Roldan M. de Guia scite author profile

Aging decreases skeletal muscle mass and strength, but aerobic and resistance exercise training maintains skeletal muscle function. NAD + is a coenzyme for ATP production and a required substrate for enzymes regulating cellular homeostasis. In skeletal muscle, NAD + is mainly generated by the NAD + salvage pathway in which nicotinamide phosphoribosyltransferase ( NAMPT ) is rate‐limiting. NAMPT decreases with age in human skeletal muscle, and aerobic exercise training increases NAMPT levels in young men. However, whether distinct modes of exercise training increase NAMPT levels in both young and old people is unknown. We assessed the effects of 12 weeks of aerobic and resistance exercise training on skeletal muscle abundance of NAMPT , nicotinamide riboside kinase 2 ( NRK 2), and nicotinamide mononucleotide adenylyltransferase ( NMNAT ) 1 and 3 in young (≤35 years) and older (≥55 years) individuals. NAMPT in skeletal muscle correlated negatively with age ( r 2 = 0.297, P < 0.001, n = 57), and VO 2 peak was the best predictor of NAMPT levels. Moreover, aerobic exercise training increased NAMPT abundance 12% and 28% in young and older individuals, respectively, whereas resistance exercise training increased NAMPT abundance 25% and 30% in young and in older individuals, respectively. None of the other proteins changed with exercise training. In a separate cohort of young and old people, levels of NAMPT , NRK 1, and NMNAT 1/2 in abdominal subcutaneous adipose tissue were not affected by either age or 6 weeks of high‐intensity interval training. Collectively, exercise training reverses the age‐dependent decline in skeletal muscle NAMPT abundance, and our findings highlight the value of exercise training in ameliorating age‐associated deterioration of skeletal muscle function.

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Glucocorticoid hormones and energy homeostasis

Guia

Rose

Herzig³

2014

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Glucocorticoids (GC) and their cognate intracellular receptor, the glucocorticoid receptor (GR), have been characterised as critical checkpoints in the endocrine control of energy homeostasis in mammals. Indeed, aberrant GC action has been linked to a variety of severe metabolic diseases, including obesity, insulin resistance and type 2 diabetes. As a steroid-binding member of the nuclear receptor superfamily of transcription factors, the GR translocates into the cell nucleus upon GC binding where it serves as a transcriptional regulator of distinct GC-responsive target genes that are - in many cases - associated with glucose and lipid regulatory pathways and thereby intricately control both physiological and pathophysiological systemic energy homeostasis. Here, we summarize the current knowledge of GC/GR function in energy metabolism and systemic metabolic dysfunction, particularly focusing on glucose and lipid metabolism.

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Fasting‐ and ghrelin‐induced food intake is regulated by NAMPT in the hypothalamus

et al. 2020

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Aim Neurons in the arcuate nucleus of the hypothalamus are involved in regulation of food intake and energy expenditure, and dysregulation of signalling in these neurons promotes development of obesity. The role of the rate‐limiting enzyme in the NAD+ salvage pathway, nicotinamide phosphoribosyltransferase (NAMPT), for regulation energy homeostasis by the hypothalamus has not been extensively studied. Methods We determined whether Nampt mRNA or protein levels in the hypothalamus of mice were affected by diet‐induced obesity, by fasting and re‐feeding, and by leptin and ghrelin treatment. Primary hypothalamic neurons were treated with FK866, a selective inhibitor of NAMPT, or rAAV carrying shRNA directed against Nampt, and levels of reactive oxygen species (ROS) and mitochondrial respiration were assessed. Fasting and ghrelin‐induced food intake was measured in mice in metabolic cages after intracerebroventricular (ICV)‐mediated FK866 administration. Results NAMPT levels in the hypothalamus were elevated by administration of ghrelin and leptin. In diet‐induced obese mice, both protein and mRNA levels of NAMPT decreased in the hypothalamus. NAMPT inhibition in primary hypothalamic neurons significantly reduced levels of NAD+, increased levels of ROS, and affected the expression of Agrp, Pomc and genes related to mitochondrial function. Finally, ICV‐induced NAMPT inhibition by FK866 did not cause malaise or anhedonia, but completely ablated fasting‐ and ghrelin‐induced increases in food intake. Conclusion Our findings indicate that regulation of NAMPT levels in hypothalamic neurons is important for the control of fasting‐ and ghrelin‐induced food intake.

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Roldan M. de Guia

Aerobic and resistance exercise training reverses age‐dependent decline in NAD⁺salvage capacity in human skeletal muscle

Glucocorticoid hormones and energy homeostasis

Fasting‐ and ghrelin‐induced food intake is regulated by NAMPT in the hypothalamus

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Roldan M. de Guia

Aerobic and resistance exercise training reverses age‐dependent decline in NAD+salvage capacity in human skeletal muscle

Glucocorticoid hormones and energy homeostasis

Fasting‐ and ghrelin‐induced food intake is regulated by NAMPT in the hypothalamus

Contact Info

Product

Resources

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Aerobic and resistance exercise training reverses age‐dependent decline in NAD⁺salvage capacity in human skeletal muscle