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Shahaf Peleg, Christian Feller, Andreas G. Ladurner, Axel Imhof 

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1 The Metabolic Impact on Histone Acetylation and Transcription in Ageing 
Shahaf Peleg, Christian Feller, Andreas G. Ladurner, Axel Imhof  Trends in Biochemical Sciences  Volume 41, Issue 8, Pages (August 2016) DOI: /j.tibs Copyright © 2016 The Authors Terms and Conditions

2 Figure 1 Chromatin Structure and Function as a Biological Clock during Aging. The transformation from young to old animal is accompanied by diverse changes in chromatin structure. Young animals display tight regulation of gene expression, maintenance of heterochromatic regions, and suppression of transposon elements. During midlife, a substantial shift in gene expression profiles is first observed. Old animals display a larger disruption of the transcriptome, reduced ability to suppress transposons, loss of heterochromatin regions, and the appearance of senescence-associated heterochromatin foci (SAHFs). Trends in Biochemical Sciences  , DOI: ( /j.tibs ) Copyright © 2016 The Authors Terms and Conditions

3 Figure 2 Metabolic Alterations in Aging Lead to Transcriptional Deregulation. Left: Young animals maintain a healthy connectivity between acetyl-CoA metabolism, protein acetylation, and histone acetylation (indicated by yellow star) resulting in regulated transcriptomes and cellular homeostasis. Middle: As animals reach midlife, small increases in metabolic activity increase the levels of acetyl-CoA and citrate. This shifts the balance towards higher levels of non-enzymatic as well as enzymatic acetylation of proteins. We suggest that increased levels of nuclear acetyl-CoA, driven by increased ATP citrate lyase (ATPCL) activity, increase the enzymatic activity of tissue-specific nuclear lysine acetyltransferases (KATs). This leads to an alteration of histone acetylation signatures and deregulation of gene expression. Such deregulation may cause cellular damage, thus increasing metabolic stress, which in turn may result in even stronger deregulation. Right: In a similar manner, lower acetyl-CoA metabolism may result in deregulated acetylomes, altered histone acetylation signatures, and a deregulated transcriptome. Such a general hypoacetylation of chromatin has, however, not yet been demonstrated in living animals. Trends in Biochemical Sciences  , DOI: ( /j.tibs ) Copyright © 2016 The Authors Terms and Conditions

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