Literature DB >> 27381181

Evidence for the Role of BAG3 in Mitochondrial Quality Control in Cardiomyocytes.

Farzaneh G Tahrir1, Tijana Knezevic1, Manish K Gupta1, Jennifer Gordon1, Joseph Y Cheung2,3, Arthur M Feldman3,4, Kamel Khalili1.   

Abstract

Mitochondrial abnormalities impact the development of myofibrillar myopathies. Therefore, understanding the mechanisms underlying the removal of dysfunctional mitochondria from cells is of great importance toward understanding the molecular events involved in the genesis of cardiomyopathy. Earlier studies have ascribed a role for BAG3 in the development of cardiomyopathy in experimental animals leading to the identification of BAG3 mutations in patients with heart failure which may play a part in the onset of disease development and progression. BAG3 is co-chaperone of heat shock protein 70 (HSP70), which has been shown to modulate apoptosis and autophagy, in several cell models. In this study, we explore the potential role of BAG3 in mitochondrial quality control. We demonstrate that siRNA mediated suppression of BAG3 production in neonatal rat ventricular cardiomyocytes (NRVCs) significantly elevates the level of Parkin, a key component of mitophagy. We found that both BAG3 and Parkin are recruited to depolarized mitochondria and promote mitophagy. Suppression of BAG3 in NRVCs significantly reduces autophagy flux and eliminates clearance of Tom20, an essential import receptor for mitochondria proteins, after induction of mitophagy. These observations suggest that BAG3 is critical for the maintenance of mitochondrial homeostasis under stress conditions, and disruptions in BAG3 expression impact cardiomyocyte function. J. Cell. Physiol. 232: 797-805, 2017.
© 2016 Wiley Periodicals, Inc. © 2016 Wiley Periodicals, Inc.

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Year:  2016        PMID: 27381181      PMCID: PMC5663276          DOI: 10.1002/jcp.25476

Source DB:  PubMed          Journal:  J Cell Physiol        ISSN: 0021-9541            Impact factor:   6.384


  26 in total

1.  Cell biology: Tagged tags engage disposal.

Authors:  Noriyuki Matsuda; Keiji Tanaka
Journal:  Nature       Date:  2015-08-12       Impact factor: 49.962

2.  Parkin mediates proteasome-dependent protein degradation and rupture of the outer mitochondrial membrane.

Authors:  Saori R Yoshii; Chieko Kishi; Naotada Ishihara; Noboru Mizushima
Journal:  J Biol Chem       Date:  2011-03-18       Impact factor: 5.157

3.  BAG3 deficiency results in fulminant myopathy and early lethality.

Authors:  Sachiko Homma; Masahiro Iwasaki; G Diane Shelton; Eva Engvall; John C Reed; Shinichi Takayama
Journal:  Am J Pathol       Date:  2006-09       Impact factor: 4.307

4.  Contemporary definitions and classification of the cardiomyopathies: an American Heart Association Scientific Statement from the Council on Clinical Cardiology, Heart Failure and Transplantation Committee; Quality of Care and Outcomes Research and Functional Genomics and Translational Biology Interdisciplinary Working Groups; and Council on Epidemiology and Prevention.

Authors:  Barry J Maron; Jeffrey A Towbin; Gaetano Thiene; Charles Antzelevitch; Domenico Corrado; Donna Arnett; Arthur J Moss; Christine E Seidman; James B Young
Journal:  Circulation       Date:  2006-03-27       Impact factor: 29.690

5.  BAG3 mediates chaperone-based aggresome-targeting and selective autophagy of misfolded proteins.

Authors:  Martin Gamerdinger; A Murat Kaya; Uwe Wolfrum; Albrecht M Clement; Christian Behl
Journal:  EMBO Rep       Date:  2011-01-21       Impact factor: 8.807

6.  p62/SQSTM1 in autophagic clearance of a non-ubiquitylated substrate.

Authors:  Yoshihisa Watanabe; Masaki Tanaka
Journal:  J Cell Sci       Date:  2011-07-19       Impact factor: 5.285

7.  Broad activation of the ubiquitin-proteasome system by Parkin is critical for mitophagy.

Authors:  Nickie C Chan; Anna M Salazar; Anh H Pham; Michael J Sweredoski; Natalie J Kolawa; Robert L J Graham; Sonja Hess; David C Chan
Journal:  Hum Mol Genet       Date:  2011-02-04       Impact factor: 6.150

8.  The PINK1-Parkin pathway promotes both mitophagy and selective respiratory chain turnover in vivo.

Authors:  Evelyn S Vincow; Gennifer Merrihew; Ruth E Thomas; Nicholas J Shulman; Richard P Beyer; Michael J MacCoss; Leo J Pallanck
Journal:  Proc Natl Acad Sci U S A       Date:  2013-03-18       Impact factor: 11.205

9.  p62/SQSTM1 binds directly to Atg8/LC3 to facilitate degradation of ubiquitinated protein aggregates by autophagy.

Authors:  Serhiy Pankiv; Terje Høyvarde Clausen; Trond Lamark; Andreas Brech; Jack-Ansgar Bruun; Heidi Outzen; Aud Øvervatn; Geir Bjørkøy; Terje Johansen
Journal:  J Biol Chem       Date:  2007-06-19       Impact factor: 5.157

10.  BAG3-dependent noncanonical autophagy induced by proteasome inhibition in HepG2 cells.

Authors:  Bao-Qin Liu; Zhen-Xian Du; Zhi-Hong Zong; Chao Li; Ning Li; Qiang Zhang; De-Hui Kong; Hua-Qin Wang
Journal:  Autophagy       Date:  2013-04-10       Impact factor: 16.016
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  25 in total

1.  Evidence for the impact of BAG3 on electrophysiological activity of primary culture of neonatal cardiomyocytes.

Authors:  Farzaneh G Tahrir; Jennifer Gordon; Arthur M Feldman; Joseph Cheung; Kamel Khalili; Taha Mohseni Ahooyi
Journal:  J Cell Physiol       Date:  2019-04-01       Impact factor: 6.384

2.  BAG3 (Bcl-2-Associated Athanogene-3) Coding Variant in Mice Determines Susceptibility to Ischemic Limb Muscle Myopathy by Directing Autophagy.

Authors:  Joseph M McClung; Timothy J McCord; Terence E Ryan; Cameron A Schmidt; Tom D Green; Kevin W Southerland; Jessica L Reinardy; Sarah B Mueller; Talaignair N Venkatraman; Christopher D Lascola; Sehoon Keum; Douglas A Marchuk; Espen E Spangenburg; Ayotunde Dokun; Brian H Annex; Christopher D Kontos
Journal:  Circulation       Date:  2017-04-25       Impact factor: 29.690

Review 3.  Mitochondrial quality control in cardiac cells: Mechanisms and role in cardiac cell injury and disease.

Authors:  Farzaneh G Tahrir; Dianne Langford; Shohreh Amini; Taha Mohseni Ahooyi; Kamel Khalili
Journal:  J Cell Physiol       Date:  2018-11-11       Impact factor: 6.384

4.  Bcl-2-associated athanogene 3 protects the heart from ischemia/reperfusion injury.

Authors:  Feifei Su; Valerie D Myers; Tijana Knezevic; JuFang Wang; Erhe Gao; Muniswamy Madesh; Farzaneh G Tahrir; Manish K Gupta; Jennifer Gordon; Joseph Rabinowitz; Frederick V Ramsey; Douglas G Tilley; Kamel Khalili; Joseph Y Cheung; Arthur M Feldman
Journal:  JCI Insight       Date:  2016-11-17

5.  Methyltransferase-like 21c methylates and stabilizes the heat shock protein Hspa8 in type I myofibers in mice.

Authors:  Chao Wang; Justine Arrington; Anna C Ratliff; Jingjuan Chen; Hannah E Horton; Yaohui Nie; Feng Yue; Christine A Hrycyna; W Andy Tao; Shihuan Kuang
Journal:  J Biol Chem       Date:  2019-07-25       Impact factor: 5.157

Review 6.  Neuromuscular Diseases Due to Chaperone Mutations: A Review and Some New Results.

Authors:  Jaakko Sarparanta; Per Harald Jonson; Sabita Kawan; Bjarne Udd
Journal:  Int J Mol Sci       Date:  2020-02-19       Impact factor: 5.923

7.  Mitochondrial dysfunction in human immunodeficiency virus-1 transgenic mouse cardiac myocytes.

Authors:  Joseph Y Cheung; Jennifer Gordon; JuFang Wang; Jianliang Song; Xue-Qian Zhang; Fabian Jana Prado; Santhanam Shanmughapriya; Sudarsan Rajan; Dhanendra Tomar; Farzaneh G Tahrir; Manish K Gupta; Tijana Knezevic; Nana Merabova; Christopher D Kontos; Joseph M McClung; Paul E Klotman; Muniswamy Madesh; Kamel Khalili; Arthur M Feldman
Journal:  J Cell Physiol       Date:  2018-09-07       Impact factor: 6.384

Review 8.  Advances in the role and mechanism of BAG3 in dilated cardiomyopathy.

Authors:  Leiling Liu; Kaijun Sun; Xiaojun Zhang; Ying Tang; Danyan Xu
Journal:  Heart Fail Rev       Date:  2021-01       Impact factor: 4.214

Review 9.  The role of heat shock proteins and co-chaperones in heart failure.

Authors:  Mark J Ranek; Marisa J Stachowski; Jonathan A Kirk; Monte S Willis
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2018-01-19       Impact factor: 6.237

10.  Novel BAG3 Variants in African American Patients With Cardiomyopathy: Reduced β-Adrenergic Responsiveness in Excitation-Contraction.

Authors:  Arthur M Feldman; Jennifer Gordon; Jufang Wang; Jianliang Song; Xue-Qian Zhang; Valerie D Myers; Dhanendra Tomar; Glenn S Gerhard; Kamel Khalili; Joseph Y Cheung
Journal:  J Card Fail       Date:  2020-09-18       Impact factor: 5.712
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