Duodenal and faecal microbiota of celiac children: molecular, phenotype and metabolome characterization

Epidemiology of celiac disease (CD) is increasing. CD mainly presents in early childhood with small intestinal villous atrophy and signs of malabsorption. Compared to healthy individuals, CD patients seemed to be characterized by higher numbers of Gram-negative bacteria and lower numbers Gram-positi...

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Published in:BMC microbiology 2011-10, Vol.11 (1), p.219-219, Article 219
Main Authors: Di Cagno, Raffaella, De Angelis, Maria, De Pasquale, Ilaria, Ndagijimana, Maurice, Vernocchi, Pamela, Ricciuti, Patrizia, Gagliardi, Francesca, Laghi, Luca, Crecchio, Carmine, Guerzoni, Maria Elisabetta, Gobbetti, Marco, Francavilla, Ruggiero
Format: Article
Language:English
Subjects:
Analysis
Bacteria
Bacteria - classification
Bacteria - genetics
Bacteria - isolation & purification
Bacteria - metabolism
Case-Control Studies
Celiac disease
Celiac Disease - metabolism
Celiac Disease - microbiology
Child
Child, Preschool
Diet
Duodenum - microbiology
Feces - chemistry
Feces - microbiology
Female
Gluten-free diet
Health aspects
Humans
Male
Metabolites
Metabolome
Metagenome
Microbiology
Microbiota (Symbiotic organisms)
Phenotype
Phylogeny
Urine - chemistry
Volatile Organic Compounds - analysis
Volatile Organic Compounds - metabolism
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Summary:Epidemiology of celiac disease (CD) is increasing. CD mainly presents in early childhood with small intestinal villous atrophy and signs of malabsorption. Compared to healthy individuals, CD patients seemed to be characterized by higher numbers of Gram-negative bacteria and lower numbers Gram-positive bacteria. This study aimed at investigating the microbiota and metabolome of 19 celiac disease children under gluten-free diet (treated celiac disease, T-CD) and 15 non-celiac children (HC). PCR-denaturing gradient gel electrophoresis (DGGE) analyses by universal and group-specific primers were carried out in duodenal biopsies and faecal samples. Based on the number of PCR-DGGE bands, the diversity of Eubacteria was the higher in duodenal biopsies of T-CD than HC children. Bifidobacteria were only found in faecal samples. With a few exceptions, PCR-DGGE profiles of faecal samples for Lactobacillus and Bifidobacteria differed between T-CD and HC. As shown by culture-dependent methods, the levels of Lactobacillus, Enterococcus and Bifidobacteria were confirmed to be significantly higher (P = 0.028; P = 0.019; and P = 0.023, respectively) in fecal samples of HC than in T-CD children. On the contrary, cell counts (CFU/ml) of presumptive Bacteroides, Staphylococcus, Salmonella, Shighella and Klebsiella were significantly higher (P = 0.014) in T-CD compared to HC children. Enterococcus faecium and Lactobacillus plantarum were the species most diffusely identified. This latter species was also found in all duodenal biopsies of T-CD and HC children. Other bacterial species were identified only in T-CD or HC faecal samples. As shown by Randomly Amplified Polymorphic DNA-PCR analysis, the percentage of strains identified as lactobacilli significantly (P = 0.011) differed between T-CD (ca. 26.5%) and HC (ca. 34.6%) groups. The metabolome of T-CD and HC children was studied using faecal and urine samples which were analyzed by gas-chromatography mass spectrometry-solid-phase microextraction and 1H-Nuclear Magnetic Resonance. As shown by Canonical Discriminant Analysis of Principal Coordinates, the levels of volatile organic compounds and free amino acids in faecal and/or urine samples were markedly affected by CD. As shown by the parallel microbiology and metabolome approach, the gluten-free diet lasting at least two years did not completely restore the microbiota and, consequently, the metabolome of CD children. Some molecules (e.g., ethyl-acetate and octyl-acetate, som
ISSN:1471-2180
1471-2180
DOI:10.1186/1471-2180-11-219