Metabolic adaptations during negative energy balance and their potential impact on appetite and food intake

This review examines the metabolic adaptations that occur in response to negative energy balance and their potential putative or functional impact on appetite and food intake. Sustained negative energy balance will result in weight loss, with body composition changes similar for different dietary in...

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Bibliographic Details
Published in:Proceedings of the Nutrition Society 2019-08, Vol.78 (3), p.279-289
Main Authors: Casanova, Nuno, Beaulieu, Kristine, Finlayson, Graham, Hopkins, Mark
Format: Article
Language:English
Subjects:
Adaptation
Appetite
Appetite - physiology
Body composition
Body Composition - physiology
Body fat
Body Weight - physiology
Body weight loss
Conference on ‘Getting energy balance right’
Diet
Energy
Energy balance
Energy expenditure
Energy intake
Energy Intake - physiology
Energy Metabolism - physiology
Exercise
Fat-free body mass
Food
Food intake
Homeostasis
Humans
Hunger
Influence
Metabolism
Nutrition research
Nutrition Society Summer Meeting 2018
Obesity
Obesity - metabolism
Obesity - physiopathology
Peptides
Physical fitness
Physiology
Proteins
Regulation
Signal transduction
Symposium 1: Regulation of energy balance and whole body metabolism
Systematic review
Thermogenesis
Tissues
Weight control
Weight loss
Weight Loss - physiology
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Summary:This review examines the metabolic adaptations that occur in response to negative energy balance and their potential putative or functional impact on appetite and food intake. Sustained negative energy balance will result in weight loss, with body composition changes similar for different dietary interventions if total energy and protein intake are equated. During periods of underfeeding, compensatory metabolic and behavioural responses occur that attenuate the prescribed energy deficit. While losses of metabolically active tissue during energy deficit result in reduced energy expenditure, an additional down-regulation in expenditure has been noted that cannot be explained by changes in body tissue (e.g. adaptive thermogenesis). Sustained negative energy balance is also associated with an increase in orexigenic drive and changes in appetite-related peptides during weight loss that may act as cues for increased hunger and food intake. It has also been suggested that losses of fat-free mass (FFM) could also act as an orexigenic signal during weight loss, but more data are needed to support these findings and the signalling pathways linking FFM and energy intake remain unclear. Taken together, these metabolic and behavioural responses to weight loss point to a highly complex and dynamic energy balance system in which perturbations to individual components can cause co-ordinated and inter-related compensatory responses elsewhere. The strength of these compensatory responses is individually subtle, and early identification of this variability may help identify individuals that respond well or poorly to an intervention.
ISSN:0029-6651
1475-2719
DOI:10.1017/S0029665118002811