Nonenzymatic protein acylation as a carbon stress regulated by sirtuin deacylases.

Nonenzymatic protein acylation as a carbon stress regulated by sirtuin deacylases.

Molecular cell (2014-04-15)

Gregory R Wagner, Matthew D Hirschey

ABSTRACT

Cellular proteins are decorated with a wide range of acetyl and other acyl modifications. Many studies have demonstrated regulation of site-specific acetylation by acetyltransferases and deacetylases. Acylation is emerging as a new type of lysine modification, but less is known about its overall regulatory role. Furthermore, the mechanisms of lysine acylation, its overlap with protein acetylation, and how it influences cellular function are major unanswered questions in the field. In this review, we discuss the known roles of acetyltransferases and deacetylases and the sirtuins as a conserved family of a nicotinamide adenine dinucleotide (NAD⁺)-dependent protein deacylases that are important for response to cellular stress and homeostasis. We also consider the evidence for an emerging idea of nonenzymatic protein acylation. Finally, we put forward the hypothesis that protein acylation is a form of protein "carbon stress" that the deacylases evolved to remove as a part of a global protein quality-control network.

MATERIALS

Product Number

Brand

Product Description

29238

Supelco

Activated Charcoal Norit^®, Norit^® RBAA-3, rod

484164

Sigma-Aldrich

Carbon, glassy, spherical powder, 2-12 μm, 99.95% trace metals basis

L5501

Sigma-Aldrich

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62840

Sigma-Aldrich

L-Lysine, crystallized, ≥98.0% (NT)

L1884

Sigma-Aldrich

L-Lysine acetate salt, ≥98% (HPLC)

23128

Supelco

L-Lysine, analytical standard

Y0000397

Lysine acetate, European Pharmacopoeia (EP) Reference Standard

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22874

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93067

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Sigma-Aldrich

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53663

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633100

Sigma-Aldrich

Carbon, nanopowder, <100 nm particle size (TEM)

L0900000

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05112

Millipore

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31616

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67448

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80485

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05105

Supelco

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62929

Sigma-Aldrich

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PHR1096

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