Abstract

BackgroundThe prevalence of overweight is increasing in dogs, but the metabolic events related to this condition are still poorly understood. The purpose of the study was to investigate the postprandial response of plasma metabolites using a meal-challenge test and to identify metabolic variations related to spontaneous overweightness in privately owned dogs.ResultsTwenty-eight healthy male intact Labrador Retriever dogs were included, 12 of which were classified as lean (body condition score (BCS) 4–5 on a 9-point scale) and 16 as overweight (BCS 6–8). After an overnight fast (14–17 h), blood samples were collected and dogs were thereafter fed a high-fat meal. Postprandial blood samples were collected hourly four times. Plasma metabolites were identified by nuclear magnetic resonance. Postprandial metabolomes differed from the fasting metabolome in multivariate discriminant analysis (PLS-DA: Q2Y = 0.31–0.63, cross-validated ANOVA: P ≤ 0.00014) Eleven metabolites, all amino acids, contributed to the separations. Carnitine was identified as a metabolite related to overweight (stepwise logistic regression analysis P ≤ 0.03) and overweight dogs had overall lower carnitine response (mixed model repeated measures analysis P = 0.005) than lean dogs. Notably, mean fasting carnitine concentration in overweight dogs (9.4 ± 4.2 µM) was close to a proposed reference limit for carnitine insufficiency.ConclusionsA postprandial amino acid response was detected but no time-dependent variations with regards to body condition groups were found. Lower carnitine concentrations were found in overweight compared to lean dogs. The latter finding could indicate a carnitine insufficiency related to spontaneous adiposity and altered lipid metabolism in overweight dogs in this cohort of otherwise healthy Labrador Retrievers.

Highlights

  • The prevalence of overweight is increasing in dogs, but the metabolic events related to this condition are still poorly understood

  • VIP Variable importance of projection, confidence intervals (CI) confidence interval, NS not significant (R2Y = Percent of variation in data set explained by model, a measure of fitness) (Q2Y = Percent of variation in data set predicted by model) a One component fitted: ­R2Y = 0.39, ­Q2Y = 0.31; cross-validated ANOVA: P = 0.00014 b One component fitted: ­R2Y = 0.55, ­Q2Y = 0.49; cross-validated ANOVA: P = 0.00000004 c One component fitted: ­R2Y = 0.64, ­Q2Y = 0.58; cross-validated ANOVA: P = 0.0000000005 d Two components fitted: ­R2Y = 0.71, ­Q2Y = 0.63; ­R2Y = 0.11, ­Q2Y = 0.09; cross-validated ANOVA: P = 0.0000000002 postprandial decrease in 3-hydroxybutyrate and increase in acetoacetate (Additional file 5)

  • Using an Nuclear magnetic resonance (NMR) analytical platform and the automated quantification algorithm (AQuA) quantification technique, a postprandial amino acid response was detected in the canine metabolome and free carnitine was found to be lower in overweight compared to lean dogs

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Summary

Introduction

The prevalence of overweight is increasing in dogs, but the metabolic events related to this condition are still poorly understood. The purpose of the study was to investigate the postprandial response of plasma metabolites using a meal-challenge test and to identify metabolic variations related to spontaneous overweightness in privately owned dogs. Despite the increasing prevalence of obesity among dogs, the molecular mechanisms associated with this condition are still not fully understood. The NMR technique has the potential to identify metabolic variations between lean and overweight dogs, but has not been widely used to study plasma metabolites in spontaneously overweight dogs

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