The Fission Yeast Jmj2 Reverses Histone H3 Lysine 4 Trimethylation

Maite Huarte,Stephen Buratowski,Mikel Zaratiegui,Fei Lan,Taesoo Kim,Matthew W Vaughn,Yang Shi,Robert A Martienssen

doi:10.1074/jbc.m703897200

Maite Huarte, Stephen Buratowski + Show 6 more

Open Access

https://doi.org/10.1074/jbc.m703897200

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Abstract

Histone methylation regulates transcription, chromatin structure, and the epigenetic state of the cell. Recent studies identified the JmjC domain as a catalytic module for histone demethylation. Schizosaccharomyces pombe contains seven JmjC proteins, but it was unclear whether any of them functioned as histone demethylases. In this report, we show that the JmjC protein Jmj2, which is evolutionarily conserved from yeast to human, reversed trimethylated H3-Lys-4 to di- and mono-but not unmethylated products. Overexpression of Jmj2 but not a catalytically inactive mutant reduced H3-Lys-4 trimethylation levels in vivo and suppressed the toxicity caused by overexpression of the H3-Lys-4-me3-binding protein Yng1 in budding yeast. Genome-wide analysis showed that the loss of jmj2 was associated with an increase in the H3-Lys-4-me3 signal, which was enriched near the transcriptional start sites and the coding regions. At the mating-type locus, the loss of jmj2 or substitution of jmj2 with a catalytically inactive form is correlated with increased reporter gene transcription and H3-Lys-4-me3/2 levels, suggesting that Jmj2 and its demethylase activity may play a role in heterochromatin biology. Our findings identified a novel S. pombe histone demethylase with specificity toward di- and trimethylated histone H3-Lys-4 and a possible role in heterochromatin regulation.

Highlights

Methylation occurs on both lysine and arginine residues, including H3-Lys-4, Lys-9, Lys-27, Lys-6, H4-Lys-20, as well as Lys-9 located within the core of histone H3 [4, 5]
Jmj2 Is a Histone H3 Lysine 4 Trimethyl Demethylase charomyces cerevisiae ortholog YJR119c, but not the catalytically inactive mutants, suppressed the toxicity caused by overexpression of the H3-Lys-4-me3-binding protein YNG1, suggesting a role of H3-Lys-4 histone demethylases in transcriptional regulation
We show that Jmj2 demethylase activity is necessary for regulating heterochromatin at the mating-type locus, suggesting a potentially important role of this enzyme in heterochromatin biology

Summary

Introduction

Methylation occurs on both lysine and arginine residues, including H3-Lys-4-, Lys-9, Lys-27, Lys-6, H4-Lys-20, as well as Lys-9 located within the core of histone H3 [4, 5]. Recent studies identified a subfamily of JmjC domain-containing proteins that mediate demethylation of trimethylated histone H3-Lys-9 and H3-Lys-36 [15,16,17,18]. We provide both in vitro and in vivo evidence that Jmj2 is an H3-Lys-4 trimethyl histone demethylase that catalyzes demethylation of H3-Lys-4-me3 to H3-Lys-4-me1/2 but had no effect on methylation at other lysine residues.

Results

Conclusion