PRMT1 and PRMT8 regulate retinoic acid-dependent neuronal differentiation with implications to neuropathology

Zoltan Simandi; Erik Czipa; Attila Horvath; Aron Koszeghy; Csilla Bordas; Szilárd Põliska; István Juhász; Lászlõ Imre; Gábor Szabõ; Balazs Dezso; Endre Barta; Sascha Sauer; Katalin Karolyi; Ilona Kovacs; Gábor Hutõczki; Lászlõ Bognár; Álmos Klekner; Peter Szucs; Bálint L. Bálint; Laszlo Nagy

doi:10.1002/stem.1894

PRMT1 and PRMT8 regulate retinoic acid-dependent neuronal differentiation with implications to neuropathology

Zoltan Simandi, Erik Czipa, Attila Horvath, Aron Koszeghy, Csilla Bordas, Szilárd Põliska, István Juhász, Lászlõ Imre, Gábor Szabõ, Balazs Dezso, Endre Barta, Sascha Sauer, Katalin Karolyi, Ilona Kovacs, Gábor Hutõczki, Lászlõ Bognár, Álmos Klekner, Peter Szucs, Bálint L. Bálint, Laszlo Nagy

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

31 Scopus citations

Abstract

Retinoids are morphogens and have been implicated in cell fate commitment of embryonic stem cells (ESCs) to neurons. Their effects are mediated by RAR and RXR nuclear receptors. However, transcriptional cofactors required for cell and gene-specific retinoid signaling are not known. Here we show that protein arginine methyl transferase (PRMT) 1 and 8 have key roles in determining retinoid regulated gene expression and cellular specification in a multistage neuronal differentiation model of murine ESCs. PRMT1 acts as a selective modulator, providing the cells with a mechanism to reduce the potency of retinoid signals on regulatory "hotspots." PRMT8 is a retinoid receptor target gene itself and acts as a cell type specific transcriptional coactivator of retinoid signaling at later stages of differentiation. Lack of either of them leads to reduced nuclear arginine methylation, dysregulated neuronal gene expression, and altered neuronal activity. Importantly, depletion of PRMT8 results in altered expression of a distinct set of genes, including markers of gliomagenesis. PRMT8 is almost entirely absent in human glioblastoma tissues. We propose that PRMT1 and PRMT8 serve as a rheostat of retinoid signaling to determine neuronal cell specification in a context-dependent manner and might also be relevant in the development of human brain malignancy.

Original language	English (US)
Pages (from-to)	726-741
Number of pages	16
Journal	Stem Cells
Volume	33
Issue number	3
DOIs	https://doi.org/10.1002/stem.1894
State	Published - Mar 1 2015
Externally published	Yes

Keywords

Glioblastoma
Neural differentiation
PRMT1
PRMT8
Retinoid signaling

ASJC Scopus subject areas

General Medicine

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10.1002/stem.1894

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Simandi, Z., Czipa, E., Horvath, A., Koszeghy, A., Bordas, C., Põliska, S., Juhász, I., Imre, L., Szabõ, G., Dezso, B., Barta, E., Sauer, S., Karolyi, K., Kovacs, I., Hutõczki, G., Bognár, L., Klekner, Á., Szucs, P., Bálint, B. L., & Nagy, L. (2015). PRMT1 and PRMT8 regulate retinoic acid-dependent neuronal differentiation with implications to neuropathology. Stem Cells, 33(3), 726-741. https://doi.org/10.1002/stem.1894

Simandi, Z, Czipa, E, Horvath, A, Koszeghy, A, Bordas, C, Põliska, S, Juhász, I, Imre, L, Szabõ, G, Dezso, B, Barta, E, Sauer, S, Karolyi, K, Kovacs, I, Hutõczki, G, Bognár, L, Klekner, Á, Szucs, P, Bálint, BL & Nagy, L 2015, 'PRMT1 and PRMT8 regulate retinoic acid-dependent neuronal differentiation with implications to neuropathology', Stem Cells, vol. 33, no. 3, pp. 726-741. https://doi.org/10.1002/stem.1894

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abstract = "Retinoids are morphogens and have been implicated in cell fate commitment of embryonic stem cells (ESCs) to neurons. Their effects are mediated by RAR and RXR nuclear receptors. However, transcriptional cofactors required for cell and gene-specific retinoid signaling are not known. Here we show that protein arginine methyl transferase (PRMT) 1 and 8 have key roles in determining retinoid regulated gene expression and cellular specification in a multistage neuronal differentiation model of murine ESCs. PRMT1 acts as a selective modulator, providing the cells with a mechanism to reduce the potency of retinoid signals on regulatory {"}hotspots.{"} PRMT8 is a retinoid receptor target gene itself and acts as a cell type specific transcriptional coactivator of retinoid signaling at later stages of differentiation. Lack of either of them leads to reduced nuclear arginine methylation, dysregulated neuronal gene expression, and altered neuronal activity. Importantly, depletion of PRMT8 results in altered expression of a distinct set of genes, including markers of gliomagenesis. PRMT8 is almost entirely absent in human glioblastoma tissues. We propose that PRMT1 and PRMT8 serve as a rheostat of retinoid signaling to determine neuronal cell specification in a context-dependent manner and might also be relevant in the development of human brain malignancy.",

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T1 - PRMT1 and PRMT8 regulate retinoic acid-dependent neuronal differentiation with implications to neuropathology

AU - Simandi, Zoltan

AU - Czipa, Erik

AU - Horvath, Attila

AU - Koszeghy, Aron

AU - Bordas, Csilla

AU - Põliska, Szilárd

AU - Juhász, István

AU - Imre, Lászlõ

AU - Szabõ, Gábor

AU - Dezso, Balazs

AU - Barta, Endre

AU - Sauer, Sascha

AU - Karolyi, Katalin

AU - Kovacs, Ilona

AU - Hutõczki, Gábor

AU - Bognár, Lászlõ

AU - Klekner, Álmos

AU - Szucs, Peter

AU - Bálint, Bálint L.

AU - Nagy, Laszlo

PY - 2015/3/1

Y1 - 2015/3/1

N2 - Retinoids are morphogens and have been implicated in cell fate commitment of embryonic stem cells (ESCs) to neurons. Their effects are mediated by RAR and RXR nuclear receptors. However, transcriptional cofactors required for cell and gene-specific retinoid signaling are not known. Here we show that protein arginine methyl transferase (PRMT) 1 and 8 have key roles in determining retinoid regulated gene expression and cellular specification in a multistage neuronal differentiation model of murine ESCs. PRMT1 acts as a selective modulator, providing the cells with a mechanism to reduce the potency of retinoid signals on regulatory "hotspots." PRMT8 is a retinoid receptor target gene itself and acts as a cell type specific transcriptional coactivator of retinoid signaling at later stages of differentiation. Lack of either of them leads to reduced nuclear arginine methylation, dysregulated neuronal gene expression, and altered neuronal activity. Importantly, depletion of PRMT8 results in altered expression of a distinct set of genes, including markers of gliomagenesis. PRMT8 is almost entirely absent in human glioblastoma tissues. We propose that PRMT1 and PRMT8 serve as a rheostat of retinoid signaling to determine neuronal cell specification in a context-dependent manner and might also be relevant in the development of human brain malignancy.

AB - Retinoids are morphogens and have been implicated in cell fate commitment of embryonic stem cells (ESCs) to neurons. Their effects are mediated by RAR and RXR nuclear receptors. However, transcriptional cofactors required for cell and gene-specific retinoid signaling are not known. Here we show that protein arginine methyl transferase (PRMT) 1 and 8 have key roles in determining retinoid regulated gene expression and cellular specification in a multistage neuronal differentiation model of murine ESCs. PRMT1 acts as a selective modulator, providing the cells with a mechanism to reduce the potency of retinoid signals on regulatory "hotspots." PRMT8 is a retinoid receptor target gene itself and acts as a cell type specific transcriptional coactivator of retinoid signaling at later stages of differentiation. Lack of either of them leads to reduced nuclear arginine methylation, dysregulated neuronal gene expression, and altered neuronal activity. Importantly, depletion of PRMT8 results in altered expression of a distinct set of genes, including markers of gliomagenesis. PRMT8 is almost entirely absent in human glioblastoma tissues. We propose that PRMT1 and PRMT8 serve as a rheostat of retinoid signaling to determine neuronal cell specification in a context-dependent manner and might also be relevant in the development of human brain malignancy.

KW - Glioblastoma

KW - Neural differentiation

KW - PRMT1

KW - PRMT8

KW - Retinoid signaling

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JO - Stem Cells

JF - Stem Cells

IS - 3

ER -

PRMT1 and PRMT8 regulate retinoic acid-dependent neuronal differentiation with implications to neuropathology

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