Monitoring perinatal gut microbiota in mouse models by mass spectrometry approaches: Parental genetic background and breastfeeding effects

Stefano Levi Mortera, Federica Del Chierico, Pamela Vernocchi, M. Manuela Rosado, Agnese Cavola, Marco Chierici, Luisa Pieroni, Andrea Urbani, Rita Carsetti, Isabella Lante, Bruno Dallapiccola, Lorenza Putignani

Research output: Contribution to journalArticle

Abstract

At birth, contact with external stimuli, such as nutrients derived from food, is necessary to modulate the symbiotic balance between commensal and pathogenic bacteria, protect against bacterial dysbiosis, and initiate the development of the mucosal immune response. Among a variety of different feeding patterns, breastfeeding represents the best modality. In fact, the capacity of breast milk to modulate the composition of infants' gut microbiota leads to beneficial effects on their health. In this study, we used newborn mice as a model to evaluate the effect of parental genetic background (i.e., IgAproducing mice and IgA-deficient mice) and feeding modulation (i.e., maternal feeding and cross-feeding) on the onset and shaping of gut microbiota after birth. To investigate these topics, we used either a culturomic approach that employed Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry (MS), or bottom-up Liquid Chromatography, with subsequent MSMS shotgun metaproteomic analysis that compared and assembled results of the two techniques. We found that the microbial community was enriched by lactic acid bacteria when pups were breastfed by wild-type (WT) mothers, while IgA-deficient milk led to an increase in the opportunistic bacterial pathogen (OBP) population. Cross-feeding results suggested that IgA supplementation promoted the exclusion of some OBPs and the temporary appearance of beneficial species in pups fed by WT foster mothers. Our results show that both techniques yield a picture of microbiota from different angles and with varying depths. In particular, our metaproteomic pipeline was found to be a reliable tool in the description of microbiota. Data from these studies are available via ProteomeXchange, with identifier PXD004033.

Original languageEnglish
Article number1523
JournalFrontiers in Microbiology
Volume7
DOIs
Publication statusPublished - Sep 26 2016

Keywords

  • Axenic culture-based MALDI-TOF MS
  • Host genetics and maternal milk induced metaproteome
  • MGM metaproteomics
  • MGM programming phylotypes
  • Mouse gut microbiota (MGM)

ASJC Scopus subject areas

  • Microbiology
  • Microbiology (medical)

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