Acetyl-l-carnitine increases mitochondrial protein acetylation in the aged rat heart

Kerner, János; Yohannes, Elizabeth; Lee, Kwang Won; Virmani, Ashraf; Koverech, Aleardo; Cavazza, Claudio; Chance, Mark R.; Hoppel, Charles L.

doi:10.1016/j.mad.2015.01.003

Cited by 24 publications

(16 citation statements)

References 81 publications

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“…The differences included outcomes from both endogenous acetylation/deacetylation as well as responses to chemical/non-enzymatic acetylation. 40 Of note, SIRT3 content was decreased in SSM but remained unaltered in IFM. 40 …”

Section: Metabolism and Metabolic Flexibility In The Aging Heartmentioning

confidence: 98%

Mitochondrial Metabolism in Aging Heart

Lesnefsky

Chen

Hoppel

2016

Circulation Research

262

207

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Altered mitochondrial metabolism is the underlying basis for the increased sensitivity in the aged heart to stress. The aged heart exhibits impaired metabolic flexibility, with a decreased capacity to oxidize fatty acids and enhanced dependence on glucose metabolism. Aging impairs mitochondrial oxidative phosphorylation, with a greater role played by the mitochondria located between the myofibrils, the interfibrillar mitochondria. With aging, there is a decrease in activity of complexes III and IV, which account for the decrease in respiration. Furthermore, aging decreases mitochondrial content among the myofibrils. The end result is that in the interfibrillar area there is an approximate 50% decrease in mitochondrial function, affecting all substrates. The defective mitochondria persist in the aged heart, leading to enhanced oxidant production and oxidative injury and the activation of oxidant signaling for cell death. Aging defects in mitochondria represent new therapeutic targets, whether by manipulation of the mitochondrial proteome, modulation of electron transport, activation of biogenesis or mitophagy, or the regulation of mitochondrial fission and fusion. These mechanisms provide new ways to attenuate cardiac disease in elders by preemptive treatment of age-related defects, in contrast to the treatment of disease-induced dysfunction.

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Section: Metabolism and Metabolic Flexibility In The Aging Heartmentioning

confidence: 98%

Mitochondrial Metabolism in Aging Heart

Lesnefsky

Chen

Hoppel

2016

Circulation Research

262

207

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“…Within the brain and other tissues, mitochondrial fatty acid metabolism is facilitated by esterification with carnitine (Fritz and McEwen, 1959). A short-chain acylcarnitine; acetyl-L-carnitine (LAC), not only protects and enhances mitochondrial function (Rosca et al, 2009) but also acts as an acetyl donor for metabolism and for epigenetic modification of histones (Nasca et al, 2013) and for mitochondrial proteins in a biphasic manner (Kerner et al, 2015; Hirschey et al, 2011). Under biphasic control by glucocorticoids, mitochondria sequester calcium released by NMDA receptor activation and glutamate release (Du et al, 2009).…”

Section: Mitochondria Link Metabolic Dysregulation and Depressionmentioning

confidence: 99%

An energetic view of stress: Focus on mitochondria

Picard

McEwen

Epel

et al. 2018

Frontiers in Neuroendocrinology

386

309

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Energy is required to sustain life and enable stress adaptation. At the cellular level, energy is largely derived from mitochondria – unique multifunctional organelles with their own genome. Four main elements connect mitochondria to stress: (1) Energy is required at the molecular, (epi)genetic, cellular, organellar, and systemic levels to sustain components of stress responses; (2) Glucocorticoids and other steroid hormones are produced and metabolized by mitochondria; (3) Reciprocally, mitochondria respond to neuroendocrine and metabolic stress mediators; and (4) Experimentally manipulating mitochondrial functions alters physiological and behavioral responses to psychological stress. Thus, mitochondria are endocrine organelles that provide both the energy and signals that enable and direct stress adaptation. Neural circuits regulating social behavior – as well as psychopathological processes – are also influenced by mitochondrial energetics. An integrative view of stress as an energy-driven process opens new opportunities to study mechanisms of adaptation and regulation across the lifespan.

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“…There is a specific short-chain lipid molecule, acetyl-L-carnitine (LAC), which enhances mitochondrial oxidation of substrates and may protect and enhance mitochondrial function (144). LAC acts as an acetyl donor for metabolism and for epigenetic modification of histones (145) and for mitochondrial proteins in a biphasic manner (146, 147). In animal models, LAC deficiency is associated with metabolic dysregulation, including insulin resistance, elevated triglycerides and leptin that, like the depressive-like behavior, is rapidly corrected by LAC treatment (148).…”

Section: Mitochondrial Control Of Immunity and Inflammationmentioning

confidence: 99%

Psychological Stress and Mitochondria: A Conceptual Framework

2018

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This evidence suggests that mitochondrial allostatic load represents a potential subcellular mechanism for transducing psychosocial experiences and the resulting emotional responses-both adverse and positive-into clinically meaningful biological and physiological changes. The associated article in this issue of Psychosomatic Medicine presents a systematic review of the effects of psychological stress on mitochondria. Integrating mitochondria into biobehavioral and psychosomatic research opens new possibilities to investigate how psychosocial factors influence human health and well-being across the life-span.

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Acetyl-l-carnitine increases mitochondrial protein acetylation in the aged rat heart

Cited by 24 publications

References 81 publications

Mitochondrial Metabolism in Aging Heart

Mitochondrial Metabolism in Aging Heart

An energetic view of stress: Focus on mitochondria

Psychological Stress and Mitochondria: A Conceptual Framework

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