Interaction between the autophagy protein Beclin 1 and Na+,K+-ATPase during starvation, exercise, and ischemia
Autosis is a distinct form of cell death that requires both autophagy genes and the Na+,K+-ATPase pump. However, the relationship between the autophagy machinery and Na+,K+-ATPase is unknown. We explored the hypothesis that Na+,K+-ATPase interacts with the autophagy protein Beclin 1 during stress an...
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| Published in | JCI insight Vol. 5; no. 1 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Society for Clinical Investigation
16.01.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2379-3708 2379-3708 |
| DOI | 10.1172/jci.insight.133282 |
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| Abstract | Autosis is a distinct form of cell death that requires both autophagy genes and the Na+,K+-ATPase pump. However, the relationship between the autophagy machinery and Na+,K+-ATPase is unknown. We explored the hypothesis that Na+,K+-ATPase interacts with the autophagy protein Beclin 1 during stress and autosis-inducing conditions. Starvation increased the Beclin 1/Na+,K+-ATPase interaction in cultured cells, and this was blocked by cardiac glycosides, inhibitors of Na+,K+-ATPase. Increases in Beclin 1/Na+,K+-ATPase interaction were also observed in tissues from starved mice, livers of patients with anorexia nervosa, brains of neonatal rats subjected to cerebral hypoxia-ischemia (HI), and kidneys of mice subjected to renal ischemia/reperfusion injury (IRI). Cardiac glycosides blocked the increased Beclin 1/Na+,K+-ATPase interaction during cerebral HI injury and renal IRI. In the mouse renal IRI model, cardiac glycosides reduced numbers of autotic cells in the kidney and improved clinical outcome. Moreover, blockade of endogenous cardiac glycosides increased Beclin 1/Na+,K+-ATPase interaction and autotic cell death in mouse hearts during exercise. Thus, Beclin 1/Na+,K+-ATPase interaction is increased in stress conditions, and cardiac glycosides decrease this interaction and autosis in both pathophysiological and physiological settings. This crosstalk between cellular machinery that generates and consumes energy during stress may represent a fundamental homeostatic mechanism. |
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| AbstractList | Autosis is a distinct form of cell death that requires both autophagy genes and the Na+,K+-ATPase pump. However, the relationship between the autophagy machinery and Na+,K+-ATPase is unknown. We explored the hypothesis that Na+,K+-ATPase interacts with the autophagy protein Beclin 1 during stress and autosis-inducing conditions. Starvation increased the Beclin 1/Na+,K+-ATPase interaction in cultured cells, and this was blocked by cardiac glycosides, inhibitors of Na+,K+-ATPase. Increases in Beclin 1/Na+,K+-ATPase interaction were also observed in tissues from starved mice, livers of patients with anorexia nervosa, brains of neonatal rats subjected to cerebral hypoxia-ischemia (HI), and kidneys of mice subjected to renal ischemia/reperfusion injury (IRI). Cardiac glycosides blocked the increased Beclin 1/Na+,K+-ATPase interaction during cerebral HI injury and renal IRI. In the mouse renal IRI model, cardiac glycosides reduced numbers of autotic cells in the kidney and improved clinical outcome. Moreover, blockade of endogenous cardiac glycosides increased Beclin 1/Na+,K+-ATPase interaction and autotic cell death in mouse hearts during exercise. Thus, Beclin 1/Na+,K+-ATPase interaction is increased in stress conditions, and cardiac glycosides decrease this interaction and autosis in both pathophysiological and physiological settings. This crosstalk between cellular machinery that generates and consumes energy during stress may represent a fundamental homeostatic mechanism.Autosis is a distinct form of cell death that requires both autophagy genes and the Na+,K+-ATPase pump. However, the relationship between the autophagy machinery and Na+,K+-ATPase is unknown. We explored the hypothesis that Na+,K+-ATPase interacts with the autophagy protein Beclin 1 during stress and autosis-inducing conditions. Starvation increased the Beclin 1/Na+,K+-ATPase interaction in cultured cells, and this was blocked by cardiac glycosides, inhibitors of Na+,K+-ATPase. Increases in Beclin 1/Na+,K+-ATPase interaction were also observed in tissues from starved mice, livers of patients with anorexia nervosa, brains of neonatal rats subjected to cerebral hypoxia-ischemia (HI), and kidneys of mice subjected to renal ischemia/reperfusion injury (IRI). Cardiac glycosides blocked the increased Beclin 1/Na+,K+-ATPase interaction during cerebral HI injury and renal IRI. In the mouse renal IRI model, cardiac glycosides reduced numbers of autotic cells in the kidney and improved clinical outcome. Moreover, blockade of endogenous cardiac glycosides increased Beclin 1/Na+,K+-ATPase interaction and autotic cell death in mouse hearts during exercise. Thus, Beclin 1/Na+,K+-ATPase interaction is increased in stress conditions, and cardiac glycosides decrease this interaction and autosis in both pathophysiological and physiological settings. This crosstalk between cellular machinery that generates and consumes energy during stress may represent a fundamental homeostatic mechanism. Autosis is a distinct form of cell death that requires both autophagy genes and the Na+,K+-ATPase pump. However, the relationship between the autophagy machinery and Na+,K+-ATPase is unknown. We explored the hypothesis that Na+,K+-ATPase interacts with the autophagy protein Beclin 1 during stress and autosis-inducing conditions. Starvation increased the Beclin 1/Na+,K+-ATPase interaction in cultured cells, and this was blocked by cardiac glycosides, inhibitors of Na+,K+-ATPase. Increases in Beclin 1/Na+,K+-ATPase interaction were also observed in tissues from starved mice, livers of patients with anorexia nervosa, brains of neonatal rats subjected to cerebral hypoxia-ischemia (HI), and kidneys of mice subjected to renal ischemia/reperfusion injury (IRI). Cardiac glycosides blocked the increased Beclin 1/Na+,K+-ATPase interaction during cerebral HI injury and renal IRI. In the mouse renal IRI model, cardiac glycosides reduced numbers of autotic cells in the kidney and improved clinical outcome. Moreover, blockade of endogenous cardiac glycosides increased Beclin 1/Na+,K+-ATPase interaction and autotic cell death in mouse hearts during exercise. Thus, Beclin 1/Na+,K+-ATPase interaction is increased in stress conditions, and cardiac glycosides decrease this interaction and autosis in both pathophysiological and physiological settings. This crosstalk between cellular machinery that generates and consumes energy during stress may represent a fundamental homeostatic mechanism. Autosis is a distinct form of cell death that requires both autophagy genes and the Na + ,K + -ATPase pump. However, the relationship between the autophagy machinery and Na + ,K + -ATPase is unknown. We explored the hypothesis that Na + ,K + -ATPase interacts with the autophagy protein Beclin 1 during stress and autosis-inducing conditions. Starvation increased the Beclin 1/Na + ,K + -ATPase interaction in cultured cells, and this was blocked by cardiac glycosides, inhibitors of Na + ,K + -ATPase. Increases in Beclin 1/Na + ,K + -ATPase interaction were also observed in tissues from starved mice, livers of patients with anorexia nervosa, brains of neonatal rats subjected to cerebral hypoxia-ischemia (HI), and kidneys of mice subjected to renal ischemia/reperfusion injury (IRI). Cardiac glycosides blocked the increased Beclin 1/Na + ,K + -ATPase interaction during cerebral HI injury and renal IRI. In the mouse renal IRI model, cardiac glycosides reduced numbers of autotic cells in the kidney and improved clinical outcome. Moreover, blockade of endogenous cardiac glycosides increased Beclin 1/Na + ,K + -ATPase interaction and autotic cell death in mouse hearts during exercise. Thus, Beclin 1/Na + ,K + -ATPase interaction is increased in stress conditions, and cardiac glycosides decrease this interaction and autosis in both pathophysiological and physiological settings. This crosstalk between cellular machinery that generates and consumes energy during stress may represent a fundamental homeostatic mechanism. A nexus between the autophagy machinery and Na + ,K + -ATPase is described during physiological and pathological conditions, including starvation, exercise, anorexia, and tissue ischemia. |
| Author | Zhou, Anwu Hu, Ming Chang Nah, Jihoon Fernández, Álvaro F. Xiao, Guanghua Liu, Yang Ginet, Vanessa Sadoshima, Junichi Rautou, Pierre-Emmanuel Paradis, Valérie Shi, Mingjun Tanguy, Marion Puyal, Julien Zou, Zhongju Posner, Bruce A. Levine, Beth |
| AuthorAffiliation | 1 Center for Autophagy Research 5 Department of Cell Biology and Molecular Medicine, Cardiovascular Research Institute, Rutgers New Jersey Medical School, Newark, New Jersey, USA 6 Howard Hughes Medical Institute 8 Department of Clinical Sciences, University of Texas Southwestern Medical Center, Dallas, Texas, USA 10 Service d’Hépatologie, Pôle des Maladies de l’Appareil Digestif, Département Hospitalo-Universitaire Unity, and 4 Charles and Jane Pak Center for Mineral Metabolism and Clinical Research, University of Texas Southwestern Medical Center, Dallas, Texas, USA 2 Department of Internal Medicine, University of Texas Southwestern Medical Center, Dallas, Texas, USA 3 Department of Fundamental Neurosciences, University of Lausanne, Lausanne, Switzerland 11 Service d’Anatomie Pathologique, Hôpital Beaujon, Assistance Hôpitaux Publique de Paris, Clichy, France 9 Centre de Recherche sur l’Inflammation, Université de Paris, Paris, France 7 Department of Biochemistry, and |
| AuthorAffiliation_xml | – name: 9 Centre de Recherche sur l’Inflammation, Université de Paris, Paris, France – name: 10 Service d’Hépatologie, Pôle des Maladies de l’Appareil Digestif, Département Hospitalo-Universitaire Unity, and – name: 3 Department of Fundamental Neurosciences, University of Lausanne, Lausanne, Switzerland – name: 2 Department of Internal Medicine, University of Texas Southwestern Medical Center, Dallas, Texas, USA – name: 6 Howard Hughes Medical Institute – name: 5 Department of Cell Biology and Molecular Medicine, Cardiovascular Research Institute, Rutgers New Jersey Medical School, Newark, New Jersey, USA – name: 11 Service d’Anatomie Pathologique, Hôpital Beaujon, Assistance Hôpitaux Publique de Paris, Clichy, France – name: 7 Department of Biochemistry, and – name: 4 Charles and Jane Pak Center for Mineral Metabolism and Clinical Research, University of Texas Southwestern Medical Center, Dallas, Texas, USA – name: 8 Department of Clinical Sciences, University of Texas Southwestern Medical Center, Dallas, Texas, USA – name: 1 Center for Autophagy Research |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31941841$$D View this record in MEDLINE/PubMed |
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| Snippet | Autosis is a distinct form of cell death that requires both autophagy genes and the Na+,K+-ATPase pump. However, the relationship between the autophagy... Autosis is a distinct form of cell death that requires both autophagy genes and the Na + ,K + -ATPase pump. However, the relationship between the autophagy... |
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| SubjectTerms | Animals Autophagy - physiology Beclin-1 - metabolism Cell Death - physiology Cells, Cultured Glycosides HeLa Cells Humans Ischemia - metabolism Male Mice Mice, Inbred C57BL Rats Rats, Sprague-Dawley Reperfusion Injury Sodium-Potassium-Exchanging ATPase - metabolism Starvation - metabolism |
| Title | Interaction between the autophagy protein Beclin 1 and Na+,K+-ATPase during starvation, exercise, and ischemia |
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