Lysine or Threonine Deficiency Decreases Body Weight Gain in Growing Rats despite an Increase in Food Intake without Increasing Energy Expenditure in Response to FGF21.
Joanna MoroGaëtan Roisné-HamelinCatherine ChaumontetPatrick C EvenAnne BlaisCeline CansellJulien PiedcoqClaire GaudichonDaniel ToméDalila Azzout-MarnichePublished in: Nutrients (2022)
The objective of this study is to evaluate the effects of a strictly essential amino acid (lysine or threonine; EAA) deficiency on energy metabolism in growing rats. Rats were fed for three weeks severely (15% and 25% of recommendation), moderately (40% and 60%), and adequate (75% and 100%) lysine or threonine-deficient diets. Food intake and body weight were measured daily and indirect calorimetry was performed the week three. At the end of the experimentation, body composition, gene expression, and biochemical analysis were performed. Lysine and threonine deficiency induced a lower body weight gain and an increase in relative food intake. Lysine or threonine deficiency induced liver FGF21 synthesis and plasma release. However, no changes in energy expenditure were observed for lysine deficiency, unlike threonine deficiency, which leads to a decrease in total and resting energy expenditure. Interestingly, threonine severe deficiency, but not lysine deficiency, increase orexigenic and decreases anorexigenic hypothalamic neuropeptides expression, which could explain the higher food intake. Our results show that the deficiency in one EAA, induces a decrease in body weight gain, despite an increased relative food intake, without any increase in energy expenditure despite an induction of FGF21.
Keyphrases
- weight gain
- body composition
- amino acid
- body mass index
- protein kinase
- gene expression
- replacement therapy
- birth weight
- weight loss
- body weight
- dna methylation
- poor prognosis
- physical activity
- randomized controlled trial
- clinical trial
- high glucose
- bone mineral density
- resistance training
- diabetic rats
- early onset
- heart rate variability
- heart rate
- smoking cessation
- high intensity
- stress induced