Abstract
Interactions between the early-life colonising intestinal microbiota and the developing immune system are critical in determining the nature of immune responses in later life. Studies in neonatal animals in which this interaction can be examined are central to understanding the mechanisms by which the microbiota impacts on immune development and to developing therapies based on manipulation of the microbiome. The inbred piglet model represents a system that is comparable to human neonates and allows for control of the impact of maternal factors. Here we show that colonisation with a defined microbiota produces expansion of mucosal plasma cells and of T-lymphocytes without altering the repertoire of alpha beta T-cells in the intestine. Importantly, this is preceded by microbially-induced expansion of a signal regulatory protein α-positive (SIRPα+) antigen-presenting cell subset, whilst SIRPα−CD11R1+ antigen-presenting cells (APCs) are unaffected by colonisation. The central role of intestinal APCs in the induction and maintenance of mucosal immunity implicates SIRPα+ antigen-presenting cells as orchestrators of early-life mucosal immune development.
Highlights
The importance of microbial colonisation of the gut in immune development is well established
Whilst other studies in pigs have demonstrated an increase in mucosal plasma cells and lymphocytes on colonisation [31,32,39], we wanted to study the effects of colonisation with our microbiota on these cells in more detail
This showed a clear increase in both IgM and immunoglobulin A (IgA)-producing plasma cells associated with colonisation (Figure 1A and B)
Summary
The importance of microbial colonisation of the gut in immune development is well established. More recent studies have shown that this development is qualitative as well as quantitative: colonisation produces a wider Bcell repertoire in pigs and results in differentiation of CD4 T helper (Th) cell subsets in mice [5,6,7]. It appears that simple ‘colonisation’ is not enough to generate a fully effective immune system capable of recognising and eliminating pathogen whilst not responding to self, food and commensal bacterial antigen. This data confirms that the type of colonisation may be as important as the colonisation event itself
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
