Therefore, the lipid backbone of BbGL-IIf is rotated 180° inside

Therefore, the lipid backbone of BbGL-IIf is rotated 180° inside the CD1d groove relative to that of BbGL-IIc, which leads to a dramatic repositioning of the galactose of BbGL-IIf (51). These results show that the fatty acid moieties also play an important role in stimulating iNKT cell TCR by determining the orientation of the sugar. More recently, the crystal structures of two mouse ternary complexes were determined: CD1d-GalAGSL-iNKT TCR and CD1d-BbGL-IIc-iNKT TCR (53). These bacterial antigens and αGalCer bind to CD1d in

different ways, as explained above (53). Surprisingly, these glycolipids are orientated in almost the see more same position above the CD1d binding groove when the TCR is bound (53). These data demonstrate that the iNKT cell TCR induces conformational changes in both microbial antigens and CD1d to adopt a conserved binding mode. Natural killer T cells expressing an invariant T cell antigen receptor recognize a glycolipid from B. burgdorferi; however, do these cells play a protective role against B. burgdorferi infection? It was previously reported that CD1d deficient mice have increased bacterial burden and joint inflammation after syringe infection with B. burgdorferi (54). However, CD1d deficient mice lack not only iNKT cells, but also NKT cells

with diverse TCRs. Moreover, CD1d has been shown to Carfilzomib solubility dmso have a signaling function independent of CD1d dependent NKT cells (55, 56). To determine if iNKT cells play a role in the response to B. burgdorferi, Jα18 deficient mice were infected using B. burgdorferi infected ticks, the natural route of infection. The Jα18 deficient mice exhibited more severe and prolonged joint inflammation compared to wild type mice (57). Jα18 deficient mice had a reduced ability to clear bacteria from infected tissues such as the bladder, ears, heart and joints (57). In the early phase of B. burgdorferi infection, iNKT Protein tyrosine phosphatase cells, but not conventional T cells, are activated and express intracellular cytokines including

IFNγ (57). iNKT cells inhibit carditis after B. burgdorferi infection by accumulating in the heart (58). After B. burgdorferi infection, IFNγ expression increases in wild type mice, but not in Jα18 deficient mice, and IFNγ receptor α chain deficient mice have higher bacterial burdens and increased inflammation in the heart compared to control mice (58). Furthermore, IFNγ treatment enhances B. burgdorferi uptake by macrophages (58). Collectively, these results show that iNKT cells play an important role in the clearance of bacteria and the prevention of chronic inflammation in the joints and heart in B. burgdorferi infection, suggesting that recognition of bacterial antigens by iNKT cell TCR contributes to the response to certain microbial pathogens. Natural killer T cells expressing an invariant T cell antigen receptor contribute to the clearance of bacteria after Sphingomonas infection. However, wild type mice, but not iNKT cell deficient mice, have been shown to die after S.

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