Literature DB >> 27974467

Cyclic AMP Inhibits the Activity and Promotes the Acetylation of Acetyl-CoA Synthetase through Competitive Binding to the ATP/AMP Pocket.

Xiaobiao Han1,2, Liqiang Shen3, Qijun Wang4, Xufeng Cen1, Jin Wang1, Meng Wu5, Peng Li1, Wei Zhao6, Yu Zhang7, Guoping Zhao8,9,10,11.   

Abstract

The high-affinity biosynthetic pathway for converting acetate to acetyl-coenzyme A (acetyl-CoA) is catalyzed by the central metabolic enzyme acetyl-coenzyme A synthetase (Acs), which is finely regulated both at the transcriptional level via cyclic AMP (cAMP)-driven trans-activation and at the post-translational level via acetylation inhibition. In this study, we discovered that cAMP directly binds to Salmonella enterica Acs (SeAcs) and inhibits its activity in a substrate-competitive manner. In addition, cAMP binding increases SeAcs acetylation by simultaneously promoting Pat-dependent acetylation and inhibiting CobB-dependent deacetylation, resulting in enhanced SeAcs inhibition. A crystal structure study and site-directed mutagenesis analyses confirmed that cAMP binds to the ATP/AMP pocket of SeAcs, and restrains SeAcs in an open conformation. The cAMP contact residues are well conserved from prokaryotes to eukaryotes, suggesting a general regulatory mechanism of cAMP on Acs.
© 2017 by The American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  acetyl-CoA synthetase; acetylation; crystal structure; cyclic AMP (cAMP); post-translational modification (PTM)

Mesh:

Substances:

Year:  2016        PMID: 27974467      PMCID: PMC5270480          DOI: 10.1074/jbc.M116.753640

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  50 in total

1.  Modulation of CRP-dependent transcription at the Escherichia coli acsP2 promoter by nucleoprotein complexes: anti-activation by the nucleoid proteins FIS and IHF.

Authors:  Douglas F Browning; Christine M Beatty; Erik A Sanstad; Kathryn E Gunn; Stephen J W Busby; Alan J Wolfe
Journal:  Mol Microbiol       Date:  2004-01       Impact factor: 3.501

2.  Crystal structure of yeast acetyl-coenzyme A synthetase in complex with AMP.

Authors:  Gerwald Jogl; Liang Tong
Journal:  Biochemistry       Date:  2004-02-17       Impact factor: 3.162

3.  The determination of enzyme inhibitor constants.

Authors:  M DIXON
Journal:  Biochem J       Date:  1953-08       Impact factor: 3.857

Review 4.  Cyclic AMP in prokaryotes.

Authors:  J L Botsford; J G Harman
Journal:  Microbiol Rev       Date:  1992-03

5.  Kinetic studies of cAMP-induced allosteric changes in cyclic AMP receptor protein from Escherichia coli.

Authors:  J Małecki; A Polit; Z Wasylewski
Journal:  J Biol Chem       Date:  2000-03-24       Impact factor: 5.157

6.  Acetylation of metabolic enzymes coordinates carbon source utilization and metabolic flux.

Authors:  Qijun Wang; Yakun Zhang; Chen Yang; Hui Xiong; Yan Lin; Jun Yao; Hong Li; Lu Xie; Wei Zhao; Yufeng Yao; Zhi-Bin Ning; Rong Zeng; Yue Xiong; Kun-Liang Guan; Shimin Zhao; Guo-Ping Zhao
Journal:  Science       Date:  2010-02-19       Impact factor: 47.728

7.  cAMP receptor protein from escherichia coli as a model of signal transduction in proteins--a review.

Authors:  E Fic; P Bonarek; A Gorecki; S Kedracka-Krok; J Mikolajczak; A Polit; M Tworzydlo; M Dziedzicka-Wasylewska; Z Wasylewski
Journal:  J Mol Microbiol Biotechnol       Date:  2008-11-25

8.  Cyclic AMP receptor protein-dependent activation of the Escherichia coli acsP2 promoter by a synergistic class III mechanism.

Authors:  Christine M Beatty; Douglas F Browning; Stephen J W Busby; Alan J Wolfe
Journal:  J Bacteriol       Date:  2003-09       Impact factor: 3.490

Review 9.  Cyclic AMP: master regulator of innate immune cell function.

Authors:  Carlos H Serezani; Megan N Ballinger; David M Aronoff; Marc Peters-Golden
Journal:  Am J Respir Cell Mol Biol       Date:  2008-03-06       Impact factor: 6.914

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Authors:  Zachary T Schug; Barrie Peck; Dylan T Jones; Qifeng Zhang; Shaun Grosskurth; Israt S Alam; Louise M Goodwin; Elizabeth Smethurst; Susan Mason; Karen Blyth; Lynn McGarry; Daniel James; Emma Shanks; Gabriela Kalna; Rebecca E Saunders; Ming Jiang; Michael Howell; Francois Lassailly; May Zaw Thin; Bradley Spencer-Dene; Gordon Stamp; Niels J F van den Broek; Gillian Mackay; Vinay Bulusu; Jurre J Kamphorst; Saverio Tardito; David Strachan; Adrian L Harris; Eric O Aboagye; Susan E Critchlow; Michael J O Wakelam; Almut Schulze; Eyal Gottlieb
Journal:  Cancer Cell       Date:  2015-01-12       Impact factor: 31.743
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  6 in total

1.  Protein Acetylation in Bacteria.

Authors:  Chelsey M VanDrisse; Jorge C Escalante-Semerena
Journal:  Annu Rev Microbiol       Date:  2019-05-15       Impact factor: 15.500

2.  Identification of Key Residues for Enzymatic Carboxylate Reduction.

Authors:  Holly Stolterfoht; Georg Steinkellner; Daniel Schwendenwein; Tea Pavkov-Keller; Karl Gruber; Margit Winkler
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Journal:  Sci Rep       Date:  2018-05-31       Impact factor: 4.379

4.  Identification and characterization of two types of amino acid-regulated acetyltransferases in actinobacteria.

Authors:  Yu-Xing Lu; Xin-Xin Liu; Wei-Bing Liu; Bang-Ce Ye
Journal:  Biosci Rep       Date:  2017-07-04       Impact factor: 3.840

Review 5.  Protein Acetyltransferases Mediate Bacterial Adaptation to a Diverse Environment.

Authors:  Aiswarya Dash; Rahul Modak
Journal:  J Bacteriol       Date:  2021-09-08       Impact factor: 3.490

6.  Proteomic and Transcriptomic Profiling Identifies Early Developmentally Regulated Proteins in Dictyostelium Discoideum.

Authors:  Óscar González-Velasco; Javier De Las Rivas; Jesus Lacal
Journal:  Cells       Date:  2019-10-01       Impact factor: 6.600
  6 in total

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