Longevity and human health may be linked to a muscle cell enzyme

June 23, 2016

Exercise and fasting do not change the location of a key enzyme involved in energy production, a study in Experimental Physiology found.

SIRT3 is an important enzyme involved in fat metabolism and energy production. Located within the mitochondria of human skeletal muscle, it acts by targeting certain proteins and altering their activity. Nearly every cell in the body contains mitochondria as they are responsible for producing the energy cells need to function properly. Learning more about the enzymes located in the mitochondria, their movements, and purpose in relation to the entire cell is essential for fully appreciating how cellular functions can influence the entire body's well-being.

To determine if SIRT3's location within muscle cells changes, healthy young men were split into two groups with one being subjected to endurance exercise for an hour and the other fasting for 48 hours. The researchers then took skeletal muscle biopsies at various time points post exercise and fasting and isolated the mitochondria. They found that, although the level of SIRT3 mRNA in cells decreases, its location does not change, suggesting that its activity is not regulated by changes in its abundance within mitochondria in human skeletal muscle.

Dr Brendon Gurd, Associate Professor of Muscle Physiology at Queen's University, Ontario Canada and lead investigator of the study explained, 'Skeletal muscle cells respond to stimuli by activating many mitochondrial proteins in an attempt to meet the energy demands of the cell. Proteins can be regulated by controlling their access to certain areas of the cell, so we hypothesized that SIRT3 might travel to the mitochondria in response to exercise and fasting'.

He added, 'The family of sirtuins that SIRT3 belongs to are proposed to regulate longevity and metabolic health; however, most of the data to support this comes from research in cells and animals. Whether these proteins play a role in aging and health in humans needs to be confirmed, and more research is necessary to understand how sirtuins themselves are regulated in humans. Our study is one of the first to investigate how SIRT3 is regulated in humans, and understanding the mechanisms that might control SIRT3 activity is not only important at the basic science level, but may be crucial for future studies that try and target the activity of this protein in an attempt to combat various metabolic diseases in humans'.

In future, it will be interesting to note which proteins SIRT3 targets specifically in humans, and the mechanisms used to regulate this activity.
Notes for Editors:

1. Full paper title: Edgett AB et al (2016) SIRT3 gene expression but not subcellular localization is altered in response to fasting and exercise in human skeletal muscle doi: 10.1113/EP085744 http://onlinelibrary.wiley.com/doi/10.1113/EP085744/full

2. Experimental Physiology publishes high quality, original, physiological research papers that give novel insights into fundamental homeostatic and adaptive responses in health, and papers that further our knowledge of pathophysiological mechanisms in diseases. http://ep.physoc.org

3. The Physiological Society brings together over 3,500 scientists from over 60 countries. The Society promotes physiology with the public and parliament alike. It supports physiologists by organising world-class conferences and offering grants for research and also publishes the latest developments in the field in its three leading scientific journals, The Journal of Physiology, Experimental Physiology and Physiological Reports. http://www.physoc.org


Alexandria Lipka, The Physiological Society, Hodgkin Huxley House
30 Farringdon Lane, London EC1R 3AW, UK
+44 (0)207 7993 0468, alipka@physoc.org

The Physiological Society

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