

https://journals.asm.org/doi/pdf/10.1128/MCB.25.13.5648-5663.2005

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