Literature DB >> 21158428

Identification of CaMKII phosphorylation sites in Connexin43 by high-resolution mass spectrometry.

Richard Y-C Huang1, James G Laing, Evelyn M Kanter, Viviana M Berthoud, Mingwei Bao, Henry W Rohrs, R Reid Townsend, Kathryn A Yamada.   

Abstract

Connexin43 (Cx43) is a major cardiac gap junction channel protein required for normal electrical and contractile activity. Gap junction channel assembly, function, and turnover are regulated by phosphorylation under both normal and disease conditions. The carboxyl terminus (CT) of Cx43 contains numerous amino acid residues that are phosphorylated by protein kinases. However, our knowledge of the specific residues and kinases involved is incomplete. The objective of this study was to identify amino acid residues in the Cx43-CT that are targets of the multifunctional protein kinase, Ca(2+)/calmodulin protein kinase II (CaMKII), an enzyme known to play critical roles in Ca(2+) homeostasis, transcription, apoptosis, and ischemic heart disease. We subjected fusion protein containing the Cx43-CT to phosphorylation by CaMKII in vitro, digestion with Lys-C and trypsin followed by enrichment for phosphorylated peptides using TiO(2), and analysis in an LTQ XL Orbitrap with collision-induced dissociation and electron transfer dissociation. We deduced the sites of modification by interpreting tandem spectra from these "orthogonal" methods of gas phase peptide fragmentation. We have identified 15 serine residues, including one novel site, in the Cx43-CT that are phosphorylated by CaMKII, the activity of which may be important in regulating Cx43 in normal and diseased hearts.

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Year:  2011        PMID: 21158428      PMCID: PMC3171746          DOI: 10.1021/pr1008702

Source DB:  PubMed          Journal:  J Proteome Res        ISSN: 1535-3893            Impact factor:   4.466


  58 in total

1.  Mechanism of v-Src- and mitogen-activated protein kinase-induced reduction of gap junction communication.

Authors:  G Trevor Cottrell; Rui Lin; Bonnie J Warn-Cramer; Alan F Lau; Janis M Burt
Journal:  Am J Physiol Cell Physiol       Date:  2002-10-16       Impact factor: 4.249

2.  Casein kinase 1 regulates connexin-43 gap junction assembly.

Authors:  Cynthia D Cooper; Paul D Lampe
Journal:  J Biol Chem       Date:  2002-09-20       Impact factor: 5.157

3.  Options and considerations when selecting a quantitative proteomics strategy.

Authors:  Bruno Domon; Ruedi Aebersold
Journal:  Nat Biotechnol       Date:  2010-07-09       Impact factor: 54.908

Review 4.  The multifunctional calcium/calmodulin-dependent protein kinase: from form to function.

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Journal:  Annu Rev Physiol       Date:  1995       Impact factor: 19.318

5.  Alterations of phosphorylation state of connexin 43 during hypoxia and reoxygenation are associated with cardiac function.

Authors:  Satoshi Matsushita; Hidetake Kurihara; Makino Watanabe; Takao Okada; Tatsuo Sakai; Atsushi Amano
Journal:  J Histochem Cytochem       Date:  2005-11-28       Impact factor: 2.479

Review 6.  Gap junctions and the connexin protein family.

Authors:  Goran Söhl; Klaus Willecke
Journal:  Cardiovasc Res       Date:  2004-05-01       Impact factor: 10.787

7.  Characterization of the mitogen-activated protein kinase phosphorylation sites on the connexin-43 gap junction protein.

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Journal:  J Biol Chem       Date:  1996-02-16       Impact factor: 5.157

8.  Phosphorylation of connexin43 on serine368 by protein kinase C regulates gap junctional communication.

Authors:  P D Lampe; E M TenBroek; J M Burt; W E Kurata; R G Johnson; A F Lau
Journal:  J Cell Biol       Date:  2000-06-26       Impact factor: 10.539

9.  Comparison of CID versus ETD based MS/MS fragmentation for the analysis of protein ubiquitination.

Authors:  Frank Sobott; Stephen J Watt; Julia Smith; Mariola J Edelmann; Holger B Kramer; Benedikt M Kessler
Journal:  J Am Soc Mass Spectrom       Date:  2009-05-18       Impact factor: 3.109

10.  Phosphorylation at S365 is a gatekeeper event that changes the structure of Cx43 and prevents down-regulation by PKC.

Authors:  Joell L Solan; Lucrecia Marquez-Rosado; Paul L Sorgen; Perry J Thornton; Philip R Gafken; Paul D Lampe
Journal:  J Cell Biol       Date:  2007-12-17       Impact factor: 10.539
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  29 in total

Review 1.  Gap junctions.

Authors:  Morten Schak Nielsen; Lene Nygaard Axelsen; Paul L Sorgen; Vandana Verma; Mario Delmar; Niels-Henrik Holstein-Rathlou
Journal:  Compr Physiol       Date:  2012-07       Impact factor: 9.090

2.  Calmodulin/CaMKII inhibition improves intercellular communication and impulse propagation in the heart and is antiarrhythmic under conditions when fibrosis is absent.

Authors:  Hiroki Takanari; Vincent J A Bourgonje; Magda S C Fontes; Antonia J A Raaijmakers; Helen Driessen; John A Jansen; Roel van der Nagel; Bart Kok; Leonie van Stuijvenberg; Mohamed Boulaksil; Yoshio Takemoto; Masatoshi Yamazaki; Yukiomi Tsuji; Haruo Honjo; Kaichiro Kamiya; Itsuo Kodama; Mark E Anderson; Marcel A G van der Heyden; Harold V M van Rijen; Toon A B van Veen; Marc A Vos
Journal:  Cardiovasc Res       Date:  2016-06-29       Impact factor: 10.787

3.  CaMKIIα phosphorylation of Shank3 modulates ABI1-Shank3 interaction.

Authors:  Tyler L Perfitt; Philip E Stauffer; Keeley L Spiess; Roger J Colbran
Journal:  Biochem Biophys Res Commun       Date:  2020-01-23       Impact factor: 3.575

4.  CaMKII Phosphorylation of Na(V)1.5: Novel in Vitro Sites Identified by Mass Spectrometry and Reduced S516 Phosphorylation in Human Heart Failure.

Authors:  Anthony W Herren; Darren M Weber; Robert R Rigor; Kenneth B Margulies; Brett S Phinney; Donald M Bers
Journal:  J Proteome Res       Date:  2015-04-13       Impact factor: 4.466

5.  Conduction in the right and left ventricle is differentially regulated by protein kinases and phosphatases: implications for arrhythmogenesis.

Authors:  Alexey V Zaitsev; Natalia S Torres; Keiko M Cawley; Amira D Sabry; Junco S Warren; Mark Warren
Journal:  Am J Physiol Heart Circ Physiol       Date:  2019-03-15       Impact factor: 4.733

6.  Molecular mechanism of TMEM16A regulation: role of CaMKII and PP1/PP2A.

Authors:  Ramon J Ayon; Matthew B Hawn; Joydeep Aoun; Michael Wiwchar; Abigail S Forrest; Fiona Cunningham; Cherie A Singer; Maria L Valencik; Iain A Greenwood; Normand Leblanc
Journal:  Am J Physiol Cell Physiol       Date:  2019-08-28       Impact factor: 4.249

Review 7.  Proteomics in heart failure: top-down or bottom-up?

Authors:  Zachery R Gregorich; Ying-Hua Chang; Ying Ge
Journal:  Pflugers Arch       Date:  2014-03-13       Impact factor: 3.657

Review 8.  Connexins in the Heart: Regulation, Function and Involvement in Cardiac Disease.

Authors:  Antonio Rodríguez-Sinovas; Jose Antonio Sánchez; Laura Valls-Lacalle; Marta Consegal; Ignacio Ferreira-González
Journal:  Int J Mol Sci       Date:  2021-04-23       Impact factor: 5.923

9.  Blockade of CaMKII depresses conduction preferentially in the right ventricular outflow tract and promotes ischemic ventricular fibrillation in the rabbit heart.

Authors:  Mark Warren; Katie J Sciuto; Tyson G Taylor; Vivek Garg; Natalia S Torres; Junko Shibayama; Kenneth W Spitzer; Alexey V Zaitsev
Journal:  Am J Physiol Heart Circ Physiol       Date:  2017-01-27       Impact factor: 4.733

10.  Residual Cx45 and its relationship to Cx43 in murine ventricular myocardium.

Authors:  Mingwei Bao; Evelyn M Kanter; Richard Y-C Huang; Stephan Maxeiner; Marina Frank; Yan Zhang; Richard B Schuessler; Timothy W Smith; R Reid Townsend; Henry W Rohrs; Viviana M Berthoud; Klaus Willecke; James G Laing; Kathryn A Yamada
Journal:  Channels (Austin)       Date:  2011-11-01       Impact factor: 2.581
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