BackgroundProbiotic bacteria have been shown to modulate immune responses and could have therapeutic effects in allergic and inflammatory disorders. However, the signaling pathways engaged by probiotics are poorly understood. We have previously reported that a fermentation product from Bifidobacterium breve C50 (BbC50sn) could induce maturation, high IL-10 production and prolonged survival of DCs via a TLR2 pathway. We therefore studied the roles of mitogen-activated protein kinases (MAPK), glycogen synthase kinase-3 (GSK3) and phosphatidylinositol 3-kinase (PI3K) pathways on biological functions of human monocyte-derived DCs treated with BbC50sn.Methodology/Principal FindingsDCs were differentiated from human monocytes with IL-4 and GM-CSF for 5 days and cultured with BbC50sn, lipopolysaccharide (LPS) or Zymosan, with or without specific inhibitors of p38MAPK (SB203580), ERK (PD98059), PI3K (LY294002) and GSK3 (SB216763). We found that 1) the PI3K pathway was positively involved in the prolonged DC survival induced by BbC50sn, LPS and Zymosan in contrast to p38MAPK and GSK3 which negatively regulated DC survival; 2) p38MAPK and PI3K were positively involved in DC maturation, in contrast to ERK and GSK3 which negatively regulated DC maturation; 3) ERK and PI3K were positively involved in DC-IL-10 production, in contrast to GSK3 that was positively involved in DC-IL-12 production whereas p38MAPK was positively involved in both; 4) BbC50sn induced a PI3K/Akt phosphorylation similar to Zymosan and a p38MAPK phosphorylation similar to LPS.Conclusion/SignificanceWe report for the first time that a fermentation product of a bifidobacteria can differentially activate MAPK, GSK3 and PI3K in order to modulate DC biological functions. These results give new insights on the fine-tuned balance between the maintenance of normal mucosal homeostasis to commensal and probiotic bacteria and the specific inflammatory immune responses to pathogen bacteria.
Class switch recombination (CSR) plays an important role in adaptive immune response by enabling mature B cells to switch from IgM expression to the expression of downstream isotypes. CSR is preceded by inducible germline (GL) transcription of the constant genes and is controlled by the 3′ regulatory region (3′RR) in a stimulus-dependent manner. Why the 3′RR-mediated upregulation of GL transcription is delayed to the mature B-cell stage is presently unknown. Here we show that mice devoid of an inducible CTCF binding element, located in the α constant gene, display a marked isotype-specific increase of GL transcription in developing and resting splenic B cells and altered CSR in activated B cells. Moreover, insertion of a GL promoter downstream of the CTCF insulator led to premature activation of the ectopic promoter. This study provides functional evidence that the 3′RR has a developmentally controlled potential to constitutively activate GL promoters but that this activity is delayed, at least in part, by the CTCF insulator, which borders a transcriptionally active domain established by the 3′RR in developing B cells. E xpression of complex loci is developmentally programmed or induced by specific stimuli and is often controlled by distant regulatory elements within relatively large chromatin domains. Transcriptional and architectural factors play an important role in the establishment and maintenance of these domains and facilitate long-range interactions between regulatory elements and target promoters (1, 2). The Ig heavy chain (IgH) locus is expressed in a lineage-and developmental stage-dependent manner. Various cis-acting elements including promoters, enhancers, and insulators control IgH locus expression and are engaged in multiple long-range interactions (3, 4).Factors such as YY1, PAX5, IKAROS, CTCF, and Cohesin play important roles in various aspects of long-range events at the IgH locus, including V(D)J recombination, CSR, and promoter/enhancer and enhancer/enhancer interactions (3-6). Multiple CTCF binding elements (CBEs) were reported along the IgH locus. The majority of these CBEs lie within the variable domain (7), and two CBEs were identified within the V H -D intergenic region (7-9). At the 3′ end of the locus, ∼10 CBEs were identified downstream of the 3′RR and are thought to delineate the 3′ border of the IgH locus (10). More recently, a discrete CBE was identified within the α constant gene (11), but its role in vivo is presently unknown.Upon antigen challenge, mature B cells can undergo CSR that allows B cells to change the heavy-chain constant domain of an IgM to IgG, IgE, or IgA. CSR to a particular isotype is induced by specific external stimuli, including antigens, mitogens, cytokines, and intercellular interactions. CSR is mediated by highly repetitive sequences called switch (S) sequences located upstream of the constant exons and is preceded by germline (GL) transcription of the S sequences that originates from GL promoters, named I promoters (12).The 3′RR is composed of four enhance...
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