Postnatal protein intake as a determinant of skeletal muscle structure and function in mice – a pilot study

Kanakis, Ioannis; Giakoumaki, Ifigeneia; Pollock, Natalie; Aljuaid, Turki; Sanicandro, Anthony J.; Alameddine, Moussira; Owen, Euan; Myrtziou, Ioanna; Ozanne, Susan E.; Goljanek‐Whysall, Katarzyna; Vasilaki, Aphrodite

doi:10.1101/2022.07.13.499936

Cited by 1 publication

(1 citation statement)

References 72 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In contrast to that of adiposity and glucose homeostasis, other traits were stably affected by post-nursing early life macronutrient nutrient balance. Similar to previous work showing that the mothers' intake of protein during the nursing period was important for muscle growth (Giakoumaki et al, 2022), we found that post-nursing period early life low protein affected lean mass which persisted into later life even after standard diet switching. This was also reflected in skeletal muscle weight, with low protein in early life stably affecting lower skeletal muscle weight in later life.…”

Section: Discussionsupporting

confidence: 89%

Post‐nursing early life macronutrient balance promotes persistent and malleable biometric and metabolic traits in mice

Yap,

Rusu,

Foollee

et al. 2023

The Journal of Physiology

View full text Add to dashboard Cite

It is known that dietary factors within the gestational and nursing period affect early life and stably affect later life traits in animals. However, there is very little understanding of whether dietary factors within the early life period from post‐nursing to adulthood affect traits in adulthood. To address this, we conducted studies on male C57Bl/6J mice fed from 3 weeks (immediately post‐nursing) until 12 weeks (full maturity) using nine different diets varying in all three major macronutrients to parse out the effects of individual macronutrients. Early life macronutrient balance affected body composition and glucose homeostasis in early adulthood, with dietary protein and fat showing major effects. Despite this, mice showed rapid reversal of the effects on body composition and glucose homeostasis of early life diet feeding, upon standard diet feeding in adulthood. However, some traits were persistent, with early life low dietary protein levels stably affecting lean and muscle mass, and early life dietary fat levels stably affecting serum and liver triglyceride levels. In summary, macronutrient balance in the post‐nursing early life period does not stably affect adiposity or glucose homeostasis but does impact muscle mass and lipid homeostasis in adulthood, with prominent effects of both protein and fat levels. imageKey points Early life dietary low protein and high fat levels lowered and heightened body mass, respectively. These effects did not substantially persist into adulthood with rapid catch‐up growth on a normal diet. Early life protein (negative) and fat (positive) levels affected fat mass. Early life low protein levels negatively affected lean mass. Low protein effects on lower lean and muscle mass persisted into adulthood. Early life macronutrient balance effects did not affect later life glucose homeostasis but early life high fat level affected later life dyslipidaemia. Effects of dietary carbohydrate levels in early and later life were minor.

show abstract

Section: Discussionsupporting

confidence: 89%