Inga Hoffmann scite author profile

Histone demethylases LSD1 JMJC Lysine demethylase A B S T R A C TReversible histone methylation has emerged in the last few years as an important mechanism of epigenetic regulation. Histone methyltransferases and demethylases have been identified as contributing factors in the development of several diseases, especially cancer. Therefore, they have been postulated to be new drug targets with high therapeutic potential. Here, we review histone demethylases with a special focus on their potential role in oncology drug discovery. We present an overview over the different classes of enzymes, their biochemistry, selected data on their role in physiology and already available inhibitors.ª 2012 Federation of European Biochemical Societies.Published by Elsevier B.V. All rights reserved. IntroductionHistone methylation had long been thought to be an irreversible process but since (Metzger et al., 2005Shi et al., 2004) it is known that histones, but also other proteins (Huang et al., 2007a;Nicholson and Chen, 2009), are also subject to active enzymatic demethylation (Agger et al., 2008). Reversible histone methylation has been shown to be involved in gene regulation and hence is interesting as a target for therapeutic intervention (Shi, 2007;Yoshimi and Kurokawa, 2011). Very rapidly inhibitors of these enzymes were identified and already show promise for drug development (Lohse et al., 2011a;Spannhoff et al., 2009a). Here, we present an overview over the different classes of histone demethylases, their biochemistry, selected evidence for their role in oncogenesis and inhibitor studies. Reversible histone methylationMethylation of histones occurs posttranslationally both on lysines as well as arginines (Trievel, 2004). Methyltransferases use the cofactor S-adenosyl methionine (SAM) to transfer a methyl group onto the basic side chains of these amino acids within proteins.

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Manganese lipoxygenase oxidizes bis-allylic hydroperoxides and octadecenoic acids by different mechanisms

Oliw

Jernerén

Hoffmann

et al. 2011

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

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Linoleate 9R-dioxygenase and allene oxide synthase activities of Aspergillus terreus

Jernerén

Hoffmann

Oliw

2010

Archives of Biochemistry and Biophysics

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Expression of Fusion Proteins of Aspergillus terreus Reveals a Novel Allene Oxide Synthase

Hoffmann

Jernerén

Oliw

2013

Journal of Biological Chemistry

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Background: Allene oxide synthases (AOS) of the CYP74 family are present in plants, but AOS of fungi have not been characterized. Results: Expression of dioxygenase-cytochrome P450 fusion proteins of Aspergillus terreus reveals a novel AOS. Conclusion: AOS of A. terreus forms compound II with catalytic similarities to CYP74 and CYP8A1. Significance: The fungal AOS protein sequence is unique with little homology to CYP74.

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Expression of 5,8-LDS of Aspergillus fumigatus and its dioxygenase domain. A comparison with 7,8-LDS, 10-dioxygenase, and cyclooxygenase

Hoffmann

Jernerén

Garscha

et al. 2011

Archives of Biochemistry and Biophysics

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Inga Hoffmann

The role of histone demethylases in cancer therapy

Manganese lipoxygenase oxidizes bis-allylic hydroperoxides and octadecenoic acids by different mechanisms

Linoleate 9R-dioxygenase and allene oxide synthase activities of Aspergillus terreus

Expression of Fusion Proteins of Aspergillus terreus Reveals a Novel Allene Oxide Synthase

Expression of 5,8-LDS of Aspergillus fumigatus and its dioxygenase domain. A comparison with 7,8-LDS, 10-dioxygenase, and cyclooxygenase

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