Serum Metabolomic Characterization in Pigs in Relation to Birth Weight Category and Neonatal Nutrition.
Michael O WellingtonLucas A RodriguesMelissa A QuinnJosiane C PanissonDavid P FergusonDaniel A ColumbusPublished in: Journal of animal science (2022)
The objective of this study was to characterize developmental differences in low birth weight (LBW) and normal birth weight (NBW) piglets with or without pre-weaning nutrient restriction using serum metabolomic profile analysis. At farrowing, 112 piglets were identified as LBW (1.22 ± 0.28 kg) or NBW (1.70 ± 0.27 kg) and were randomly assigned to receive normal nutrition (NN) or restricted nutrition (RN) (6 h/day no suckling) from d 2 to 28 post-farrow (n=8pigs/group). On d 28, piglets were weaned onto a common diet. Fasted blood samples were obtained on d 28 and 56 (n=8pigs/group) and were analyzed using quantitative metabolomics via a combination of direct injection mass spectrometry with a reverse-phase LC-MS/MS custom assay. Data were normalized using logarithmic transformation and auto-scaling. Partial least squares discriminant analysis (PLS-DA) was carried out to further explore the differential metabolites among the groups (metaboanalyst.ca) with an integrated enrichment and pathway topography analysis. On d 28, LBW piglets had lower levels of essential amino acids as well as reduced metabolites associated with fatty acid oxidation, glycolysis, and the TCA cycle compared to the NBW group. The overall reduction of metabolites associated with energy production and regulation suggests that LBW vs. NBW are in an energy-survival state. On d 56, LBW pigs had increased utilization of fatty acids and resultant ketone production, evident by increased carnitines, acetoacetate, β-hydroxybutyrate, and glycerol compared to NBW pigs. Additionally, compared to the NBW pigs LBW pigs had a consistent decrease in serum glucose and lactate as well as reduced TCA cycle metabolites: pyruvate, succinate, citrate, and α-ketoglutaric acid similar to d 28. Low reliance on glycolysis and the TCA cycle and higher glycerol production in the LBW pigs may indicate impairments in glucose tolerance at 56 d. In summary, LBW piglets appear to have more metabolic alterations in early life, which is not resolved with adequate nutrition or refeeding and may elucidate physiological and metabolic mechanisms of poor growth and life performance compared to NBW pigs later in life.
Keyphrases
- birth weight
- fatty acid
- physical activity
- mass spectrometry
- ms ms
- low birth weight
- weight gain
- gestational age
- early life
- high resolution
- intensive care unit
- preterm infants
- type diabetes
- insulin resistance
- nitric oxide
- preterm birth
- metabolic syndrome
- liquid chromatography
- electronic health record
- adipose tissue
- protein kinase
- amino acid
- high throughput
- acute respiratory distress syndrome
- capillary electrophoresis