Jeffry R. Cook scite author profile

We have identified a new mammalian protein arginine N-methyltransferase, PRMT5, formerly designated Janus kinase-binding protein 1, that can catalyze the formation of -N G -monomethylarginine and symmetric -N G ,N G -dimethylarginine in a variety of proteins. A hemagglutinin peptide-tagged PRMT5 complex purified from human HeLa cells catalyzes the S-adenosyl-L-[methyl-3 H]methionine-dependent in vitro methylation of myelin basic protein. When the radiolabeled myelin basic protein was acid-hydrolyzed to free amino acids, and the products were separated by high-resolution cation exchange chromatography, we were able to detect two tritiated species. One species co-migrated with a -N G -monomethylarginine standard, and the other cochromatographed with a symmetric -N G ,N G -dimethylarginine standard. Upon base treatment, this second species formed methylamine, a breakdown product characteristic of symmetric -N G ,N G -dimethylarginine. Further analysis of these two species by thin layer chromatography confirmed their identification as -N Gmonomethylarginine and symmetric -N G ,N G -dimethylarginine. The hemagglutinin-PRMT5 complex was also able to monomethylate and symmetrically dimethylate bovine histone H2A and a glutathione S-transferasefibrillarin (amino acids 1-148) fusion protein (glutathione S-transferase-GAR). A mutation introduced into the S-adenosyl-L-methionine-binding motif I of a myc-tagged PRMT5 construct in COS-1 cells led to a near complete loss of observed enzymatic activity. PRMT5 is the first example of a catalytic chain for a type II protein arginine N-methyltransferase that can result in the formation of symmetric dimethylarginine residues as observed previously in myelin basic protein, Sm small nuclear ribonucleoproteins, and other polypeptides.

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Protein arginine methyltransferases: Evolution and assessment of their pharmacological and therapeutic potential

Krause¹,

Yang²,

Kim³

et al. 2007

Pharmacology & Therapeutics

248

241

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Negative regulation of transcription by the type II arginine methyltransferase PRMT5

et al. 2002

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We have identified previously a repressor element in the transcription start site region of the cyclin E1 promoter that periodically associates with an atypical, high molecular weight E2F complex, termed CERC. Purification of native CERC reveals the presence of the type II arginine methyltransferase PRMT5, which can mono-or symetrically dimethylate arginine residues in proteins. Chromatin immunoprecipitations (ChIPs) show that PRMT5 is associated specifically with the transcription start site region of the cyclin E1 promoter. ChIP analyses also show that this correlates with the presence on the same promoter region of arginine-methylated proteins including histone H4, an in vitro substrate of PRMT5. Consistent with its presence within the repressor complex, forced expression of PRMT5 negatively affects cyclin E1 promoter activity and cellular proliferation, effects that require its methyltransferase activity. These data provide the first direct experimental evidence that a type II arginine methylase is involved in the control of transcription and proliferation.

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PRMT7, a New Protein Arginine Methyltransferase That Synthesizes Symmetric Dimethylarginine

Lee

Cook

Yang

et al. 2005

Journal of Biological Chemistry

185

153

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The cDNA for PRMT7, a recently discovered human protein-arginine methyltransferase (PRMT), was cloned and expressed in Escherichia coli and mammalian cells. Immunopurified PRMT7 actively methylated histones, myelin basic protein, a fragment of human fibrillarin (GAR) and spliceosomal protein SmB. Amino acid analysis showed that the modifications produced were predominantly monomethylarginine and symmetric dimethylarginine (SDMA). Examination of PRMT7 expressed in E. coli demonstrated that peptides corresponding to sequences contained in histone H4, myelin basic protein, and SmD3 were methylated. Furthermore, analysis of the methylated proteins showed that symmetric dimethylarginine and relatively small amounts of monomethylarginine and asymmetric dimethylarginine were produced. SDMA was also formed when a GRG tripeptide was methylated by PRMT7, indicating that a GRG motif is by itself sufficient for symmetric dimethylation to occur. Symmetric dimethylation is reduced dramatically compared with monomethylation as the concentration of the substrate is increased. The data demonstrate that PRMT7 (like PRMT5) is a Type II methyltransferase capable of producing SDMA modifications in proteins.

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Identification and sequence of an accessory factor required for activation of the human interferon γ receptor

Soh¹,

Donnelly²,

Kotenko³

et al. 1994

Cell

251

145

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Jeffry R. Cook

PRMT5 (Janus Kinase-binding Protein 1) Catalyzes the Formation of Symmetric Dimethylarginine Residues in Proteins

Protein arginine methyltransferases: Evolution and assessment of their pharmacological and therapeutic potential

Negative regulation of transcription by the type II arginine methyltransferase PRMT5

PRMT7, a New Protein Arginine Methyltransferase That Synthesizes Symmetric Dimethylarginine

Identification and sequence of an accessory factor required for activation of the human interferon γ receptor

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