Reading and erasing of the phosphonium analogue of trimethyllysine by epigenetic proteins

Reading and erasing of the phosphonium analogue of trimethyllysine by epigenetic proteins

N ε -Methylation of lysine residues in histones plays an essential role in the regulation of eukaryotic transcription. The ‘highest’ methylation mark, N ε -trimethyllysine, is specifically recognised by N ε -trimethyllysine binding ‘reader’ domains, and undergoes demethylation, as catalysed by 2-oxo...

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Published in:Communications chemistry Vol. 5; no. 1; pp. 1 - 11
Main Authors: Belle, Roman, Kamps, Jos J. A. G., Poater, Jordi, Kumar, Kiran, Pieters, Bas J. G. E., Salah, Eidarus, Claridge, Timothy D. W., Paton, Robert S., Bickelhaupt, F. Matthias, Kawamura, Akane, Schofield, Christopher J., Mecinović, Jasmin
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 01-12-2022
Nature Portfolio
Subjects:
631/92/458/1648
631/92/96
639/638/77/603
82/58
82/83
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
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Summary:N ε -Methylation of lysine residues in histones plays an essential role in the regulation of eukaryotic transcription. The ‘highest’ methylation mark, N ε -trimethyllysine, is specifically recognised by N ε -trimethyllysine binding ‘reader’ domains, and undergoes demethylation, as catalysed by 2-oxoglutarate dependent JmjC oxygenases. We report studies on the recognition of the closest positively charged N ε -trimethyllysine analogue, i.e. its trimethylphosphonium derivative (K P me 3 ), by N ε -trimethyllysine histone binding proteins and N ε -trimethyllysine demethylases. Calorimetric and computational studies with histone binding proteins reveal that H3K P 4me 3 binds more tightly than the natural H3K4me 3 substrate, though the relative differences in binding affinity vary. Studies with JmjC demethylases show that some, but not all, of them can accept the phosphonium analogue of their natural substrates and that the methylation state selectivity can be changed by substitution of nitrogen for phosphorus. The combined results reveal that very subtle changes, e.g . substitution of nitrogen for phosphorus, can substantially affect interactions between ligand and reader domains / demethylases, knowledge that we hope will inspire the development of highly selective small molecules modulating their activity. N ε -methylation of lysine residues in histones plays an essential role in the regulation of eukaryotic transcription, and understanding the extent to which histone N ε- methyllysine readers and erasers can manifest selectivity is of fundamental and medicinal interest. Here, the authors study the phosphonium analogue of N ε -trimethyllysine, finding that a subtle substitution from nitrogen to phosphorus substantially affects its interactions with N ε -methyllysine readers and erasers.
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ISSN:2399-3669
2399-3669
DOI:10.1038/s42004-022-00640-4