Journal of Cachexia, Sarcopenia and Muscle (Dec 2021)

Gut barrier and microbiota changes with glycine and branched‐chain amino acid supplementation in chronic haemodialysis patients

  • Laurence Genton,
  • Menno Pruijm,
  • Daniel Teta,
  • Isabelle Bassi,
  • Patrice D. Cani,
  • Nadia Gaïa,
  • François R. Herrmann,
  • Nicola Marangon,
  • Julie Mareschal,
  • Giulio G. Muccioli,
  • Catherine Stoermann,
  • Francesco Suriano,
  • Arlene Wurzner‐Ghajarzadeh,
  • Vladimir Lazarevic,
  • Jacques Schrenzel

DOI
https://doi.org/10.1002/jcsm.12781
Journal volume & issue
Vol. 12, no. 6
pp. 1527 – 1539

Abstract

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Abstract Background We have previously shown that glycine increases fat‐free mass in chronic haemodialysis patients with features of malnutrition as compared with branched‐chain amino acids (BCAAs). This multicentre randomized double‐blind crossover study evaluates the impact of these amino acids on the gut barrier and microbiota. Methods Haemodialysis patients were included if they had plasma albumin 5% of dry body weight, and daily dietary intakes <30 kcal/kg and <1 g protein/kg. They consumed glycine or BCAA (7 g twice daily) for 4 months and underwent a 1 month washout period, before crossover of supplementations. Faecal microbiota (16S rRNA gene sequencing) and immunoglobulin A (IgA), serum levels of cytokines, surrogate markers of intestinal permeability, appetite mediators, and endocannabinoids were obtained at the start and end of each supplementation. Supplementations were compared by multiple mixed linear regression models, adjusted for age, sex, month of supplementation (0 and 4 in each period), and period (Period 1: first 4 months; Period 2: last 4 months). Microbiota comparisons were performed using principal coordinate analysis and permutational multivariate analysis of variance, Shannon diversity index estimate and analysis of composition of microbiomes analysis, and Wilcoxon tests. Results We analysed 27 patients compliant to the supplementations. Multiple mixed linear regression models were significant only for interleukin‐6 (P = 0.002), glucagon‐like peptide 1 (P = 0.028), cholecystokinin (P = 0.021), and peptide YY (P = 0.002), but not for the other outcomes. The significant models did not show any impact of the type of supplementation (P < 0.05 in all models). Principal coordinate analysis and permutational multivariate analysis of variance (P = 0.0001) showed strong microbiota clustering by subject, but no effect of the amino acids. Bacterial alpha diversity and zero‐radius operational taxonomic unit richness remained stable, whatever the supplementation. Lacticaseibacillus paracasei (0.030; Q1–Q3 0.008–0.078 vs. 0.004; Q1–Q3 0.001–0.070) and Bifidobacterium dentium (0.0247; Q1–Q3 0.002–0.191 vs. 0.003; Q1–Q3 0.001–0.086) significantly decreased with the BCAA supplementation. Conclusions The BCAA and glycine supplementations had no impact on the serum levels of cytokines, appetite mediators, intestinal permeability, endocannabinoids, or faecal IgA. Overall faecal microbiota composition and microbial diversity did not change with the glycine or BCAA supplementation but decreased the abundance of L. paracasei and B. dentium.

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