Mucosal or systemic microbiota exposures shape the B cell repertoire.
Hai LiJulien P LimenitakisVictor GreiffBahtiyar YilmazOlivier P SchärenCamilla UrbaniakMirjam ZündMelissa A E LawsonIan D YoungSandra RuppMathias HeikenwälderKathy D McCoySiegfried HapfelmeierStephanie Christine Ganal-VonarburgAndrew J MacphersonPublished in: Nature (2020)
Colonization by the microbiota causes a marked stimulation of B cells and induction of immunoglobulin, but mammals colonized with many taxa have highly complex and individualized immunoglobulin repertoires1,2. Here we use a simplified model of defined transient exposures to different microbial taxa in germ-free mice3 to deconstruct how the microbiota shapes the B cell pool and its functional responsiveness. We followed the development of the immunoglobulin repertoire in B cell populations, as well as single cells by deep sequencing. Microbial exposures at the intestinal mucosa generated oligoclonal responses that differed from those of germ-free mice, and from the diverse repertoire that was generated after intravenous systemic exposure to microbiota. The IgA repertoire-predominantly to cell-surface antigens-did not expand after dose escalation, whereas increased systemic exposure broadened the IgG repertoire to both microbial cytoplasmic and cell-surface antigens. These microbial exposures induced characteristic immunoglobulin heavy-chain repertoires in B cells, mainly at memory and plasma cell stages. Whereas sequential systemic exposure to different microbial taxa diversified the IgG repertoire and facilitated alternative specific responses, sequential mucosal exposure produced limited overlapping repertoires and the attrition of initial IgA binding specificities. This shows a contrast between a flexible response to systemic exposure with the need to avoid fatal sepsis, and a restricted response to mucosal exposure that reflects the generic nature of host-microbial mutualism in the mucosa.
Keyphrases
- microbial community
- cell surface
- high throughput sequencing
- air pollution
- induced apoptosis
- single cell
- drug induced
- randomized controlled trial
- type diabetes
- clinical trial
- high dose
- magnetic resonance
- acute kidney injury
- ulcerative colitis
- magnetic resonance imaging
- stem cells
- high fat diet induced
- open label
- brain injury
- computed tomography
- oxidative stress
- adipose tissue
- cell therapy
- mesenchymal stem cells
- insulin resistance
- low dose
- diabetic rats
- working memory
- african american
- cell cycle arrest
- wild type