Review

. 2019 Jun 10;11(2):20.

doi: 10.1038/s41368-019-0053-2.

Harnessing the HDAC-histone deacetylase enzymes, inhibitors and how these can be utilised in tissue engineering

Liam Lawlor^{1

2}, Xuebin B Yang^{3

4}

Affiliations

¹ Department of Oral Biology, University of Leeds, Wellcome Trust Brenner Building, St. James's University Hospital, Leeds, LS9 7TF, UK.
² Doctoral Training Centre in Tissue Engineering and Regenerative Medicine, Institute of Medical and Biological Engineering, School of Mechanical Engineering, University of Leeds, Leeds, UK.
³ Department of Oral Biology, University of Leeds, Wellcome Trust Brenner Building, St. James's University Hospital, Leeds, LS9 7TF, UK. X.B.Yang@Leeds.ac.uk.
⁴ Doctoral Training Centre in Tissue Engineering and Regenerative Medicine, Institute of Medical and Biological Engineering, School of Mechanical Engineering, University of Leeds, Leeds, UK. X.B.Yang@Leeds.ac.uk.

PMID: 31201303
PMCID: PMC6572769
DOI: 10.1038/s41368-019-0053-2

Review

Harnessing the HDAC-histone deacetylase enzymes, inhibitors and how these can be utilised in tissue engineering

Liam Lawlor et al. Int J Oral Sci. 2019.

. 2019 Jun 10;11(2):20.

doi: 10.1038/s41368-019-0053-2.

Authors

Liam Lawlor^{1

2}, Xuebin B Yang^{3

4}

Affiliations

¹ Department of Oral Biology, University of Leeds, Wellcome Trust Brenner Building, St. James's University Hospital, Leeds, LS9 7TF, UK.
² Doctoral Training Centre in Tissue Engineering and Regenerative Medicine, Institute of Medical and Biological Engineering, School of Mechanical Engineering, University of Leeds, Leeds, UK.
³ Department of Oral Biology, University of Leeds, Wellcome Trust Brenner Building, St. James's University Hospital, Leeds, LS9 7TF, UK. X.B.Yang@Leeds.ac.uk.
⁴ Doctoral Training Centre in Tissue Engineering and Regenerative Medicine, Institute of Medical and Biological Engineering, School of Mechanical Engineering, University of Leeds, Leeds, UK. X.B.Yang@Leeds.ac.uk.

PMID: 31201303
PMCID: PMC6572769
DOI: 10.1038/s41368-019-0053-2

Abstract

There are large knowledge gaps regarding how to control stem cells growth and differentiation. The limitations of currently available technologies, such as growth factors and/or gene therapies has led to the search of alternatives. We explore here how a cell's epigenome influences determination of cell type, and potential applications in tissue engineering. A prevalent epigenetic modification is the acetylation of DNA core histone proteins. Acetylation levels heavily influence gene transcription. Histone deacetylase (HDAC) enzymes can remove these acetyl groups, leading to the formation of a condensed and more transcriptionally silenced chromatin. Histone deacetylase inhibitors (HDACis) can inhibit these enzymes, resulting in the increased acetylation of histones, thereby affecting gene expression. There is strong evidence to suggest that HDACis can be utilised in stem cell therapies and tissue engineering, potentially providing novel tools to control stem cell fate. This review introduces the structure/function of HDAC enzymes and their links to different tissue types (specifically bone, cardiac, neural tissues), including the history, current status and future perspectives of using HDACis for stem cell research and tissue engineering, with particular attention paid to how different HDAC isoforms may be integral to this field.

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Conflict of interest statement

The authors declare no competing interests.

Figures

**Fig. 1**
Structures of HDACis commonly found in the literature. Clockwise from top left–Sodium butyrate, Valproic acid, Trichostatin A, Romidepsin, Entinostat (MS-275) and Vorinostat (SAHA)

See this image and copyright information in PMC

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Harnessing the HDAC-histone deacetylase enzymes, inhibitors and how these can be utilised in tissue engineering

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Harnessing the HDAC-histone deacetylase enzymes, inhibitors and how these can be utilised in tissue engineering

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