PLoS ONE (Jan 2018)

Long-term metabolic effects of malnutrition: Liver steatosis and insulin resistance following early-life protein restriction.

  • Prasad S Dalvi,
  • Steven Yang,
  • Nathan Swain,
  • Junsoo Kim,
  • Senjuti Saha,
  • Celine Bourdon,
  • Ling Zhang,
  • Rose Chami,
  • Robert H J Bandsma

DOI
https://doi.org/10.1371/journal.pone.0199916
Journal volume & issue
Vol. 13, no. 7
p. e0199916

Abstract

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Early postnatal-life malnutrition remains prevalent globally, and about 45% of all child deaths are linked to malnutrition. It is not clear whether survivors of childhood malnutrition suffer from long-term metabolic effects, especially when they are later in life exposed to a fat and carbohydrate rich obesogenic diet. The lack of knowledge around this dietary "double burden" warrants studies to understand the long-term consequences of children previously exposed to malnutrition. We hypothesized that an early-life nutritional insult of low protein consumption in mice would lead to long-term metabolic disturbances that would exacerbate the development of diet-induced insulin resistance and non-alcoholic fatty liver disease (NAFLD). We investigated the effects of feeding a low protein diet (4% wt/wt) immediately after weaning for four weeks and subsequent feeding of a high carbohydrate high fat feeding for 16 weeks on metabolic function and development of NAFLD. Mice exposed to early-life protein restriction demonstrated a transient glucose intolerance upon recovery by regular chow diet feeding. However, protein restriction after weaning in mice did not exacerbate an obesogenic diet-induced insulin resistance or progression to NAFLD. These data suggest that transient protein restriction in early-life does not exacerbate an obesogenic diet-induced NAFLD and insulin resistance.