The Multifunctional Protein BAG3

Valerie D. Myers, MS; Joseph M. McClung, PhD; JuFang Wang, MD; Farzaneh G. Tahrir, PhD; Manish K. Gupta, PhD; Jennifer Gordon, PhD; Christopher H. Kontos, MD; Kamel Khalili, PhD; Joseph Y. Cheung, MD, PhD; Arthur M. Feldman, MD, PhD

doi:10.1016/j.jacbts.2017.09.009

JACC: Basic to Translational Science (Feb 2018)

The Multifunctional Protein BAG3

Valerie D. Myers, MS,
Joseph M. McClung, PhD,
JuFang Wang, MD,
Farzaneh G. Tahrir, PhD,
Manish K. Gupta, PhD,
Jennifer Gordon, PhD,
Christopher H. Kontos, MD,
Kamel Khalili, PhD,
Joseph Y. Cheung, MD, PhD,
Arthur M. Feldman, MD, PhD

Affiliations

Valerie D. Myers, MS: Department of Medicine, Division of Cardiology, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Joseph M. McClung, PhD: Department of Physiology, Brody School of Medicine, East Carolina University, Greenville, North Carolina
JuFang Wang, MD: Center for Translational Medicine, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Farzaneh G. Tahrir, PhD: Department of Neuroscience, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Manish K. Gupta, PhD: Department of Neuroscience, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Jennifer Gordon, PhD: Department of Neuroscience, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Christopher H. Kontos, MD: Department of Medicine, Division of Cardiology, Duke University School of Medicine, Durham, North Carolina
Kamel Khalili, PhD: Department of Neuroscience, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Joseph Y. Cheung, MD, PhD: Department of Medicine, Division of Cardiology, Lewis Katz School of Medicine, Philadelphia, Pennsylvania
Arthur M. Feldman, MD, PhD: Department of Medicine, Division of Cardiology, Lewis Katz School of Medicine, Philadelphia, Pennsylvania

DOI: https://doi.org/10.1016/j.jacbts.2017.09.009
Journal volume & issue: Vol. 3, no. 1
pp. 122 – 131

Abstract

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The B-cell lymphoma 2–associated anthanogene (BAG3) protein is expressed most prominently in the heart, the skeletal muscle, and in many forms of cancer. In the heart, it serves as a co-chaperone with heat shock proteins in facilitating autophagy; binds to B-cell lymphoma 2, resulting in inhibition of apoptosis; attaches actin to the Z disk, providing structural support for the sarcomere; and links the α-adrenergic receptor with the L-type Ca2+ channel. When BAG3 is overexpressed in cancer cells, it facilitates prosurvival pathways that lead to insensitivity to chemotherapy, metastasis, cell migration, and invasiveness. In contrast, in the heart, mutations in BAG3 have been associated with a variety of phenotypes, including both hypertrophic/restrictive and dilated cardiomyopathy. In murine skeletal muscle and vasculature, a mutation in BAG3 leads to critical limb ischemia after femoral artery ligation. An understanding of the biology of BAG3 is relevant because it may provide a therapeutic target in patients with both cardiac and skeletal muscle disease.

Published in JACC: Basic to Translational Science

ISSN: 2452-302X (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Diseases of the circulatory (Cardiovascular) system
Website: https://www.journals.elsevier.com/jacc-basic-to-translational-science/

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Abstract

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