Protein Arginine Methyltransferase 1: Positively Charged Residues in Substrate Peptides Distal to the Site of Methylation Are Important for Substrate Binding and Catalysis

Tanesha C. Osborne, Obiamaka Obianyo, Xing Zhang, Xiadong Cheng, Paul R. Thompson

Research output: Contribution to journalArticlepeer-review

116 Scopus citations
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Abstract

Protein arginine methyltransferases (PRMTs) are a group of eukaryotic enzymes that catalyze the methylation of Arg residues in a variety of proteins (e.g., histones H3 and H4), and their activities influence a wide range of cellular processes, including cell growth, RNA splicing, differentiation, and transcriptional regulation. Dysregulation of these enzymes has been linked to heart disease and cancer, suggesting this enzyme family as a novel therapeutic target. To aid the development of PRMT inhibitors, we characterized the substrate specificity of both the rat and human PRMT1 orthologues using histone based peptide substrates. N- and C-terminal truncations to identify a minimal peptide substrate indicate that long-range interactions between enzyme and substrate are important for high rates of substrate capture. The importance of these long-range interactions to substrate capture were confirmed by "mutagenesis" experiments on a minimal peptide substrate. Inhibition studies on S-adenosyl-homocysteine, thioadenosine, methylthioadenosine, homocysteine, and sinefungin suggest that potent and selective bisubstrate analogue inhibitor(s) for PRMT1 can be developed by linking a histone based peptide substrate to homocysteine or sinefungin. Additionally, we present evidence that PRMT1 utilizes a partially processive mechanism to dimethylate its substrates.

Original languageAmerican English
JournalBiochemistry
Volume46
StatePublished - 2007

Disciplines

  • Chemistry

Keywords

  • Protein arginine methyltransferases
  • RNA splicing
  • Transcriptional regulation

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