The Composition of the Microbiota in the Full-Term Fetal Gut and Amniotic Fluid: A Bovine Cesarean Section Study.

Aleksi Husso,Antti Iivanainen,Tiina Pessa-Morikawa,Jan Govaere,Mikael Niku,Thomas Grönthal,Ann Van Soom,Leen Lietaer,Geert Opsomer

doi:10.3389/fmicb.2021.626421

Aleksi Husso, Antti Iivanainen + Show 7 more

Open Access

https://doi.org/10.3389/fmicb.2021.626421

Copy DOI

Abstract

The development of a healthy intestinal immune system requires early microbial exposure. However, it remains unclear whether microbial exposure already begins at the prenatal stage. Analysis of such low microbial biomass environments are challenging due to contamination issues. The aims of the current study were to assess the bacterial load and characterize the bacterial composition of the amniotic fluid and meconium of full-term calves, leading to a better knowledge of prenatal bacterial seeding of the fetal intestine. Amniotic fluid and rectal meconium samples were collected during and immediately after elective cesarean section, performed in 25 Belgian Blue cow-calf couples. The samples were analyzed by qPCR, bacterial culture using GAM agar and 16S rRNA gene amplicon sequencing. To minimize the effects of contaminants, we included multiple technical controls and stringently filtered the 16S rRNA gene sequencing data to exclude putative contaminant sequences. The meconium samples contained a significantly higher amount of bacterial DNA than the negative controls and 5 of 24 samples contained culturable bacteria. In the amniotic fluid, the amount of bacterial DNA was not significantly different from the negative controls and all samples were culture negative. Bacterial sequences were identified in both sample types and were primarily of phyla Proteobacteria, Firmicutes, Bacteroidetes, and Actinobacteria, with some individual variation. We conclude that most calves encounter in utero maternal-fetal transmission of bacterial DNA, but the amount of bacterial DNA is low and viable bacteria are rare.

Highlights

Characterizing the very first intestinal bacteria is essential for a better understanding of the codevelopment of the newborn and its intestinal microbiome
The 16S rRNA gene copy numbers in amniotic fluid and meconium samples were assessed by qPCR (Figure 1)
We first examined the presence of microbial DNA in meconium and amniotic fluid by 16S rRNA gene qPCR and amplicon sequencing

Summary

Introduction

Characterizing the very first intestinal bacteria is essential for a better understanding of the codevelopment of the newborn and its intestinal microbiome. Host-microbiome interactions enable early life education and maturation of the immune system during a window of opportunity. Full-Term Bovine Microbiota the timing of the microbial colonization of the mammalian gut is still unclear (Perez-Munoz et al, 2017; Korpela and de Vos, 2018; Liu et al, 2019; Guzman et al, 2020; Blaser et al, 2021; Silverstein and Mysorekar, 2021). Vertical as well as environmental transmission of bacteria occur during and after birth and seed the neonatal gastrointestinal (GI) tract (Funkhouser and Bordenstein, 2013; Gomez de Agüero et al, 2016; Korpela and de Vos, 2018). Transmission of an orally inoculated Enterococcus faecium strain in pregnant mice to the meconium of their fetuses has been described (Jimenez et al, 2008)

Objectives

Results

Conclusion