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

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

doi:10.1161/CIRCULATIONAHA.116.024873

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

Circulation. 2017 Jul 18;136(3):281-296. doi: 10.1161/CIRCULATIONAHA.116.024873. Epub 2017 Apr 25.

Authors

Joseph M McClung¹, Timothy J McCord², Terence E Ryan², Cameron A Schmidt², Tom D Green², Kevin W Southerland², Jessica L Reinardy², Sarah B Mueller², Talaignair N Venkatraman², Christopher D Lascola², Sehoon Keum², Douglas A Marchuk², Espen E Spangenburg², Ayotunde Dokun², Brian H Annex², Christopher D Kontos²

Affiliations

¹ From Department of Physiology and Diabetes and Obesity Institute, East Carolina University, Brody School of Medicine, Greenville, NC (J.M.M., T.E.R., C.A.S., T.D.G., E.E.S); Department of Medicine, Division of Cardiology (T.J.M., J.L.R., S.B.M., C.D.K.), Department of Surgery, Division of General Surgery (K.W.S.), Department of Pharmacology and Cancer Biology (J.L.R., S.B.M., C.D.K.), Department of Radiology (T.N.V., C.D.L.), and Department of Molecular Genetics and Microbiology (S.K., D.A.M.), Duke University Medical Center, Durham, NC; and Department of Medicine, Division of Endocrinology (A.D., B.H.A.), Division of Cardiovascular Medicine (B.H.A.), and Robert M. Berne Cardiovascular Research Center (B.H.A.), University of Virginia School of Medicine, Charlottesville. mcclungj@ecu.edu.
² From Department of Physiology and Diabetes and Obesity Institute, East Carolina University, Brody School of Medicine, Greenville, NC (J.M.M., T.E.R., C.A.S., T.D.G., E.E.S); Department of Medicine, Division of Cardiology (T.J.M., J.L.R., S.B.M., C.D.K.), Department of Surgery, Division of General Surgery (K.W.S.), Department of Pharmacology and Cancer Biology (J.L.R., S.B.M., C.D.K.), Department of Radiology (T.N.V., C.D.L.), and Department of Molecular Genetics and Microbiology (S.K., D.A.M.), Duke University Medical Center, Durham, NC; and Department of Medicine, Division of Endocrinology (A.D., B.H.A.), Division of Cardiovascular Medicine (B.H.A.), and Robert M. Berne Cardiovascular Research Center (B.H.A.), University of Virginia School of Medicine, Charlottesville.

Abstract

Background: Critical limb ischemia is a manifestation of peripheral artery disease that carries significant mortality and morbidity risk in humans, although its genetic determinants remain largely unknown. We previously discovered 2 overlapping quantitative trait loci in mice, Lsq-1 and Civq-1, that affected limb muscle survival and stroke volume after femoral artery or middle cerebral artery ligation, respectively. Here, we report that a Bag3 variant (Ile81Met) segregates with tissue protection from hind-limb ischemia.

Methods: We treated mice with either adeno-associated viruses encoding a control (green fluorescent protein) or 2 BAG3 (Bcl-2-associated athanogene-3) variants, namely Met81 or Ile81, and subjected the mice to hind-limb ischemia.

Results: We found that the BAG3 Ile81Met variant in the C57BL/6 (BL6) mouse background segregates with protection from tissue necrosis in a shorter congenic fragment of Lsq-1 (C.B6-Lsq1-3). BALB/c mice treated with adeno-associated virus encoding the BL6 BAG3 variant (Ile81; n=25) displayed reduced limb-tissue necrosis and increased limb tissue perfusion compared with Met81- (n=25) or green fluorescent protein- (n=29) expressing animals. BAG3^Ile81, but not BAG3^Met81, improved ischemic muscle myopathy and muscle precursor cell differentiation and improved muscle regeneration in a separate, toxin-induced model of injury. Systemic injection of adeno-associated virus-BAG3^Ile81 (n=9), but not BAG3^Met81 (n=10) or green fluorescent protein (n=5), improved ischemic limb blood flow and limb muscle histology and restored muscle function (force production). Compared with BAG3^Met81, BAG3^Ile81 displayed improved binding to the small heat shock protein (HspB8) in ischemic skeletal muscle cells and enhanced ischemic muscle autophagic flux.

Conclusions: Taken together, our data demonstrate that genetic variation in BAG3 plays an important role in the prevention of ischemic tissue necrosis. These results highlight a pathway that preserves tissue survival and muscle function in the setting of ischemia.

Keywords: autophagy; genetic variation; ischemia; muscle, skeletal; peripheral arterial disease.

MeSH terms

Adaptor Proteins, Signal Transducing / genetics*
Adaptor Proteins, Signal Transducing / metabolism
Animals
Apoptosis Regulatory Proteins / genetics*
Apoptosis Regulatory Proteins / metabolism
Autophagy / genetics*
Cell Line, Transformed
Genetic Variation / genetics*
Hindlimb / blood supply*
Hindlimb / pathology
Ischemia / genetics*
Ischemia / pathology
Ischemia / prevention & control
Mice
Mice, Congenic
Mice, Inbred BALB C
Mice, Inbred C3H
Mice, Inbred C57BL
Muscular Diseases / genetics*
Muscular Diseases / pathology
Muscular Diseases / prevention & control
Protein Binding / physiology

Substances

Adaptor Proteins, Signal Transducing
Apoptosis Regulatory Proteins
Bag3 protein, mouse

Abstract

MeSH terms

Substances

Grants and funding