Literature DB >> 22727426

The ubiquitin-proteasome system and cardiovascular disease.

Saul R Powell1, Joerg Herrmann, Amir Lerman, Cam Patterson, Xuejun Wang.   

Abstract

Over the past decade, the role of the ubiquitin-proteasome system (UPS) has been the subject of numerous studies to elucidate its role in cardiovascular physiology and pathophysiology. There have been many advances in this field including the use of proteomics to achieve a better understanding of how the cardiac proteasome is regulated. Moreover, improved methods for the assessment of UPS function and the development of genetic models to study the role of the UPS have led to the realization that often the function of this system deviates from the norm in many cardiovascular pathologies. Hence, dysfunction has been described in atherosclerosis, familial cardiac proteinopathies, idiopathic dilated cardiomyopathies, and myocardial ischemia. This has led to numerous studies of the ubiquitin protein (E3) ligases and their roles in cardiac physiology and pathophysiology. This has also led to the controversial proposition of treating atherosclerosis, cardiac hypertrophy, and myocardial ischemia with proteasome inhibitors. Furthering our knowledge of this system may help in the development of new UPS-based therapeutic modalities for mitigation of cardiovascular disease.
Copyright © 2012 Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22727426      PMCID: PMC3743449          DOI: 10.1016/B978-0-12-397863-9.00009-2

Source DB:  PubMed          Journal:  Prog Mol Biol Transl Sci        ISSN: 1877-1173            Impact factor:   3.622


  233 in total

1.  Immunoproteasomes preserve protein homeostasis upon interferon-induced oxidative stress.

Authors:  Ulrike Seifert; Lukasz P Bialy; Frédéric Ebstein; Dawadschargal Bech-Otschir; Antje Voigt; Friederike Schröter; Timour Prozorovski; Nicole Lange; Janos Steffen; Melanie Rieger; Ulrike Kuckelkorn; Orhan Aktas; Peter-M Kloetzel; Elke Krüger
Journal:  Cell       Date:  2010-08-20       Impact factor: 41.582

Review 2.  The murine cardiac 26S proteasome: an organelle awaiting exploration.

Authors:  Aldrin V Gomes; Chenggong Zong; Ricky D Edmondson; Beniam T Berhane; Guang-Wu Wang; Steven Le; Glen Young; Jun Zhang; Thomas M Vondriska; Julian P Whitelegge; Richard C Jones; Irving G Joshua; Sheeno Thyparambil; Dawn Pantaleon; Joe Qiao; Joseph Loo; Peipei Ping
Journal:  Ann N Y Acad Sci       Date:  2005-06       Impact factor: 5.691

3.  Chaperone-dependent E3 ligase CHIP ubiquitinates and mediates proteasomal degradation of soluble guanylyl cyclase.

Authors:  Tian Xia; Christiana Dimitropoulou; Jingmin Zeng; Galina N Antonova; Connie Snead; Richard C Venema; David Fulton; Shuibing Qian; Cam Patterson; Andreas Papapetropoulos; John D Catravas
Journal:  Am J Physiol Heart Circ Physiol       Date:  2007-09-14       Impact factor: 4.733

4.  Protein damage and degradation by oxygen radicals. III. Modification of secondary and tertiary structure.

Authors:  K J Davies; M E Delsignore
Journal:  J Biol Chem       Date:  1987-07-15       Impact factor: 5.157

Review 5.  Reactive oxygen species in the control of hypoxia-inducible factor-mediated gene expression.

Authors:  Thomas Kietzmann; Agnes Görlach
Journal:  Semin Cell Dev Biol       Date:  2005 Aug-Oct       Impact factor: 7.727

6.  Cardioprotection with palm tocotrienol: antioxidant activity of tocotrienol is linked with its ability to stabilize proteasomes.

Authors:  Samarjit Das; Saul R Powell; Ping Wang; Andras Divald; Kalanithi Nesaretnam; Arpad Tosaki; Gerald A Cordis; Nilanjana Maulik; Dipak K Das
Journal:  Am J Physiol Heart Circ Physiol       Date:  2005-02-11       Impact factor: 4.733

7.  Proteasome inhibitor bortezomib promotes a rupture-prone plaque phenotype in ApoE-deficient mice.

Authors:  Jozef Leo Van Herck; Guido R Y De Meyer; Wim Martinet; Hidde Bult; Christiaan J Vrints; Arnold G Herman
Journal:  Basic Res Cardiol       Date:  2009-08-20       Impact factor: 17.165

8.  Cardiomyocyte expression of a polyglutamine preamyloid oligomer causes heart failure.

Authors:  J Scott Pattison; Atsushi Sanbe; Alina Maloyan; Hanna Osinska; Raisa Klevitsky; Jeffrey Robbins
Journal:  Circulation       Date:  2008-05-19       Impact factor: 29.690

9.  Disease-associated prion protein oligomers inhibit the 26S proteasome.

Authors:  Mark Kristiansen; Pelagia Deriziotis; Derek E Dimcheff; Graham S Jackson; Huib Ovaa; Heike Naumann; Anthony R Clarke; Fijs W B van Leeuwen; Victoria Menéndez-Benito; Nico P Dantuma; John L Portis; John Collinge; Sarah J Tabrizi
Journal:  Mol Cell       Date:  2007-04-27       Impact factor: 17.970

10.  Atrogin-1 inhibits Akt-dependent cardiac hypertrophy in mice via ubiquitin-dependent coactivation of Forkhead proteins.

Authors:  Hui-Hua Li; Monte S Willis; Pamela Lockyer; Nathaniel Miller; Holly McDonough; David J Glass; Cam Patterson
Journal:  J Clin Invest       Date:  2007-11       Impact factor: 14.808
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  29 in total

Review 1.  Regulation of proteasome activity in health and disease.

Authors:  Marion Schmidt; Daniel Finley
Journal:  Biochim Biophys Acta       Date:  2013-08-27

2.  UCH-L1 promotes invasion of breast cancer cells through activating Akt signaling pathway.

Authors:  Yanhong Luo; Jianfeng He; Chunlin Yang; Matthew Orange; Xingcong Ren; Nick Blair; Tao Tan; Jin-Ming Yang; Hua Zhu
Journal:  J Cell Biochem       Date:  2017-07-31       Impact factor: 4.429

3.  Central role of SIAH inhibition in DCC-dependent cardioprotection provoked by netrin-1/NO.

Authors:  Qiang Li; Ping Wang; Keqiang Ye; Hua Cai
Journal:  Proc Natl Acad Sci U S A       Date:  2015-01-05       Impact factor: 11.205

Review 4.  Dysfunction of the ubiquitin-proteasome system in atherosclerotic cardiovascular disease.

Authors:  Feilong Wang; Amir Lerman; Joerg Herrmann
Journal:  Am J Cardiovasc Dis       Date:  2015-03-10

Review 5.  Proteomic identification of protein ubiquitination events.

Authors:  Guoqiang Xu; Samie R Jaffrey
Journal:  Biotechnol Genet Eng Rev       Date:  2013

6.  The SCFFBXO3 ubiquitin E3 ligase regulates inflammation in atherosclerosis.

Authors:  Divay Chandra; James Londino; Shaun Alexander; Joseph S Bednash; Yingze Zhang; Robert M Friedlander; Grant Daskivich; Diane L Carlisle; William R Lariviere; Ana Carolina Igami Nakassa; Mark Ross; Claudette St Croix; Toru Nyunoya; Frank Sciurba; Bill Chen; Rama K Mallampalli
Journal:  J Mol Cell Cardiol       Date:  2018-11-16       Impact factor: 5.000

7.  A retrospective analysis of 3954 patients in phase 2/3 trials of bortezomib for the treatment of multiple myeloma: towards providing a benchmark for the cardiac safety profile of proteasome inhibition in multiple myeloma.

Authors:  Jacob P Laubach; Javid J Moslehi; Sanjeev A Francis; Jesús F San Miguel; Pieter Sonneveld; Robert Z Orlowski; Philippe Moreau; Laura Rosiñol; Edward A Faber; Peter Voorhees; Maria-Victoria Mateos; Loreta Marquez; Huaibao Feng; Avinash Desai; Helgi van de Velde; Jennifer Elliott; Hongliang Shi; Edward Dow; Nishith Jobanputra; Dixie-Lee Esseltine; Liviu Niculescu; Kenneth C Anderson; Sagar Lonial; Paul G Richardson
Journal:  Br J Haematol       Date:  2017-05-03       Impact factor: 6.998

Review 8.  The interplay between autophagy and the ubiquitin-proteasome system in cardiac proteotoxicity.

Authors:  Changhua Wang; Xuejun Wang
Journal:  Biochim Biophys Acta       Date:  2014-08-01

9.  Sumo E2 enzyme UBC9 is required for efficient protein quality control in cardiomyocytes.

Authors:  Manish K Gupta; James Gulick; Ruijie Liu; Xuejun Wang; Jeffery D Molkentin; Jeffrey Robbins
Journal:  Circ Res       Date:  2014-08-05       Impact factor: 17.367

10.  Gene expression signatures of coronary heart disease.

Authors:  Roby Joehanes; Saixia Ying; Tianxiao Huan; Andrew D Johnson; Nalini Raghavachari; Richard Wang; Poching Liu; Kimberly A Woodhouse; Shurjo K Sen; Kahraman Tanriverdi; Paul Courchesne; Jane E Freedman; Christopher J O'Donnell; Daniel Levy; Peter J Munson
Journal:  Arterioscler Thromb Vasc Biol       Date:  2013-03-28       Impact factor: 8.311
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